Patent Publication Number: US-6040146-A

Title: Detection of mammary tumor virus-like sequences in human breast cancer

Description:
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH 
     This invention was made with funds from the U.S. government, which has certain rights in the invention. 
    
    
     CROSS-REFERENCE TO RELATED APPLICATION 
     This application is a continuation-in-part application of U.S. Serial No. 08/555,394, filed Nov. 9, 1995, now U.S. Pat. NO. 5,686,247. 
    
    
     INTRODUCTION 
     The present invention relates to materials and methods for diagnosing breast cancer in humans. It is based, at least in part, on the discovery that a substantial percentage of human breast cancer tissue samples contained nucleic acid sequences corresponding to a portion of the mouse mammary tumor virus env gene. In contrast, such sequences were absent in almost all other human tissues tested. 
     BACKGROUND OF THE INVENTION 
     A large body of information has accumulated about the molecular biology of MMTV (reviewed in Slagle, B. L. et al., 1987, in &#34;Cellular and Molecular Biology of Mammary Cancer&#34;, Kidwell et al., eds., Plenum Press, NY. pp 275-306). Mouse mammary tumor virus (MMTV) is associated with a high incidence of breast cancer in certain strains of mice (over 90% among females), and has been regarded as a potential model for human disease. 
     The MMTV virus does not carry a transforming oncogene, but rather acts as an insertional mutagen with several proviral insertion loci designated int-1 or wnt-1 (Nusse R. et al., 1982, Cell 31:99-109) int-2 (Peters, G. et al., 1983, Cell 33:369-377) int-3 (Gallahan, D. et al., 1987, J. Virol. 61:218-220) int-4 (Roelink, H. et al., 1990, Proc. Natl. acad. Sci. USA 87:4519-4523) and int-5 (Morris, V. L., et al. 1991, Oncogene Research 6:53-63), which encode for growth factors or other related proteins. These genes are not expressed in normal mammary tissue but become activated after integration of MMTV provirus into the adjacent chromosomal DNA. 
     The human homolog of the int-2 locus has been located on chromosome 11 (Casey, G. et al., 1986, Mol. Cell Biol. 6:502-510) and has been found amplified (in 15% of the breast cancers) and also expressed (Lidereau, R. et al., 1988, Oncogene Res 2:285-291; Zhou, D. J. et al., 1988, Oncogene 2:279-282; Liscia, D. S. et al., 1989, Oncogene 4:1219-1224; Meyers, S. L. et al., 1990, Cancer Res 50:5911-5918). It may be significant that in tumors from Parsi women, who have a high incidence of breast tumors, the int-2 locus is amplified in 50% of the cases (Barnabas-Sohi, N. et al., 1993, Breast Dis. 6:13-26). The amplification of int-2 and other genes in 11q13 is indicative of poor prognosis (Schuwring, E. et al., 1992, Cancer Research 52:5229-5234; Champeme, M-H, et al., 1995, Genes, Chromosomes and Cancer 12:128-133). Both mouse and human int-2 have been sequenced (Moore, R. et al., 1986, EMBO J 5:919-924). The gene encodes a protein of about 27 kilodaltons (KD) which shows homology to both basic and acidic fibroblast growth factors (Dickson, C. et al. 1987, Nature (London) 326:833). 
     However, efforts to demonstrate the presence of viruses in human breast cancer through search for viral particles, immunological cross-reactivity, or sequence homology have yielded contradictory results. Detectable MMTV env gene-related antigenic reactivity has been found in tissue sections of breast cancer (Mesa-Tejada et al., 1978, Proc. Natl. Acad. Sci. USA 75:1529-1533; Levine, P. et al., 1980, Proc. Am. Assoc. Cancer Res. 21:170; Lloyd, R. et al., 1983, Cancer 51:654-661), breast cancer cells in culture (Litvinov, S. V. and Golovkina, T. V., 1989, Acta Virologica 33:137-142), human milk (Zotter S. et al., 1980, Eur. J. Cancer 16:455-467) in sera of patients (Day, N. K. et al., 1981, Proc. Natl. Acad. Sci. USA 78:2483-2487), in cyst fluid (Witkin, S. S. et al., 1981, J. Clin. Invest. 67:216-222) and in particles produced by a human breast carcinoma cell line (Keydar, I. et al., 1984, Proc. Natl. Acad. Sci. USA 81:4188-4192). Sequence homology to MMTV has been found in human DNA under low stringency conditions of hybridization (Callahan, R. et al., 1982, Proc. Natl. Acad. Sci. USA 79:5503-5507) and RNA related to MMTV has been detected in human breast cancer cells (Axel, R. et al., 1972, Nature 235:32-36). The presence of MMTV related sequences in lymphocytes from patients with breast cancer has been reported (Crepin, M. et al., 1984, Biochem. Biophys. Res. Comm. 118:324-331), as well as detection of reverse transcriptase (RT) activity in their monocytes (Al-Sumidaie, A. M. et al., 1988, Lancet 1:5-8). May and Westley (May and Westley, 1989, Cancer Research 49:3879-3883) have reported the presence of MMTV-like sequences arranged as tandem repeats only in DNA from breast cancer cells. 
     These results have been difficult to interpret, and theories linking MMTV or a related virus with human breast cancer have fallen out of favor, in view of the relatively recent discovery of human endogenous retroviral sequences (&#34;HERs&#34;; Westley, B. et al., 1986, J. Virol. 60:743-749; Ono, M. et al., 1986, J. Virol. 60:589-598; Faff, 0. et al., 1992, J. Gen. Virology 73:1087-1097). Data which could be interpreted to demonstrate the presence of MMTV-related sequences could be more readily explained by endogenous human retroviral sequences. Adding further confusion to the picture, env-gene related antigenicity has been detected in epitopes of human proteins (Hareuveni, M. et al., 1990, Int. J. Cancer 46:1134-1135). 
     SUMMARY OF THE INVENTION 
     The present invention relates to methods for diagnosing breast cancer in humans in which the presence of mouse mammary tumor virus env gene-like sequences bears a positive correlation to the existence of malignant breast disease. It is based, at least in part, on the discovery that 38 to 40 percent of human breast cancer tissue samples tested contained gene sequences homologous to the mouse mammary tumor virus env gene that are substantially absent from other human tumors and tissues. The invention also relates to methods for diagnosing breast caner in humans in which the presence of retrovirus proviral fragments substantially homologous to the env gene and/or 3&#39; LTR sequence of MMTV are detected. The molecular probes used in these experiments were designed to avoid cross-hybridization with endogenous human retroviral sequences. The present invention further provides for compositions of molecular probes which may be utilized in such diagnostic methods. 
    
    
     BRIEF DESCRIPTION OF THE FIGURES 
     FIG. 1: Amplification of 660 bp of MMTV-like env gene. DNA was extracted from frozen tissues. PCR was performed using primers 1 and 3. A: 2% agarose gel electrophoresis. B: Southern blot hybridization using 5&#39; 32  P-end-labeled probe 2. Lanes 1 and 3: breast cancer; lanes 2 and 4: normal breast; lane 5: control reaction (no DNA); lane E: MMTV env gene. M: molecular weight marker. Arrow indicates 510 bp band. 
     FIG. 2: Nested PCR. A: 2% agarose gel electrophoresis. 1: Amplification of 686 bp of MMTV-like env gene sequences using primers 1 and 4 and the product of reaction A 1 as template. 2: Amplification of 250 bp of MMTV-like env gene sequences using primers 2 and 3. B, 1 and 2: Southern blot hybridization of the amplified products using probe 5&#39;- 32  P end-labeled probe 2a. 
     FIG. 3: Amplification of 250 bp of MMTV-like env gene. DNA was extracted from paraffin-embedded tissue sections. PCR was performed using primers 2 and 3. A: 2% agarose gel electrophoresis. B: Southern blot hybridization using 5&#39; 32  P-labeled probe 2a. Lane 1: normal breast; lanes 2 to 5: breast cancer; lane E: MMTV env gene. M: molecular weight marker. Arrow indicates 298 bp band. 
     FIG. 4: Nucleotide sequence of the cloned MMTV env gene-like sequences as compared to the env sequences of the GR and BR6 strains of MMTV using the GCG program. *:potential glycosylation site, |:mismatch to MMTV. 
     FIG. 5: Southern blot hybridization of genomic DNA. DNA was extracted from frozen tissues or cell lines, digested with EcoRl and transferred to nitrocellulose paper. Hybridization with  32  P-labeled clone 166. DNA from A, B, and G: env gene positive breast cancer; C and D: env negative breast cancer; E and F: normal breast; H:MCF-7 cells. M: molecular weight marker, Arrow indicates 9 kb band. 
     FIG. 6: Southern blot hybridization of genomic DNA. Experimental conditions as in FIG. 5. DNA from A and B: env negative breast cancer; C and D: env positive breast cancer; E: molecular weight marker (non-labelled); F. to H: normal breast. Arrow indicates position of 9 kb marker. 
     FIG. 7: Map of MMTV. 
     FIG. 8: Comparison of the nucleic acid sequence of mouse mammary tumor env gene (&#34;MMTENV&#34;), showing residues 976-1640, with the nucleic acid sequence of a representative 660 bp sequence obtained by PCR reaction of DNA from human breast cancer tissue (&#34;MS1627&#34;). 
     FIG. 9: Sequence of an about 2.6 kb MMTV-like fragment detected in a human breast carcinoma. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The present invention relates to methods and compositions for diagnosing breast cancer in humans. 
     The present invention provides for compositions comprising an isolated and purified nucleic acid molecule which (i) hybridizes to a gene of mouse mammary tumor virus; (ii) is present in at least 20 percent of DNA samples prepared from breast cancer tissue of different human subjects; and (iii) is present in less than 5 percent of DNA samples prepared from tissues other than breast cancer tissue from different human subjects. A &#34;gene of mouse mammary tumor virus&#34; includes, but is not limited to, the gag, pol, and env genes and the 5&#39; LTR and 3&#39; LTR sequences of MMTV. In preferred embodiments of the invention, the mouse mammary tumor virus (hereafter &#34;MMTV&#34;) gene is the env gene and/or the 3&#39; LTR sequence. The term &#34;hybridize&#34; is used to refer to routine DNA-DNA or DNARNA hybridization techniques under what would be regarded, by the skilled artisan, as stringent hybridization conditions. The phrase &#34;is present&#34; indicates that a native form of the molecule, in an unpurified state (for example, as part of chromosomal DNA), may be detected by a standard laboratory technique, such as Southern blot or polymerase chain reaction (PCR). To be &#34;present&#34;, the molecule may be detectable by one technique but not others. To be present in &#34;less than 5 percent of DNA samples prepared from tissues other than breast cancer tissue from different human subjects&#34;, all non-breast cancer tissue samples are considered together, but the total number of samples must be large enough to give the 5 percent value statistical significance that would be reasonable to the skilled artisan. 
     In order to identify such a nucleic acid molecule, the sequence of MMTV may be compared, using a computer database, to known human DNA sequences, and portions of MMTV which are less than or equal to 25 percent homologous to a human sequence may be selected for further study. The term &#34;homologous&#34;, as used herein, refers to the presence of identical residues; for example, a first sequence is considered 25 percent homologous to a second sequence if it shares 25 percent of the residues of the first sequence. Since there is relatively greater likelihood that MMTV may bear similarity to human retroviral-like sequences, it may be preferable to evaluate whether a particular MMTV nucleic acid sequence is homologous to such sequences, for example, as endogenous human retrovirus sequences. A prototype of such viruses is HERV-K1O (Ono, M. et al., 1986, J. Virol. 60:589-598). 
     Once an MMTV gene sequence which is less than or equal to 25 percent homologous to a human DNA sequence, such as a human endogenous retroviral sequence, is identified, the presence of nucleic acid molecules having the MMTV gene sequence in human breast cancer tissues and other tissues may be evaluated. Such evaluations may be performed either by Southern blot techniques, or, preferably, by polymerase chain reaction (PCR) techniques, which are more sensitive. In such a way, MMTV gene sequences which (i) hybridize to at least 20 percent of DNA samples prepared from breast cancer tissue of different human subjects and (ii) hybridize to less than 5 percent of DNA samples prepared from human tissues other than breast cancer tissues may be identified. A nucleic acid molecule having a MMTV gene sequence which satisfies these requirements may then be used in diagnostic methods which detect the presence of such sequence in human breast tissue by standard techniques, including PCR techniques which assay for the presence of the molecule, but also, where appropriate, Southern blot, Northern blot, or Western blot techniques, to name but a few. 
     In preferred embodiments, the present invention relates to a portion of MMTV localized between MMTV env gene sequences 976 and 1640 (Majors, I. E. and Varmus, H. E., 1983, J. Virol. 47:495-504; see FIG. 7). This about 660 bp sequence (hereafter, &#34;the 660 bp sequence&#34;) has been found to exhibit low (16 percent) homology to the prototype human endogenous retrovirus HERV-K10, using the IBI/Pustell Sequence Analysis Program, and has also been shown to be present in 121 (38.5%) of 314 unselected breast cancer tissue samples, in cultured breast cancer cells, in 2 of 29 breast fibroadenomas (6.9%) and in 2 of 107 breast specimens from reduction mammoplasties (1.8%). The sequence was not found in normal tissues including breast, lymphocytes from breast cancer patients nor in other human cancers or cell lines (see example section, infra). Similarly, an about 250 bp sequence (hereafter &#34;the 250 bp sequence&#34;), between positions 1388 and 1640 in the env gene, and therefore falling within the 660 bp sequence, was detected in 60 (39.7%) of 151 breast cancer, and in one of 27 normal breast samples assayed from paraffin-embedded sections. Cloning and sequencing of the 660 bp and 250 bp sequences demonstrated that they are 95-99% homologous to MMTV env gene, but not to the known human endogenous retroviruses (&#34;HERs&#34;) nor to other viral or human genes (&lt;18%). 
     In another preferred embodiment, the present invention relates to a a nucleic acid molecule which corresponds to a retroviral genomic fragment which has substantial homology to 3&#39; LTR and/or env gene of the MMTV genome, and is found in a substantial percentage of breast cancer samples. By substantial percentage is meant at least 20% of tested breast cancer samples. Such a sequence is preferably comprised of the 3&#39; LTR region and all or part of the env gene, although it may include more sequences of a retroviral genome. Most preferably, the sequence is at least comprised of an about 2.6 kb fragment which comprises the 1,228 base pair (bp) sequence of the 3&#39; LTR sequence and 1,336 bp of the env gene sequence of MMTV (FIG. 9) (SEQ ID NO:20). When compared with the two strains of MMTV C3H and BR6, the sequence homology was 90.8% and 90.7%, respectively. When compared with the endogenous retroviral sequences (HUMERKA), sequence homology was only 58% in 36 bp and 71% in 74 bp. 
     Retrovirus proviral sequences can be detected by PCR technology using primers derived from the MMTV genome. Such primers include primer 5L, containing the nucleotides 7376-7395 of the MMTV BR6 genome (5&#39;-3&#39;: CCAGATCGCCTTTAAGAAGG) (SEQ ID NO:11) and primer LTR3, containing nucleotides 9918-9927 of the MMTV BR6 genome (5&#39;-3&#39;: CGAACAGACACAAAGCGACG) (SEQ ID NO:19). Other primers which correspond to or are homologous to MMTV sequences can be used as primers. Nucleotide fragments which correspond to or are homologous to the retroviral sequences isolated from the breast cancer samples can also be used to amplify additional retroviral fragments from the samples. Long PCR techniques can be used to amplify longer stretches of a proviral sequence. 
     The present invention provides for compositions comprising an isolated and purified nucleic acid molecule which hybridizes to the about 2.6 kb retroviral fragment shown in FIG. 9 under stringent conditions or is at least 90 percent homologous to said fragment using the MacVector homology determining program which may be used to diagnose breast cancer in a subject, using methods which include PCR and Southern blot methods. 
     Nucleic acids having the 660 bp sequence, the 250 bp sequence, or all or part of the about 2.6 kb sequence, may therefore be used, according to the invention, to diagnose breast cancer in a subject, using methods which include PCR and Southern blot methods. Where PCR methods are used, primers such as those listed in Table 1, below, may be utilized. 
     The present invention provides for compositions comprising essentially purified and isolated nucleic acid having the 660 bp sequence or the 250 bp sequence or an at least five bp, and preferably greater than or equal to ten bp, subsequence thereof. In order to maintain the desired specificity, such nucleic acid molecules may preferably contain sequence falling within the 660 bp sequence, but preferably do not contain sequences from other portions of the MMTV genome, which may, undesirably, hybridize to human sequences which are not breast cancer specific, such as HERs. Accordingly, the present invention provides for compositions wherein the isolated and purified nucleic acid molecule comprises at least a portion having a nucleic acid sequence which hybridizes to a region of the mouse mammary tumor virus env gene between residues 976 and 1640, or between residues 1388 and 1640, and wherein the isolated and purified nucleic acid molecule does not hybridize to any other region of the MMTV genome. 
     The 660 bp sequence, in various embodiments, may have a number of nucleotide sequences. For example, in one embodiment, the 660 bp sequence may have a sequence as set forth in FIG. 8 and designated &#34;MMTENV-like sequence&#34; (SEQ ID NO:17), which depicts the MMTV env sequence between residues 976 and 1640. In a second series of embodiments, the 660 bp sequence may have a sequence as set forth in FIG. 8 and designated &#34;MS1627&#34; (SEQ ID NO:18), which depicts a predominant sequence for the 660 bp sequence as it has been defined by sequencing analysis of the products of PCR reactions using DNA from human breast cancer tissues. In still further embodiments, the 660 bp sequence may have various other nucleotide sequences obtained by sequencing the results of PCR reactions to detect the presence of 660 bp sequence in human breast cancer tissues. 
     In related embodiments, the present invention provides for compositions comprising PCR primers that may be used to detect the presence of the forementioned molecules or other MMTV-like sequences. For example, the compositions may comprise one or more of the following primer molecules (5&#39;-3&#39;): CCTCACTGCCAGATC (SEQ ID NO:1); GGGAATTCCTCACTGCCAGATC (SEQ ID NO:2); CCTCACTGCCAGATCGCCT (SEQ ID NO:3); TACATCTGCCTGTGTTAC (SEQ ID NO:4); CCTACATCTGCCTGTGTTAC (SEQ ID NO:5); CCGCCATACGTGCTG (SEQ ID NO:6); ATCTGTGGCATACCT (SEQ ID NO:7); GGGAATTCATCTGTGGCATACCT (SEQ ID NO:8); ATCTGTGGCATACCTAAAGG (SEQ ID NO:9); GAATCGCTTGGCTCG (SEQ ID NO:10); CCAGATCGCCTTTAAGAAGG (SEQ ID NO:11); TACAGGTAGCAGCACGTATG (SEQ ID NO:12); CGAACAGACACAAACACACG (SEQ ID NO:19). 
     The use of such compositions and molecules in PCR and Southern blot techniques is illustrated in the non-limiting examples set forth below. The correlation between the presence of the MMTV-related nucleic acid molecules described above and breast cancer allows such molecules and compositions to be utilized in the diagnosis of breast cancer. Accordingly, the present invention provides for a method of diagnosing breast cancer, wherein the detection of such nucleic acid molecules bears a positive correlation to the existence of breast cancer in a human. The results of such evaluation, together with additional clinical symptoms, signs, and laboratory test values, may be used to formulate the complete diagnosis of the patient. 
     In further related embodiments, the present invention provides for an essentially purified peptide encoded by a nucleic acid molecule which (i) hybridizes to a gene of MMTV; (ii) is present in at least 20 percent of DNA samples prepared from breast cancer tissue of different human subjects; and (iii) is present in less than 5 percent of DNA samples prepared from tissues other than breast cancer tissue from different human subjects. In preferred embodiments, the MMTV gene is the env gene. 
     Such peptides may be used in the diagnosis of breast cancer. Accordingly, the present invention provides for a method of diagnosing breast cancer in a human subject, comprising detecting the presence of a peptide encoded by a nucleic acid molecule which (i) hybridizes to the env gene of a mouse mammary tumor virus; (ii) is present in at least 20 percent of DNA samples prepared from breast cancer tissue of different human subjects; and (iii) is present in less than 5 percent of DNA samples prepared from tissues other than breast cancer tissue from different human subjects. 
     The present invention also provides for antibodies (including monoclonal and polyclonal) antibodies which specifically bind to such peptides. Such antibodies may be used in methods of diagnosing breast cancer, for example, but not by way of limitation, by Western blot, immunofluorescent techniques, and so forth. 
     In nonlimiting embodiments of the invention, the skilled artisan may evaluate MMTV-like nucleic acid molecules for regions which would be considered likely to encode immunogenic peptides (using, for example, hydropathy plots). Such peptides may then be sequenced and used to produce antibodies that may be employed in diagnostic methods as set forth above. 
     For example, certain peptides encoded by portions of the 660 bp sequence have been synthesized. These peptides, which have the sequences LKRPGFQEHEMI (SEQ ID NO:13) and GLPHLIDIEKRG (SEQ ID NO:14), have been used to produce antibodies in rabbits, and the resulting antisera have successfully identified breast cancer cells positive for MMTV. env-like sequences by PCR assay. Other peptides encoded by 660 bp sequence which may be useful according to the invention include TNCLDSSAYDTA (SEQ ID NO:15) and DIGDEPWFDD (SEQ ID NO:16). 
     6. Example: The Detection of Mouse Mammary Tumor Virus Env Gene-Like Sequences in Human Breast Cancer Cells and Tissues 
     6.1. Materials and Methods 
     DNA from breast cancer tissue and other human cancer tissues, human placentas, normal human tissues including breast, and from several human cell lines (including eight breast cancer cell lines), and two normal breast cell lines was extracted following the procedure of Delli Bovi et al. (1986, Cancer Res. 46:6333-6338). The DNA was resuspended in a solution containing 0.05 M Tris HC1 buffer, pH 7.8, and 0.1 mM EDTA, and the amount of DNA recovered was determined by microfluorometry using Hoechst 33258 dye (Cesarone, C. et al., 1979, Anal Biochem 100:188-197). Plasmids containing the cloned genes of MMTV were obtained from the ATCC, propagated in Escherichia coli cultures and purified using anion-exchange minicolumns (Qiagen) or by precipitation with polyethylene glycol (Sambrook J., et al., 1989, in &#34;Molecular Cloning/A Laboratory Manual&#34;, Cold Spring Harbor). Oligonucleotide primers were synthesized at the core facilities of the Brookdale Molecular Biology Center at Mount Sinai School of Medicine. 
     Polymerase chain reaction (PCR) was performed using Taq polymerase following the conditions recommended by the manufacturer (Perkin Elmer Cetus) with regard to buffer, Mg 2+  and nucleotide concentrations. Thermocycling was performed in a DNA cycler by denaturation at 94° C. for 3 min. followed by either 35 or 50 cycles of 94° C. for 1.5 min., 50° C. for 2 min. and 72° C. for 3 min. The ability of the PCR to amplify the selected regions of the MMTV env gene was tested by using as positive templates the cloned MMTV env gene and the genomic DNA of the MCF-7 cell line, since it was shown to express gp52 immunological determinants (Yang, N. S., et al., 1975, J. Natl. Cancer Inst. 61:1205-1208). Optimal Mg 2+ , primer concentrations and requirements for the different cycling temperatures were determined with these templates. The master mix as recommended by the manufacturer was used. To detect possible contamination of the master mix components, a reaction without template was routinely tested. γ DNA and control primers provided by the manufacturer were used as control for polymerase activity. As an internal control, amplification of a 120 bp sequence estrogen receptor gene was assayed using primers designed and generously provided by Dr. Beth Schachter, (Mount Sinai School of Medicine, N.Y.). In addition, primers for actin 5 gene amplification were also used. 
     The product of the PCR was analyzed by electrophoresis in a 2% agarose gel. A 1 kb DNA ladder (Gibco BRL) was used to identify the size of the PCR product. To determine if the amplified sequences of the middle region of the 660 bp faithfully reproduced the sequences of the env gene of MMTV, an 18-mer sequence within the env gene was used as a probe for the 660 bp amplified sequence. The 18-mer probe was 5&#39; end-labeled with  32  P-ATP using T4 polynucleotide kinase and purified by the NENSORB nucleic acid purification cartridge (NEN). Southern blot hybridization was performed using the conditions described by (Saiki et al.,1985, Science 230:1350-1354). 
     The product of the PCR (660 bp or 250 bp) was cloned directly from the reaction mixture into the TA cloning vector (Invitrogen) using the TA cloning kit and following the conditions recommended by the supplier. Direct cloning of the fragment isolated from the gel, was also performed. Plasmid DNA was purified by CsCl density gradient centrifugation or by precipitation with polyethylene glycol (Sambrook et al., 1989, in &#34;Molecular Cloning/A Laboratory Manual&#34;, Cold Spring Harbor), restricted with HindIII and EcoRl, electrophoresed in 2% agarose gels and transferred to nitrocellulose filters. Southern blot hybridization was carried out using a 5&#39;-terminal labeled internal probe as described above. Cloning procedures were performed in laboratories totally separate from those where PCR was carried out. Automated DNA sequencing (using Applied Technology Sequencer Model 373A) was performed in the Brookdale Molecular Biology Center. Sequence homology was determined using the IBI MacVector GenBank and GCG Programs. 
     To prevent contamination of the samples, processing of human tissues was performed in a laminar flow hood. DNA extractions were done in a chemical hood located in a different room from that where PCR was performed. PCR assays were assembled in a biological hood provided with ultraviolet light. Aerosol resistant tips and dedicated positive-displacement pipettes were used throughout. All equipment used for PCR (microcentrifuge, electrophoresis apparatus, pipettors) was cleaned each time with 10% sodium hypochlorite to assure DNA decontamination (Prince and Andrus, 1992, Biotechniques 12:358-36). After the initial experiments were performed, the plasmid containing the MMTV env gene was frozen and never used again, to avoid contamination. However, to detect plasmid contamination from our own env gene clones, primers were designed to amplify plasmid sequences. All the authentic MMTV env positive samples were then tested and found negative for plasmid contamination. 
     Southern blotting and hybridization were performed as described (Southern, E. M., 1975, J. Mol. Biol. 98:503-517), using the 660 bp cloned sequences labeled by the random primer procedure (Feinberg, A. P., et al., 1983, Anal. Biochem. 132:6-13). Prehybridization and hybridization were performed in a solution containing 6×SSPE, 5% Denhardt&#39;s, 0.5% SDS, 50% formamide, 100 μg/ml denaturated salmon testis DNA, incubated for 18 hrs at 42° C., followed by washings with 2×SSC and 0.5% SDS at room temperature and at 37° C. and finally in 0.1×SSC with 0.5% SDS at 68° C. for 30 min (Sambrook et al., 1989, in &#34;Molecular Cloning/A Laboratory Manual&#34;, Cold Spring Harbor). For paraffin-embedded tissue sections the conditions described by Wright and Manos (1990, in &#34;PCR Protocols&#34;, Innis et al., eds., Academic Press, pp. 153-158) were followed using primers designed to detect a 250 bp sequence. 
     6.2. Results 
     6.2.1. Selection of Specific MMTV Env Gene Sequences 
     A computer search for MMTV env gene homologous sequences was first performed, since sequence homology between the human endogenous retroviral sequences and MMTV had been described. The prototype of this group of human endogenous retroviruses is HERV-K10 (Ono, M. et al., 1986, J. Virol. 60:589-598). The sequences of the env gene of MMTV (Majors, I. E. and Varmus, H. E., 1983, J Virol 47:495-504) were aligned with sequences of the env gene of the human endogenous retrovirus HERV-K10 (Ono, M. et al., 1986, J. Virol. 60:589-598), using the IBI/Pustell Sequence Analysis Program. A region of 660 bp of low homology (16%) was localized between MMTV env gene sequences 976 and 1640 (Majors, I. E. and Varmus, H. E., 1983, J Virol 47:495-504). This internal domain of the outer membrane of the env gene has only one glycosylation site and is highly conserved between strains. Two primers comprising 15 bp sequences at positions 976-990 (primer 1) and 1626-1640 (primer 3) were first synthesized. Later longer primers were synthesized (1N and 3N). An 18-mer sequence in the middle of the 660 bp MMTV env region (1388-1405) (primer 2) was used as a probe to identify the 660 bp sequence. A second oligomer probe was synthesized comprising the sequence 1554 to 1568 (primer 2a) to be used for hybridization when a sequence of around 250 bp (between positions 1388 and 1640) was amplified. For nested PCR reactions (Mullis, K. B. and Faloona, F. A., 1987, Meth Enzymol 155:335-350), another primer comprising sequences 1647 to 1661 (primer 4) was synthesized to be used with primer 1 in the first reaction and primers 2 and 3 in the second. Modified primers with GC clamps and extra sequences were also synthesized and used in the PCR (primers 1a and 3a). Another set of primers comprising sequences 974 to 1003 (5L) and 1558 to 1577 (3L) were subsequently developed because their Tm&#39;s matched and provided better amplification than the original primers. The sequences are represented in Table 1. All of them were productive in amplification reactions. 
     
                       TABLE 1                                                     
______________________________________                                    
Primer and probe sequences and location                                   
 in mouse mammary tumor virus env gene                                    
  Designation                                                             
             Sequence (5&#39;-3&#39;)      Location                               
______________________________________                                    
1        CCTCACTGCCAGATC        976-990                                   
  1a GGGAATTCCTCACTGCCAGATC  976-990                                      
  1N CCTCACTGCCAGATCGCCT  976-993                                         
  2 TACATCTGCCTGTGTTAC 1388-1405                                          
  2N CCTACATCTGCCTGTGTTAC 1386-1405                                       
  2a CCGCCATACGTGCTG 1554-1568                                            
  3 ATCTGTGGCATACCT 1640-1626                                             
  3a GGGAATTCATCTGTGGCATACCT 1640-1626                                    
  3N ATCTGTGGCATACCTAAAGG 1640-1621                                       
  4 GAATCGCTTGGCTCG 1661-1647                                             
  5L CCAGATCGCCTTTAAGAAGG  984-1003                                       
  3L TACAGGTAGCAGCACGTATG 1558-1577                                       
______________________________________                                    
 
    
     6.2.2. Detection of MMTV-Like Env Gene Seauences in Human Breast Tumor DNA 
     PCR was performed on DNA extracted from breast cancer tissues, normal breast tissues and from the plasmid containing the env gene of MMTV, using primers 1 and 3. Photographs of the ethidium bromide stained gels of the PCR product reveal the presence of an approximately 660 bp sequence in some of the tumors, (FIG. 1A, lanes 1 and 3) but not in the normal tissue samples (FIG. 1A, lanes 2 and 4). As a positive control the MMTV env gene was also amplified (FIG. 1A, lane E). Similar results were obtained with modified primers 1a, 3a, 3L and 5L. Southern blot hybridization of the gel with  32  P-labeled 18-mer oligonucleotide (primer 2) indicated that this internal sequence was present in the amplified material (FIG. 1B) and that the bands in the gel were not artifactual. 
     Our initial effort was to analyze a representative sample of breast cancer specimens as well as normal tissues and other tumors. To date 343 breast tumors have been processed, DNA extracted and PCR preformed. Of these 343 tumors, 314 were carcinomas and 29 were fibroadenomas. Amplification of sequences of 660 bp was observed in 121 of the carcinomas (38.5%) and in 2 of the 29 fibroadenomas (6.9%). These sequences were confirmed to be MMTV env gene-like sequences by hybridization with the labeled specific probe containing the internal sequences. These sequences were not detected in the DNAs extracted from 20 normal organs, 23 cancers from other organs and 26 samples of blood lymphocytes including 7 from breast cancer patients whose breast specimens were positive. From 107 samples of normal breast obtained from reduction mammoplasties, 2 were positive (1.8%). In addition to DNA from lymphocytes from seven positive patients, DNA from their normal breast tissue of the operated breast was tested in 4 cases. All were negative (Table 2). Finally, DNA of the MCF-7, and ED (a cell line developed in our laboratory from the pleural effusion of a patient with an env -positive breast tumor) breast cancer cell lines were shown to contain the 660 bp MMTV env gene-like sequences (Table 3), while four other breast cancer cell lines were positive only for the 250 bp sequence (T47-D, BT-474, BT-20 and MDA-MB-231). 
     
                       TABLE 2                                                     
______________________________________                                    
Detection of MMTV env gene-like                                           
  sequences in human DNA extracted                                        
  from fresh or frozen tissues                                            
                          MMTV env gene                                   
  Sample Number sequences % Positive                                      
______________________________________                                    
Breast Carcinomas                                                         
             314      121          38.5%                                  
  Breast Fibroadenomas 29  2  6.9%                                        
  Normal Breasts 107  2  1.8%                                             
  *Normal Breasts 4 negative                                              
  Tumors other than breast 23 negative                                    
  Normal tissues 20 negative                                              
  Lymphocytes 26 negative                                                 
  **Lymphocytes 7 negative                                                
______________________________________                                    
 *Histologically normal tissue from same breast as positive cancer.       
 **Lymphocytes from breast cancer patients who were positive for MMTV env 
 gene sequences in the tumor.                                             
 
    
     
                       TABLE 3                                                     
______________________________________                                    
Detection of MMTV env gene-like sequences                                 
  in DNA from human cell lines in culture                                 
  Human Cell Lines      MMTV env gene sequence                            
______________________________________                                    
MC-7     (breast carcinoma)                                               
                        positive                                          
  T47-D (breast carcinoma) negative                                       
  BT-20 (breast carcinoma) negative                                       
  MDA-MB-231 (breast carcinoma) negative                                  
  ZR-75-1 (breast carcinoma) negative                                     
  SK-BR 3 (breast carcinoma) negative                                     
  BT474 (breast carcinoma) negative                                       
  ED (breast carcinoma) positive                                          
  MCF-10 (normal breast) negative                                         
  HB-447 (normal breast) negative                                         
  HL-60 (promyelocytic leukemia) negative                                 
  K562 (erythroleukemia) negative                                         
  Jurkat (T cell leukemia) negative                                       
  Hep 6-2 (hepatoma) negative                                             
______________________________________                                    
 
    
     The nested polymerase reaction was used in several instances to increase sensitivity and specificity, thus reducing the probability of false positives. In FIG. 2, results of a representative nested reaction are shown using primers 1 and 4 in the first reaction (FIG. 2A) and 2 and 3 for the 2nd reaction. The specificity of the reaction can be seen in the 2nd amplification (FIG. 2B). 
     To study a large number of samples and to be able to perform archival studies, PCR of paraffin-embedded tissue sections was also carried out. Primers 2 and 3 were used to amplify a 250 bp sequence within the 660 bp stretch when DNA was extracted from paraffin-embedded tissue sections since larger size sequences are difficult to amplify after fixation. Tumor DNA was amplified (FIG. 3A, lanes 2-5) whereas normal breast DNA was not (FIG. 3A, lane 1). The identification of this 250 bp sequence with the MMTV-like env gene was confirmed by hybridization with an internal probe (primer 2a) as shown in FIG. 3B. Using this procedure we have analyzed 151 breast cancer samples and found that 60 (39.7%) possess the 250 bp sequence. Of the 27 normal breast samples obtained from reduction mammoplasties assayed by this procedure, one was positive (3.7%). These results, in conjunction with those obtained from lymphocytes and from normal breast tissue of patients whose breast cancer was PCR positive, indicate that MMTV-like sequences are present in a significant number of human breast cancer DNA which cannot be explained by DNA polymorphism. 
     6.2.3. Cloning and Sequencing of the MMTV-Like Env Gene Sequences 
     To find out whether there was homology to MMTV env gene throughout the whole 660 bp stretch, the product of the PCR from 8 different tumors was cloned and sequenced. In FIG. 4 the sequence of different clones comprising around 600 bp are represented, as aligned to the MMTV env gene sequence of the GR and BR6 strains (Redmon, S. and Dickson, C., 1983, EMBO J. 2:125-131). This domain of the env gene in the GR strain is 100% homologous to the C 3  H strain and 98% to the BR6 strain (Majors, I. E. and Varmus, H. E., 1983, J. Virol. 47:495504; Moore, R. et al., 1987, J. Virol. 61:480-490). Evaluation of the clones indicated that homology to MMTV env gene varied from 95% to 99%. Another seven clones comprising only 250 bp were also sequenced. Homology to MMTV env gene varied from 95% to 99% (data not shown). When compared to the human endogenous provirus HERV-K10, the homology of all the clones was less than 15%. When compared against all known viral and human genes (more than 130,000 entries) using the lBl Macvector GenBank and GCG programs, the highest homology recorded was 18%. 
     6.2.4. Southern Blot Analysis Using Cloned Sequences 
     To investigate whether the env gene-like sequences were present in human DNA, Southern blot hybridization was performed using the cloned sequence as probe. DNAs from normal breast tissues, env positive or negative breast tumors, tumors other than breast and breast cancer cell lines were restricted with EcoRI and in some instances with Pstl, Bglll or Kpnl. EcoRl is a frequent cutter restriction enzyme that digests MMTV proviral DNA between env and pol genes. Four different cloned 660 bp sequences were used as probes after labeling with  32  P by random prime-labeling. Results of some of the Southern blot hybridization experiments are shown in FIG. 5. They reveal the presence of a labeled restriction fragment migrating at approximately 7-8 kb in breast cancer DNA, in ED and two fragments in MCF-7 cells. Different restriction patterns were observed with the other three enzymes. The 660 bp sequence was absent in 10 normal tissues, 10 fibroadenomas and 10 tumors from other tissues. It is important to emphasize that hybridization conditions for these experiments were stringent (as described in Section 6.1) to avoid interference with endogenous sequences that might interact with the probes. 
     7. Example: Detection of a Retrovirus Proviral Fragment in Human Breast Cancer Cells and Tissues 
     7.1. Materials and Methods 
     To detect longer retrovirus proviral fragments in breast cancer samples, DNA was extracted from breast cancer carcinoma tissue samples as described above in Section 6.1. Two rounds of long PCR was performed on the DNA primers 5L (SEQ ID NO:11) and LTR3 (SEQ ID NO:19). The primer 5L contains nucleotides 7370-7395 of the MMTV BR6 genome (5&#39;-3&#39;: CCAGATCGCCTTTAAGAAGG) (SEQ ID NO:11) and primer LTR3 contains nucleotides 9918-9927 of the MMTV BR6 genome (5&#39;-3&#39;: CGAACAGACACAAAGCGACG) (SEQ ID NO:19). Long PCR was performed using protocols described by the manufacturer (Perkin Elmer, Foster City, Calif.). The amplified retroviral fragment isolated from the breast cancer sample was cloned into the TA cloning vector (Invitrogen) and automated sequencing and sequence analysis was performed as described in Section 6.1. 
     7.2 Results 
     An approximately 2.6 kb retroviral fragment containing 1,228 bp of the 3&#39; LTR sequence and 1,336 bp of the env gene sequence of a potential provirus was detected in a human breast carcinoma tissue sample by the long PCR technique using the 5L and LTR3 primers. The sequence of this retroviral fragment is shown in FIG. 9. (SEQ ID NO:20). 
     When compared with the two strains of MMTV C3H and BR6, the sequence homology was 90.8% and 90.7%, respectively, over the MMTV genomic fragment from nucleotides 7370-9937. When compared with the endogenous retroviral sequences (HUMERKA), sequence homology was only 58% in 36 bp and 71% in 74 bp. 
     Search for virus-related sequences in human breast cancer has been hampered by great variation reported in previous studies, by the presence of endogenous retroviral sequences in human DNA and by the lack of sensitivity of the methods employed. The studies reported herein circumvent these deficiencies by focusing on sequences with low homology to human endogenous retroviruses, by investigating a large number of tumors and several types of controls and by using the most sensitive technology presently available. 
     The results indicate that unique MMTV env gene sequences were present in 38.5% of the breast cancer samples analyzed and 39.7% of archival samples of breast cancer and that these sequences were absent in normal tissues including lymphocytes from patients with positive breast cancer and in cancers other than breast. Normal breast tissue and fibroadenomas had a low frequency (1.8 to 6.9%) of positive results. When cloned and sequenced, the sequences were found to be highly homologous to MMTV env gene, but not to the endogenous retroviral sequences. Furthermore, experiments in which the cloned amplified sequences were used for hybridization with DNA from breast cancer or normal tissues revealed that homologous DNA was only present in breast cancer DNA. The results also indicate that a human breast carcinoma sample contained an about 2.6 kb MMTV-like fragment comprised of 1,336 bp of the env gene and 1,228 bp of the 3&#39; LTR. 
     The detection of MMTV env gene sequences in two fibroadenomas out of 29 and in two normal breast tissue samples out of 107 samples is of uncertain significance. Although such results could potentially be artifactual, and thus may represent false positives, they may alternatively indicate the presence of histologically unrecognized cells that were or will be neoplastic. 
     Ninety percent (90%) of the breast cancers tested were invasive ductal carcinomas, which reflects the prevalence of this type of neoplasm. Most patients were node-positive which is probably artifactual since it was necessary that tumor size be sufficiently large to provide an aliquot for research and tumor size correlates with node positivity. 
     It is unlikely that differences in homology between MMTV env gene and the cloned human sequences are generated by errors committed by the Taq polymerase. It has been estimated that the rate of nucleotide misincorporation is 1×10 -5  per cycle (Ehrlich et al, 1991, Science 252:1643-1651) and therefore, only a total of 0.32 nucleotides misincorporated should be expected in 660 bp after 50 cycles. The differences in homology between clones from different patients is likely to represent heterogeneity of the env gene. 
     In contrast to earlier, ambiguous data associating MMTV-like sequences with human breast cancer, we have clearly demonstrated the existence of such sequences in breast cancer cells which cannot be explained by any known human endogenous retroviral sequence. Our data do not support the results of earlier studies which indicated that, as in the mouse, MMTV-like sequences were found in lymphocytes from two patients with breast cancer (Crepin, M. et al., 1984, Biochem. Biophys. Res. Comm. 118:324-331). The absence of MMTV env-like sequences in lymphocytes could reflect the fate of a unique lymphocyte subset over decades between initial encounter and the appearance of clinical breast cancer; alternatively, the human disease may differ from the mouse model. Results from attempts to identify unique MMTV-like pol gene sequences have shown that they cannot be distinguished from the reverse transcriptase sequences of endogenous retroviruses (Deen, K. C. and Sweet, R. W., 1986, J. Virol. 57:422-432). 
     The origin of the MMTV env gene-like and 3&#39; LTRlike sequences found in tumor DNA could be the result of integrated MMTV-like sequences from a human mammary tumor virus. Polymorphism of endogenous retroviral sequences is conceivable but can be ruled out because these sequences were not detected in lymphocytes from the positive patients, in sections of the cancerous breast from which abnormal cells were absent, or in normal breast tissue from patients with MMTV env-like positive tumors. Recombination during tumorigenesis between endogenous sequences to resemble the MMTV env genes seems highly unlikely since no known gene or viral sequence is more than 18% homologous to the 660 bp sequence. The longer about 2.6 kb MMTV-like fragment detected in a human breast carcinoma had minimal homology (58% in 36 bp nd 71% in 74 bp) to endogenous human retroviral sequences. Thus, the most conservative interpretation is that our findings represent exogenous sequences from an agent similar to MMTV. Recombination between endogenous and exogenous env gene sequences are known to accelerate the development of malignancies in mice (DiFronzo, N. L. and Holland, C. A., 1993, J. Virol. 67:3763-3770). Whether the MMTV-like sequences belong to an entire acquired provirus or to an exogenous fragment integrated into endogenous sequences, is presently not known. Experiments are in progress to distinguish between these possibilities. 
     Several genetic alterations have been identified in human breast cancer that can be useful as markers for prevention, detection or prognosis (reviewed in Runnenbaum, I. et al., 1991, Proc. Natl. Acad. Sci. USA 88:10657-10661). The BRCAl and BRCA2 genes have recently been described. They account for at least 5% of breast cancer and are related to familial breast cancer (Miki, Y. et al., 1994, Science 266:66-71; Wooster, R. et al., 1994, Science 265:2088-2090). We have primary evidence that familial clustering of the MMTV env gene-like sequences occurs, accounting for an even higher percentage of cancers in affected families (Holland et al. 1994, Proc. Am. Assoc. Cancer Res 35:218). The presence of MMTV-like sequences may be correlated with special clinical disease status, may provide another potential molecular marker, and may distinguish a subset of human breast cancer for which viral etiology is tenable. This has implications for epidemiology, therapy and prevention. 
     Various publications are cited herein, the contents of which are hereby incorporated by reference in their entireties. 
     
         __________________________________________________________________________
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C    60                                                                   
  - -  TCCACGGTGG TTGCCTTGCG CCTTCCCTGA CCAAGGGGTG AGTTTTTCTC - #CAAAAGGGG
C   120                                                                   
  - -  CCTTGGGTTA CTTTGGGATT TCTCCCTTCC CTCGCCTAGT GTAGATCAGT - #CAGATCAGA
T   180                                                                   
  - -  TAAAAGCAAA AAGGATCTAT TTGGAAATTA TACTCCCCCA GTCAATAAAG - #AGGTTCATC
G   240                                                                   
  - -  ATGGTATGAA GCAGGATGGG TAGAACCTAC ATGGTTCTGG GAAAATTCTC - #CTAAGGATC
C   300                                                                   
  - -  CAATGATAGA GATTTTACTG CTCTAGTTCC CATACAGAAT TGTTTCGCTT - #AGTTGCAGC
C   360                                                                   
  - -  TCAAGATATC TTATTCTCAA AAGGCAGGAT TTCAGGAACA TGAGATGATT - #CCTACATCT
C   420                                                                   
  - -  TGTGTTACTT ACCCTTATGT CATATTATTA GGATTACCTC AGCTAATAGA - #TATAGAGAA
A   480                                                                   
  - -  GAGGATCTAC TTTTCATATT TCCTGTTCTT CTTGTAGATT GACTAATTGT - #TTAGATTCT
T   540                                                                   
  - -  CTGCCTACGA CTATGCAGCG ATCATAGTCA AGAGGCCGCC ATACGTGCTG - #CTACCTGTA
G   600                                                                   
  - -  ATATTGGTGA TGAACCATGG TTTGATGATT CTGCCATTCA AACCTTTAGG - #TATGCCACA
G   660                                                                   
  - -  AT                 - #                  - #                  - #   
          662                                                             
  - -  - - (2) INFORMATION FOR SEQ ID NO:18:                              
  - -      (i) SEQUENCE CHARACTERISTICS:                                  
           (A) LENGTH: 663 base - #pairs                                  
           (B) TYPE: nucleic acid                                         
           (C) STRANDEDNESS: single                                       
           (D) TOPOLOGY: linear                                           
  - -     (ii) MOLECULE TYPE: cDNA                                        
  - -    (iii) HYPOTHETICAL: NO                                           
  - -     (iv) ANTI-SENSE: NO                                             
  - -      (v) FRAGMENT TYPE:                                             
  - -     (vi) ORIGINAL SOURCE:                                           
  - -            (xi) SEQUENCE DESCRIPT - #ION: SEQ ID NO:18:             
  - -  TCCTCACTGN CAGATCGCCT TTAAGAAGGA CGCCTTCTGG GAGGGAGACG - #AGTCTGCTC
C    60                                                                   
  - -  TCCACGGTGG TTGACTTGCG CCTTCCCTGA CCAGGGGGTG AGTTTTTCTC - #CAAAAGGGG
C   120                                                                   
  - -  CCTTGGGTTA CTTTGGGATT TCTCCCTTCC CTCGCCTAGT GTAGATCAGT - #CAGATCAGA
T   180                                                                   
  - -  TAAAAGCAAA AAGGATCTAT TTGGAAATTA TACTCCCCCT GTCAATAAAG - #AGGTTCATC
G   240                                                                   
  - -  ATGGTATGAA GCAGGATGGG TAGAACCTAC ATGGTTCTGG GAAAATTCTC - #CTAAGGATC
C   300                                                                   
  - -  CAATGATAGA GATTTTACTG CTCTAGTTCC CATACAGAAT TGTTTCGCTT - #AGTTGCAGC
C   360                                                                   
  - -  TCAAGATATC TTATTCACAA AAGGCAGGAT TTCAAGAACA TGACATGAAT - #CCCTACATC
T   420                                                                   
  - -  CTGTGTTACT TACCCTTATG CCANANTATT AGGATTACCT CAGCTAATAG - #ATATAGAGG
A   480                                                                   
  - -  AGAGGATCTA CTTTTCATAT TTCCTGTTCT TCTTGTAGAT TGACTAATTG - #TTTAGATTC
T   540                                                                   
  - -  TCTGCCTACG ACTATGCAGC GATCATAGTC AAGAGGCCGC CATACGTGCT - #GCTACCTGT
A   600                                                                   
  - -  GATATTGGTG ATGAACCATG GTTTGATGAN NCTGCCANTC AAACCTTTAG - #GTATNCCAC
A   660                                                                   
  - -  GAT                 - #                  - #                  - #  
          663                                                             
  - -  - - (2) INFORMATION FOR SEQ ID NO:19:                              
  - -      (i) SEQUENCE CHARACTERISTICS:                                  
           (A) LENGTH: 20 base - #pairs                                   
           (B) TYPE: nucleic acid                                         
           (C) STRANDEDNESS: single                                       
           (D) TOPOLOGY: linear                                           
  - -     (ii) MOLECULE TYPE: cDNA                                        
  - -    (iii) HYPOTHETICAL: NO                                           
  - -     (iv) ANTI-SENSE: NO                                             
  - -      (v) FRAGMENT TYPE:                                             
  - -     (vi) ORIGINAL SOURCE:                                           
  - -            (xi) SEQUENCE DESCRIPT - #ION: SEQ ID NO:19:             
  - -  CGAACAGACA CAAACACACG           - #                  - #           
       - # 20                                                             
  - -  - - (2) INFORMATION FOR SEQ ID NO:20:                              
  - -      (i) SEQUENCE CHARACTERISTICS:                                  
           (A) LENGTH: 2598 base - #pairs                                 
           (B) TYPE: nucleic acid                                         
           (C) STRANDEDNESS: single                                       
           (D) TOPOLOGY: linear                                           
  - -     (ii) MOLECULE TYPE: cDNA                                        
  - -    (iii) HYPOTHETICAL: NO                                           
  - -     (iv) ANTI-SENSE: NO                                             
  - -      (v) FRAGMENT TYPE:                                             
  - -     (vi) ORIGINAL SOURCE:                                           
  - -            (xi) SEQUENCE DESCRIPT - #ION: SEQ ID NO:20:             
  - -  CGAACAGACA CAAACACACG AGAGGTGAAT GTTAGGACTG TTGCAAGTTT - #ACTCAAAAA
A    60                                                                   
  - -  CAGCACTCTT TTATATCATG GTTTACATAA GCATTTACAT AAGACTTGGA - #TAAGTTCCA
A   120                                                                   
  - -  AAGAACATAG GAGAATAGAA CACTCAGAGC TTAGATCAAA ACATTTGATA - #CCAAACCAA
G   180                                                                   
  - -  TCAGGAAACC ACTTGTCTCA CATCCTTGTT TTAAGAACAG TTTGTGACCC - #TGAACTTAC
T   240                                                                   
  - -  TAAACCTTGG GAACCGCAAN GTTGGGCTCA TAAAGGTTAT CCATTATAGC - #TCATGCCAA
A   300                                                                   
  - -  ATTATCTGCA GAAATGTGTT CCTAATTGTC TAGCCACTGC CCCCTCCCTT - #GGTATAATG
A   360                                                                   
  - -  AAATCTTTCC CCCAACGTTC ATCCCACTCC CCTAGATAAA TATAATCATG - #TACCTGTTG
T   420                                                                   
  - -  TTTATGTCGT CTTTTTCTTC CTGAGTTAAC ACACACCAAG GAGGTCTAGC - #TCTGGCGAG
T   480                                                                   
  - -  CTTTCACGAA AGGGGAGGGA TCTGTACAAC ACTTTATAGC CGTTGACTGT - #GACCCACCT
A   540                                                                   
  - -  TCGAAATTTA AATCGTATCT TCCTGTATAT GGTAGCGGGG CGTCTGTTGG - #TCTGTAGAT
G   600                                                                   
  - -  TAAGTCCCGG TTGCCACCAC CTGTCTCCTA TTTTGACAAG CGTACTCCTC - #TTTCCCCTT
T   660                                                                   
  - -  TTACTTCTAG GCCTGAGGCC CTTAGTCCTT GCACCTGTTC TTCAACTGAG - #GTTGAGCGT
C   720                                                                   
  - -  TCTTTCTATT TTCTATTCCC ATTTCTAACC TTTGAATTTG AGTAAATATA - #GTGCTAAAA
G   780                                                                   
  - -  ACAAAGATTC ATTTCTTAAC ATCATGATTA ATAATCGACC TATTGGATTG - #GTCTTATTG
G   840                                                                   
  - -  TAAAAATATA ATTTTTAGCA AGCATTCTTA TTTCTATTTC TGAAGGACAA - #AGTCGGTGT
G   900                                                                   
  - -  GCTTGTAANA GGAANTTGGC TGTGGTCCTT GCCCCACGAG GAAGGTCGAG - #TTCTCCGAA
T   960                                                                   
  - -  TGTTTAGATT GTAATCTTGC ACAGAAGAGT TATTAAAAGA ATCAAGGGTG - #AGAGCCCTG
C  1020                                                                   
  - -  GAGCACGAAC CGCAACTTCC CCCAATAGCC CCAGGCAAAG CAGAGCTATG - #CCAAGTTTG
C  1080                                                                   
  - -  AGCAGANAAT GAGTATGTCT TTGTCTGATG GGCTCATCCG CGTGCACGCA - #GACGGGTCG
T  1140                                                                   
  - -  CCTTGGTGGG AAACAACCCC TTGGCTGCTT CTCTCCTAAG TGTAGGACAC - #TCTCGGGAG
T  1200                                                                   
  - -  TCAACCATTT CTGCTGCAGG CGCGGCATTT CCCCCTTTTT TCTTTTTTAA - #AAGAAGCAC
G  1260                                                                   
  - -  TTAAGATCTG ACTGCACTTG GTCAAGGCTC TTCGCAAAGC ACTGGAAAAT - #AACGGGGAA
A  1320                                                                   
  - -  ATCATAAGTA CTATGACCAA AAGCAGGGCT CCAACTCCTA TAAAAATGAA - #ATATTGTGT
T  1380                                                                   
  - -  CTAATCCAAT GGATTTAAAG CCTTTACTCC ATTGGCNAAG GANTGANCCA - #ACCCCTGAG
G  1440                                                                   
  - -  TCCCTGCGTT CAAATTTTTT TGCTCNTATC CTAATCCAAT TGGTAACCCC - #GTTTNTTTT
T  1500                                                                   
  - -  GAAACTCATG TCTTCAAATG CCCAATAAAT GAGCCCTGGT TCTTTCCCAG - #CTCTCAGAA
G  1560                                                                   
  - -  CATTATACGG NANAGGTGTG ACACAGCATA AAATCATAAT TTGCATGACA - #CCTAGTGGA
C  1620                                                                   
  - -  ATTCTGGTCT TTAAGTTTGC CACATCTTGT CCCAACTCTA AAACTACTTC - #TTCTAAAGC
A  1680                                                                   
  - -  TTAAGTCTAG CTTTCAATTT TAAGTCTATT ATTCTTTGTT CAGATNAGGC - #TAATGTAAC
A  1740                                                                   
  - -  TTTCTATGAA GATTATTAAC AAACGTAGCA GTTTGCATCT CCTTAACTAA - #GGCAGTAGT
A  1800                                                                   
  - -  GCTACAGCAA AGGAAGTGAT AATAGCAATT AAAGCAGATA TGCCCAGAAT - #AATGGCAGC
G  1860                                                                   
  - -  ACGAATCGCT TAGCTCGAAT TAAATCTGTG GCATACCTAA AGGTTTGAAT - #GGCAGAATC
A  1920                                                                   
  - -  TCAAACCATG GTTCATCACC AATATCTACA GGTTACAACA CATATGGCGG - #CCCCTTGAA
T  1980                                                                   
  - -  ATGAATCGCT GCATATCCGT NGGCAAAAAA TCTAACCATT ATTCCTCCTN - #CCNAAAAAC
G  2040                                                                   
  - -  GGATTTGAAA NTTATNCCCC TTNCCCCNAA CCCANACCGA GGTACCCCAT - #AATGNGGGG
G  2100                                                                   
  - -  GTATCTANAA NAGGGCATAG GGGTAAGAAA AACGGCAGAG NGGGATCNTT - #TATGTTCNG
G  2160                                                                   
  - -  AAATTCNGGG TTTGGGAGAA TAAGATTCTG GAGGCTGCAA ATTAAGGGAA - #ACATTNTGT
A  2220                                                                   
  - -  TGGGGAATAG AGCAGTAAAA TCTCTATCAT GGGGATCTTT AGGGAGAATT - #TTCCCAGGA
A  2280                                                                   
  - -  CCAAGTAGGT TCNAACCCAT CNTGCTTCAT ACCATCGATG AACNTCTTTA - #TTGACAGGG
G  2340                                                                   
  - -  GAGTATAATT TCCAAATAGA TCCTTTTTGT TTTTAATCTG ATCTGACTGA - #TCTACACTA
G  2400                                                                   
  - -  GCGGGGGAAG GGAGAAATCC CAAAGTAACC CAAGGGCCCC TTTTGGAGAA - #AAACTCACC
C  2460                                                                   
  - -  CCTGGTCAGG GAAGGCGCAA GGCAACCACC GTGGAGGAGC AGACTCGTCT - #CCCTCCCAG
A  2520                                                                   
  - -  AGGCGTCCTT CTTAAAGGCG ATCTGGAGGA GCAGACTCGT CTCCCTCCCA - #GAAGGCGTC
C  2580                                                                   
  - -  TTCTTAAAGG CGATCTGG            - #                  - #            
      - #2598                                                             
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