Source: https://www.federalregister.gov/documents/2010/05/27/2010-12794/government-owned-inventions-availability-for-licensing
Timestamp: 2018-03-21 15:54:48
Document Index: 577515426

Matched Legal Cases: ['Application No. 61', 'Application No. 10', 'Application No. 12', 'Application No. 2009250964', 'Application No. 2513646', 'Application No. 12', 'Application No. 12', 'Application No. 12', 'Application No. 11', 'Application No. 12', 'Application No. 11']

2010-12794
Simple, Quantitative and Highly Specific Antibody Detection of Lyme Disease
Target Activated Microdissection—Kits and High Throughput Applications
A Novel Chimeric Bifunctional Protein for Prevention and Treatment of HIV Infection
https://www.federalregister.gov/d/2010-12794 https://www.federalregister.gov/d/2010-12794
The inventions listed below are owned by an agency of the U.S. Government and are available for Start Printed Page 29764licensing in the U.S. in accordance with 35 U.S.C. 207 to achieve expeditious commercialization of results of federally-funded research and development. Foreign patent applications are filed on selected inventions to extend market coverage for companies and may also be available for licensing.
Description of Invention: This invention uses the Luciferase Immunoprecipitation System (LIPS) as a highly specific and high throughput method for diagnosing Borrelia burgdorferi (Bb) infection, a causative agent of Lyme disease. Many antigens, fused to the renilla luciferase (RUC) system, were tested for their ability to detect the disease; however, a novel synthetic protein called VOVO displayed the highest sensitivity and specificity of those tested. VOVO demonstrated 94% sensitivity and 100% specificity and markedly out-performed the C6 ELISA test (currently the most sensitive test available, with 76% sensitivity and 98% specificity) in an analysis of independent validation serum sets. Unlike the C6 ELISA, the VOVO LIPS assay displayed a wide dynamic range of antibody detection spanning over a 10,000-fold range without serum dilution. These results indicate that LIPS screening method using VOVO or other Bb antigens offer a more convenient, efficient and quantitative approach to serological screening of antibodies to Lyme disease.
The VOVO LIPS test may benefit from a large market as it could potentially become part of a routine screening panel for Lyme disease. In addition to its high sensitivity and specificity, the test also provides a rapid, simple and high-through-put approach for efficient screening of the disease. It may also be adapted for detection of Borrelia species endemic to other regions of the world.
Increased sensitivity and specificity for detection of Lyme disease.
Rapid and convenient detection of Lyme disease.
Market: 29,000 new cases per year in the U.S.
Inventors: Peter D. Burbelo (NIDCR), Michael J. Iadarola (NIDCR), Adriana R. Marques (NIAID).
Publication: PD Burbelo et al. Rapid, Simple, Quantitative, and Highly Sensitive Antibody Detection for Lyme Disease. Clin Vaccine Immunol. 2010 Apr 14; Epub ahead of print, doi:10.1128/CVI.00476-09. [PubMed: 20392886]
Patent Status: U.S. Provisional Application No. 61/312,520 filed 10 Mar 2010 (HHS Reference No. E-036-2010/0-US-01).
Collaborative Research Opportunity: The National Institute of Dental and Craniofacial Research, Laboratory of Sensory Biology, Neurobiology and Pain Therapeutics Section, is seeking statements of capability or interest from parties interested in collaborative research to further develop, evaluate, or commercialize this technology. Please contact David W. Bradley, PhD at 301-402-0540 or bradleyda@nidcr.nih.gov.
Description of Invention: Available for licensing is a software system useful in applications involving nuclear magnetic resonance (NMR). The software system, called NMRPipe, is written in the C programming language, and makes use of the TCL/TK scripting environment. The system includes over 500 modules for processing and analyzing experimental data of one to four dimensions collected on NMR spectrometers. The system exploits the UNIX computer operating system facilities of pipelines and scripts to link modules in a highly flexible, user-definable manner. NMR is a widely used analytical method, applied to both solution and solid state samples. The information obtained from such data pertains to the structure, motion, and interactions of molecular systems, including proteins, nucleic acids, and organic molecules.
Biomedical research for studying protein and nucleic acid structures and their interactions.
Chemical applications involving synthesis, identification, or production of organic molecules.
Inventors: Frank Delaglio (NIDDK).
1. Kontaxis G, Delaglio F, Bax A. Molecular fragment replacement approach to protein structure determination by chemical shift and dipolar homology database mining. Methods Enzymol. 2005;394:42-78. [PubMed: 15808217]
2. Delaglio F, Wu Z, Bax A. Measurement of homonuclear proton couplings from regular 2D COSY spectra. J Magn Reson. 2001 Apr;149(2):276-281. [PubMed: 11318630]
3. Cornilescu G, Delaglio F, Bax A. Protein backbone angle restraints from searching a database for chemical shift and sequence homology. J Biomol NMR. 1999 Mar;13(3):289-302. [PubMed: 10212987]
4. Delaglio F, Grzesiek S, Vuister GW, Zhu G, Pfeifer J, Bax A. NMRPipe: a multidimensional spectral processing system based on UNIX pipes. J Biomol NMR. 1995 Nov;6(3):277-293. [PubMed: 8520220]
Patent Status: HHS Reference No. E-076-2009/0—Software. Patent protection is not being pursued for this technology.
Licensing Contact s: Uri Reichman, PhD, MBA; 301-435-4616; UR7a@nih.gov; or John Stansberry, PhD; 301-435-5236; js852e@nih.gov.
Collaborative Research Opportunity: The National Institute of Diabetes and Digestive and Kidney Diseases is seeking statements of capability or interest from parties interested in collaborative research to further develop, evaluate, or commercialize the NMRPipe software system. Please contact Cindy Fuchs at 301-451-3636 or Frank Delaglio at frankde@niddk.nih.gov for more information.
Description of Invention: A variety of techniques have been used to microdissect specific cells or cell populations from a histological sample under direct microscopic visualization. Original microdissection techniques involved painstaking (and sometimes clumsy) manual dissection using needles or other micro-manipulation Start Printed Page 29765devices to isolate individual cells based on visible, histological characteristics.
The subject technology is a novel method of performing specific target activated transfer from a biological sample (i.e. tissue) for analysis using a device system that can be automated for high throughput analysis or using benchtop kits. The method employs a localized reagent, such as an absorbative stain or immunoreagent that specifically determines the microadhesion of desired cellular material in a tissue sample to a transfer surface such as a thermoplastic polymer film. The energy from a light or heat source causes the specific microadhesion of the target cells or cell populations to the thermoplastic transfer surface without damage to the cells. Subsequent separation of the film from the tissue section selectively removes the adhered target from the tissue section. The method is specific and eliminates the need for direct manual visualization. Kits based on the method have the distinct advantage of not requiring expensive equipment; and thus, are a cost effective option for microdissection and analysis.
Microdissection and analysis kits for histological samples.
Does not require a visual detection step.
Kits based on the method are low cost options for microdissection.
Automated high throughput microdissection and analysis capabilities.
Inventors: Michael R. Emmert-Buck (NCI), Robert F. Bonner (NICHD), et al.
1. Tangrea MA, Chuaqui RF, Gillespie JW, Ahram M, Gannot G, Wallis BS, Best CJ, Linehan WM, Liotta LA, Bonner RF, Emmert-Buck MR. Expression microdissection: operator-independent retrieval of cells for molecular profiling. Diagn Mol Pathol. 2004 Dec;13(4):207-212. [PubMed: 15538110]
2. Grover A, Woodson KA, Tangrea MA, Wallis BS, Hanson J, Chuaqui RF, Gillespie JW, Erickson HS, Bonner RF, Pohida T, Emmert-Buck MR, Libutti SK. Tumor-associated endothelial cells display GSTP1 and RAR beta2 promoter methylation in human prostate cancer. J Translational Med. 2006 Mar 2;4:13. [PubMed: 16512911]
3. Hanson JC, Rodriguez-Canales J, Bonner RF, Pohida T, Tangrea MT, Emmert-Buck MR. Expression Microdissection Adapted to Commercial Laser Dissection Instruments (Submitted for publication).
HHS Reference No. E-113-2003/0—
U.S. Patent Application No. 10/543,218 filed 22 Jul 2005, allowed.
U.S. Patent Application No. 12/753,566 filed 02 Apr 2010.
Australian Patent 2003256803 issued 21 Jan 2010.
Australian Patent Application No. 2009250964 filed 23 Jul 2009.
Canadian Patent Application No. 2513646 filed 23 Jun 2003.
HHS Reference No. E-113-2003/1—
U.S. Patent 7,695,752 issued 13 Apr 2010.
U.S. Patent Application No. 12/713,105 filed 24 Feb 2010.
Description of Invention: This technology describes a therapeutic HIV DNA vaccine to be administered to individuals who have previously experienced or are undergoing antiretroviral therapy (ART). The therapeutic DNA vaccine can also be administered in combination with a vector encoding an IL-15 and/or IL-15 receptor alpha (IL-15Ra) polypeptide. In primate studies, the technology was found to be particularly effective when the vaccine composition was administered by electroporation and expressed six (6) HIV antigens (including two (2) gag polypeptides and two (2) envelope polypeptides) and IL-15 and IL-15Ra. The antigens are typically modified with a destabilizing sequence, a secretory polypeptide and/or a degradation signal. Successive administration up to as many as nine resulted in continual boost of the immune response against the encoded antigen. A potent immunotherapeutic vaccine as described here could be an important technology for the fight against HIV/AIDS.
Inventors: Barbara Felber et al. (NCI).
U.S. Patent Application No. 12/522,775 filed 10 Jul 2009, claiming priority to 12 Jan 2007 (HHS Reference No. E-103-2007/0-US-03).
U.S. Patent Application No. 12/160,263 filed 08 Jul 2008, claiming priority to 13 Jan 2006 (HHS Reference No. E-254-2005/2-US-12); and related international patent applications.
U.S. Patent Application No. 11/571,879 filed 09 Jan 2007, claiming priority to 09 Jul 2004 (HHS Reference No. E-249-2004/1-US-02).
U.S. Patent Application No. 12/426,901 filed 20 Apr 2009, claiming priority to 01 Nov 2000 (HHS Reference No. E-308-2000/0-PCT-02); and related international patent/patent applications.
Collaborative Research Opportunity: The National Cancer Institute is seeking statements of capability or interest from parties interested in collaborative research to further develop, evaluate, or commercialize HIV DNA vaccines. Please contact John D. Hewes, PhD at 301-435-3121 or hewesj@mail.nih.gov for more information.
Description of Invention: This invention relates to bifunctional fusion proteins effective in HIV neutralization. Specifically, the invention is a genetically engineered chimeric protein composed of a soluble extracellular region of human CD4 (sCD4) attached via a flexible polypeptide linker to a single-chain construct of a human monoclonal antibody directed against a CD4-induced, highly conserved gp120 determinant involved in co-receptor interaction and virus entry. Mechanistically, the binding of the sCD4 moiety to the HIV gp120 Env glycoprotein induces a conformational change that enables the antibody moiety to bind, thereby blocking Env function and virus entry. This novel design provides the protein with unique characteristics that enables its extremely strong binding to gp120, thus rendering it a potential effective antiviral agent against HIV. Recent studies (Lagenaur et al. Retrovirology 7:11, 2010) indicate that this novel bispecific protein displays extremely broad neutralizing activity against genetically diverse primary HIV-1 isolates, with breadth much greater than previously described (Dey et al. J. Virology 77:2859, 2003). The potency is generally at least 10-fold greater than the best described HIV-1 neutralizing monoclonal antibodies, and the protein is highly active against many HIV-1 isolates that are refractory to neutralization by these antibodies. The bifunctional protein is comparably potent against isogenic virions produced from a human cell line versus PBMC; by contrast, the broadly-reactive monoclonal antibodies are much less Start Printed Page 29766potent against virions produced from PBMC, perhaps due to differences in glycosylation. Importantly, the bifunctional protein is composed of almost entirely human sequences. It potentially can be linked to other functional moieties to achieve desired properties (longer plasma half-life, selective killing of HIV-infected cells, imaging of viral reservoirs, etc.).
The chimeric protein of this invention has considerable potential for prevention of HIV-1 infection, both as a topical microbicide and as a systemic agent to protect during and after acute exposure (e.g. vertical transmission, post exposure prophylaxis). It also has potential utility for treatment of chronic infection, including gene therapy strategies involving hematopoietic stem cells and/or viral vectors. Such proteins, nucleic acid molecules encoding them, and their production and use in preventing or treating viral infections are claimed in the patents issued for this invention.
Prophylactic and/or therapeutic treatment for HIV infection.
Topical microbicide treatment to protect against HIV infection.
Imaging of HIV infected cells in tissues.
High neutralization efficiency due to unique bifunctional binding characteristics.
Potentially minimally immunogenic or toxic (human sequences and possibly low treatment doses).
Broad neutralizing activity.
Mechanism of action less susceptible to resistance.
Market: The race to develop effective antiviral strategies against HIV infection is ongoing. The problems exhibited by conventional drugs such (i.e. toxicity and resistance) have triggered the pursuit of alternative approaches to HIV/AIDS prevention and treatment. One of the new approaches is the development of neutralizing antibodies against the HIV envelope proteins. This approach has not yet yielded any commercially viable treatment. It is believed that the approach presented in the subject invention will circumvent many of the shortcomings of the existing drugs and other pursued approaches. If this approach is successful the commercial rewards will be huge because of the global magnitude of HIV epidemics.
Inventor: Edward A. Berger (NIAID).
1. Lagenaur LA, Villarroel VA, Bundoc V, Dey B, Berger EA. sCD4-17b bifunctional protein: Extremely broad and potent neutralization of HIV-1 pseudotyped viruses from genetically diverse primary isolates. Retrovirology 2010 Feb 16; 7:11. [PubMed: 20158904]
2. Dey B, Del Castillo CS, Berger EA. Neutralization of human immunodeficiency virus type 1 by sCD4-17b, a single-chain chimeric protein, based on sequential interaction of gp120 with CD4 and coreceptor. J Virol. 2003 March; 77(5):2859-2865. [PubMed: 12584309]
HHS Reference No. E-039-1999/0—
U.S. Patent No. 7,115,262, issued 03 Oct 2006.
U.S. Application No. 11/535,957, filed 27 Sep 2006, published 18 Oct 2007 as 20070243208.
Australian Patent No. 765218, issued 30 Jul 2003.
European Patent No. 1161445 issued 03 Sep 2008 for France, Germany, Great Britain, Italy.
Applications pending in Canada, Japan.
Licensing Contacts: Uri Reichman, PhD, MBA; 301-435-4616; ur7a@nih.gov; or Susan Ano, PhD, 301-435-5515; anos@mail.nih.gov.
Collaborative Research Opportunity: The NIAID, Office of Technology Development, is seeking statements of capability or interest from parties interested in collaborative research to further develop, evaluate, or commercialize “A Novel Chimeric Protein for Prevention and Treatment of HIV Infection.” Please contact Marguerite J. Miller at 301-435-8619 for more information.
[FR Doc. 2010-12794 Filed 5-26-10; 8:45 am]