Source: https://www.federalregister.gov/documents/2010/01/13/2010-420/prospective-grant-of-exclusive-license-development-of-v-atpase-inhibitor-compounds-for-the-treatment
Timestamp: 2018-07-20 19:14:47
Document Index: 377213124

Matched Legal Cases: ['art 404', 'Application No. 60', 'Application No. 10', 'Application No. 03751813', 'Application No. 2003269924', 'Application No. 2493821', 'Application No. 12', 'Application No. 60', 'Application No. 11', 'Application No. 01959257', 'Application No. 2415611', 'Application No. 514137']

Federal Register :: Prospective Grant of Exclusive License: Development of V-ATPase Inhibitor Compounds for the Treatment of Human Cancers and Osteoclastic Bone Diseases Excluding Rheumatoid Arthritis and Other Osteo-Specific Auto-Immune Diseases
Prospective Grant of Exclusive License: Development of V-ATPase Inhibitor Compounds for the Treatment of Human Cancers and Osteoclastic Bone Diseases Excluding Rheumatoid Arthritis and Other Osteo-Specific Auto-Immune Diseases
Only written comments and/or applications for a license which are received by the NIH Office of Technology Transfer on or before February 12, 2010 will be considered.
75 FR 1798
https://www.federalregister.gov/d/2010-420 https://www.federalregister.gov/d/2010-420
This is notice, in accordance with 35 U.S.C. 209(c)(1) and 37 CFR Part 404.7(a)(1)(i), that the National Institutes of Health, Department of Health and Human Services, is contemplating the grant of an exclusive patent license to practice the inventions embodied in the following U.S. Patents and Patent Applications to the Australian Institute of Marine Science (“AIMS”) located in Townsville, Queensland, Australia.
U.S. Provisional Patent Application No. 60/398,092 filed July 24, 2002 entitled “Chondropsin-Class Antitumor V-ATPase Inhibitor Compounds, Compositions and Methods of Use Thereof” [HHS Ref. No. E-191-2002/0-US-01];
International Patent Application No. PCT/US03/23290 filed July 24, 2003 entitled “Chondropsin-Class Antitumor V-ATPase Inhibitor Compounds, Compositions and Methods of Use Thereof” [HHS Ref. No. E-191-2002/0-PCT-02];
U.S. Patent Application No. 10/521,930 filed April 18, 2005 entitled “Chondropsin-Class Antitumor V-ATPase Inhibitor Compounds, Compositions and Methods of Use Thereof” [HHS Ref. No. E-191-2002/0-US-03];
European Patent Application No. 03751813.1 filed February 16, 2005 entitled “Chondropsin-Class Antitumor V-ATPase Inhibitor Compounds, Compositions and Methods of Use Thereof” [HHS Ref. No. E-191-2002/0-EP-04];
Australian Patent Application No. 2003269924 filed February 4, 2005 entitled “Chondropsin-Class Antitumor V-ATPase Inhibitor Compounds, Compositions and Methods of Use Thereof” [HHS Ref. No. E-191-2002/0-AU-05];
Canadian Patent Application No. 2493821 filed January 24, 2005 entitled “Chondropsin-Class Antitumor V-ATPase Inhibitor Compounds, Compositions and Methods of Use Thereof” [HHS Ref. No. E-191-2002/0-CA-06];
U.S. Patent No. 7,521,475 issued April 21, 2009 entitled “Chondropsin-Class Antitumor V-ATPase Inhibitor Compounds, Compositions and Methods of Use Thereof” [HHS Ref. No. E-191-2002/0-US-07];
U.S. Patent Application No. 12/402,560 filed March 12, 2009 entitled “Chondropsin-Class Antitumor V-ATPase Inhibitor Compounds, Compositions and Methods of Use Thereof” [HHS Ref. No. E-191-2002/0-US-08];
U.S. Provisional Patent Application No. 60/220,270 filed July 24, 2000 entitled “Biologically Active Macrolides, Compositions, and Uses Thereof” [HHS Ref. No. E-203-2000/0-US-01];
International Patent Application No. PCT/US01/23633 filed July 24, 2001 entitled “Biologically Active Macrolides, Compositions, and Uses Thereof” [HHS Ref. No. E-203-2000/0-PCT-02];
US Patent No. 7,144,918 issued December 5, 2006 entitled “Biologically Active Macrolides, Compositions, and Uses Thereof” [HHS Ref. No. E-203-2000/0-US-04];
US Patent Application No. 11/435,189 filed May 16, 2006 entitled “Biologically Active Macrolides, Compositions, and Uses Thereof” [HHS Ref. No. E-203-2000/0-US-08];
Australian Patent No. 200112808 issued November 30, 2006 entitled “Biologically Active Macrolides, Compositions, and Uses Thereof” [HHS Ref. No. E-203-2000/0-US-03];
European Patent Application No. 01959257.5 filed July 24, 2001 entitled “Biologically Active Macrolides, Compositions, and Uses Thereof” [HHS Ref. No. E-203-2000/0-EP-05];
Canadian Patent Application No. 2415611 filed July 24, 2001 entitled “Biologically Active Macrolides, Compositions, and Uses Thereof” [HHS Ref. No. E-203-2000/0-CA-06]; and
Japanese Patent Application No. 514137/2002 filed July 24, 2001 entitled “Biologically Active Macrolides, Compositions, and Uses Thereof” [HHS Ref. No. E-203-2000/0-JP-07].
The prospective exclusive license territory may be worldwide and the field of use may be for “use of Licensed Patent Rights for use and development of pharmaceutically suitable V-ATPase Inhibitor compounds for the treatment of human cancers, including osteosarcoma, and osteoclastic bone diseases, such as osteoporosis, osteopenia and Paget's disease, ” in “all” geographic territories. For avoidance of doubt, the field of use will specifically exclude rheumatoid arthritis and other osteo-specific autoimmune diseases.
Requests for copies of the patent application, inquiries, comments, and other materials relating to the contemplated exclusive license should be directed to: Sabarni K. Chatterjee, PhD Licensing and Patenting Associate, Cancer Branch, Office of Technology Transfer, National Institutes of Health, 6011 Executive Boulevard, Suite 325, Rockville, MD 20852-3804; Telephone: (301) 435-5587; Facsimile: (301) 435-4013; e-mail: chatterjeesa@od.nih.gov.
The technology describes the class of Chondropsin compounds and its derivatives. The compounds can be potentially developed into new therapeutics for cancer, osteoporosis, and Alzheimer's diseases.
Briefly, vacuolar type (H+) ATPase (V-ATPase) has been described as “a universal proton pump of eukaryotes”. V-ATPase is responsible for maintaining internal acidity and is important in myriad of physiological functions, such as sorting of membrane proteins, proinsulin conversion, neurotransmitter uptake, and cellular degradation process. This technology describes a new chondropsin, Poecillastrin-A, a cytotoxic, 33-member ring, macrolide lactam, isolated from the sponge Poecillastra sp. It is structurally related to the chondropsin class of macrolide lactams. However, it possesses unique patterns of methylation and oxygenation, and it is the first member of this family of polyketide derivatives with a 33-membered macrocyclic ring. The in vitro anti-tumor activity of the compound is comparable to that of the chondropsins, however the new structural features found in Poecillastrin-A broaden the known structural diversity of this family of potent anti-proliferative and cytotoxic macrolide lantams. The chondropsins and poecillastrin A produce a distinctive pattern of differential cytotoxicity in the NCI's 60 cell antitumor screen that directly correlates with selective V-ATPase inhibitors.
This class of compounds and its' derivatives have the potential of being used as a therapeutics against several cancer types and may have applicability as highly selective anti-cancer small molecule inhibitors. Additionally, it has Start Printed Page 1799the potential of being used for the treatment of several other diseases such as osteoporosis, and Alzheimer's diseases.
[FR Doc. 2010-420 Filed 1-12-10; 8:45 am]