96-9614. Government-Owned Inventions; Availability for Licensing  

  • [Federal Register Volume 61, Number 77 (Friday, April 19, 1996)]
    [Notices]
    [Pages 17309-17311]
    From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
    [FR Doc No: 96-9614]
    
    
    
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    DEPARTMENT OF HEALTH AND HUMAN SERVICES
    National Institutes of Health
    
    
    Government-Owned Inventions; Availability for Licensing
    
    AGENCY: National Institutes of Health, HHS.
    
    ACTION: Notice.
    
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        The inventions listed below are owned by agencies of the U.S. 
    Government and are available for licensing in the U.S. in accordance 
    with 35 U.S.C. 207 to achieve expeditious
    
    [[Page 17310]]
    
    commercialization of results of federally funded research and 
    development. Foreign patent applications are filed on selected 
    inventions to extend market coverage for U.S. companies and may also be 
    available for licensing.
    ADDRESSES: Licensing information and copies of the U.S. patent 
    applications listed below may be obtained by contacting the indicated 
    licensing specialist at the Office of Technology Transfer, National 
    Institutes of Health, 6011 Executive Boulevard, Suite 325, Rockville, 
    Maryland 20852-3804 (telephone 301/496-7057; fax 301/402-0220). A 
    signed Confidential Disclosure Agreement will be required to receive 
    copies of the patent applications.
    
    Test Of HIV-Specific T Lymphocyte Function That Detects Exposure to HIV 
    Antigens and Possibly Early HIV Infection
    
    Shearer, G.M., Berzofsky, J.A., Clerici, M. (NCI)
    Filed 7 Jun 95
    Serial No. 08/488,435 (CIP of 08/229,108)
    Licensing Contact: George Keller, 301/496-7735 ext 246
    
        This new diagnostic test is designed for early detection of 
    exposure to HIV or HIV antigens. The test measures activation of 
    peripheral blood mononuclear cells following incubation of those cells 
    with one or more synthetic epitopes of HIV. The test can detect HIV 
    exposure prior to seroconversion and is superior to standard HIV 
    antibody tests and PCR amplification of viral DNA. The new test may be 
    especially useful in screening the blood supply, and may also prove 
    useful as a diagnostic capable of detecting exposure of individuals to 
    HIV sooner after that exposure than current detection methods. 
    (portfolio: Infectious Diseases--Diagnostics, viral, AIDS)
    
    Oligomeric HIV-1 Envelope Glycoproteins
    
    Earl, P.L., Broder, C.C., Doms, R.W., Moss,B. (NIAID)
    Filed 10 Dec 93
    Serial No. 08/165,314
    Licensing Contact: Cindy K. Fuchs, 301/496-7735 ext 232
    
        This invention embodies a method for generating antibodies to HIV-1 
    envelope glycoproteins, which could hold powerful implications toward 
    both the diagnosis and the treatment of AIDS. Specifically, the method 
    involves the expression of a soluble protein, gp140, and the generation 
    of antibodies to this protein. gp140 is a recombinant version of gp160, 
    a protein which normally is cleaved in vivo to generate two 
    glycoprotein subunits which are expressed on the surface of the HIV-1 
    envelope. Unlike previously isolated versions of gp160, gp140 is 
    purified in a manner which preserves the quaternary structural elements 
    of the protein. Due to the conserved nature of these structural 
    elements, antibodies generated against gp140 may be more broadly 
    reactive against various forms of AIDS than other antibodies generated 
    to date. (portfolio: Infectious Diseases--Vaccines, viral, AIDS)
    
    Pre-Binding of Retroviral Vector Particles With Complement Components 
    To Enable the Performance of Human Gene Therapy In Vivo
    
    Mason, J.M., Safer, B., Anderson, W.F. (NHLBI)
    Filed 28 Jul 93
    Serial No. 08/098,944
    Licensing Contact: Carol Lavrich, 301/496-7735 ext 287
    
        This invention relates to an improvement in the use of retroviral 
    vectors in gene therapy. The invention specifically relates to the use 
    of C1 complement subcomponents and antibody fragments to protect 
    retroviral vector particles produced in non-primate packaging lines 
    from attack by primate complement systems in vivo. Pharmaceutical 
    compositions containing retroviral vector particles prebound with C1 
    complement subcomponents, as well as gene therapy methods, are part of 
    this invention. (portfolio: Gene-Based Therapies--Therapeutics, viral 
    vectors)
    
    Cosalane and Related Compounds Having Activity Against AIDS and AIDS-
    Related Infections
    
    Cushman, M., Golebiewski, M., Haugwitz, R. (NCI)
    Serial No. 08/029,415
    Patent Issued 8 Aug 95
    U.S. Patent No. 5,439,899
    Licensing Contact: Cindy K. Fuchs, 301/496-7735 ext 232
    
        A new series of potential anti-viral agents based upon the chemical 
    cosalane and its related derivatives may be the basis of a new 
    treatment for AIDS. Cosalane was developed by combining a fragment of 
    aurintricarboxylic acid (ATA), a compound originally used in the Swiss 
    dye industry, with cholestane, a steriod related to cholesterol. The 
    cholestane fragment is used to direct the drug to the T cell membrane 
    with the ATA fragment subsequently blocking binding of HIV gp120 to the 
    CD4 receptor site on the cell surface. Laboratory tests of cosalane 
    suggest it is effective in inhibiting both HIV-1 and HIV-2 infection 
    and is very effective at concentrations too weak to harm the T cells. 
    Other studies also suggest that cosalane may be able to suppress HIV 
    virus reproduction in patients without the toxic side effects 
    associated with current AIDS treatments. (portfolio: Infectious 
    Diseases--Therapeutics, antivirals, AIDS)
    
    Glycosides of Cyclodextrin, and Processes for Their Preparation
    
    Pitha, J., Wimmer, T. (NIA)
    Serial No. 08/016,449
    U.S. Patent 5,426,184 issued 20 Jun 95
    Licensing Contact: Carol Lavrich, 301/496-7735 ext 287
    
        A novel method for preparing cyclodextrin glycosides is 
    particularly useful for solubilizing substances that are sparingly 
    soluble in water. Previous methods for preparing cyclodextrin 
    derivatives have been hampered by the high reaction temperature used, 
    which leads to unwanted by-products and makes working up and 
    purification of the reaction products quite difficult. This new process 
    employs an anhydrous acid medium with subsequent treatment of the 
    reaction products with a mild base. The reaction takes place at 
    relatively low temperatures (between 40 deg.C and 80 deg.C), providing 
    a high yield of desired products. It also is much easier to prepare the 
    reaction compared to previous processes, and purification of products 
    is accomplished through standard methods. (portfolio: Internal 
    Medicine--Miscellaneous)
    
    Novel Serine Protease Inhibitors and Genes Encoding Same
    
    Kotwal, G.J., Moss, B. (NIAID)
    Serial No. 07/906,983
    U.S. Patent 5,187,268 issued 16 Feb 93 (DIV of 07/285,510, U.S. Patent 
    5,151,509 issued 29 Sep 92; CIP of 07/239,208, U.S. Patent 5,257,110 
    issued 20 Oct 92)
    Licensing Contact: Carol Lavrich, 301/496-7735 ext 287
    
        Novel proteins having a substantial degree of homology to the 
    serine protease inhibitor superfamily could be valuable for treating 
    conditions such as emphysema, cirrhosis, and liver cancer. Serine 
    protease activity has been associated with the accelerated failure of 
    certain diseased organs and tissues. There have previously been no 
    known synthetic or microbial proteins capable of specifically 
    inhibiting serine proteases. (portfolio: Internal Medicine--
    Therapeutics, cardiology, antithrombotic)
    
    [[Page 17311]]
    
    Adenovirus Mediated Transfer of Genes to the Gastrointestinal Tract
    
    Crystal, R.G. (NHLBI)
    Filed 16 Oct 91
    Serial No. 07/776,057
    Licensing Contact: Larry Tiffany, 301/496-7056 ext 206
    
        A novel method of producing a chosen protein in the 
    gastrointestinal tract of a human has been invented by and is available 
    for licensing from the Public Health Service. The technology allows for 
    the systemic long-term administration of a therapeutic protein to a 
    patient without the need for periodic injections or suppositories. In 
    comparison to alternative delivery systems, such as retroviral vectors, 
    this methodology allows the gene of interest to be directly transferred 
    to targeted cells even if these cells are not actively dividing. The 
    technology is the subject of a pending patent application. (portfolio: 
    Gene-Based Therapies--Therapeutics, vectors, viral; Gene-Based 
    Therapies--Therapeutics, therapeutic genes)
    
    Cytosine Deaminase Negative Selection System for Gene Transfer 
    Techniques and Therapies
    
    Mullen, C.A., Blaese, R.M. (NCI)
    Serial No. 07/725,076
    U.S. Patent No. 5,358,866 issued 25 Nov 94
    Licensing Contact: Larry Tiffany, 301/496-7056 ext 206
    
        A DNA construct has been developed which permits efficient 
    expression of a modified bacterial cytosine deaminase (CD) gene in 
    mammalian cells. The presence and expression of the gene has no 
    apparent deleterious effects upon the transfected cells unless they are 
    exposed to 5-fluorocytosine (5FC). Because CD has the ability to 
    convert 5FC to a toxic antimetabolite, 5-fluorouracil, cells which have 
    been transformed with the DNA construct can be selectively killed by 
    treating them with 5FC. By modifying the specifity or method of 
    delivering the DNA construct to cells, or by modifying the vector 
    carrying the DNA construct to correspond to a tissue-specific promoter, 
    specific cell or tissue types may be selectively eliminated from a 
    subject.
        Potential uses of the CD negative selective system (CDNSS) include 
    gene therapy, immunotherapy, and bone marrow transplant applications.
        The CDNSS could be used to regulate the biological activity of a 
    transformed cell type as a part of a gene therapy application. For 
    example, the CDNSS might be incorporated within a transformed cell type 
    which also expresses a gene of therapeutic interest. The transformed 
    cell type could then be administered to a subject. The biological 
    activity expressed by the transformed cell type might be regulated by 
    administering a measured dose of 5FC to the subject such that a portion 
    of the transformed cell type is eliminated. Alternately, the 
    transformed cell type might be eliminated from the subject by 
    administering to the subject a dose of 5FC that would be toxic to the 
    transformed cell type.
        The CDNSS could also be used to impart immunity against a virus or 
    a specific cell type, including a bacterium, a protozoan, or a type of 
    tumor cell. For example, a cell type or virus harboring the CDNSS might 
    be introduced into a subject to elicit an immune response against that 
    cell type or virus. The introduced cell type or cells harboring the 
    virus might be selectively killed after an immune response was elicited 
    by administering 5FC to the subject.
        The CDNSS could be used in conjunction with bone marrow transplant 
    procedures to eliminate a specific cell type or virus from the bone 
    marrow. For example, bone marrow cells from a subject might be 
    transduced with a vector which harbors the CDNSS and which is specific 
    for a certain cell type or for cells harboring a specific virus. The 
    transformed bone marrow cells might then be treated with 5FC to 
    selectively eliminate (or purge) the transduced cells, after which the 
    treated bone marrow could be introduced into a subject.
        Other uses for the CDNSS are not fully described here, including 
    its use as a double negative selection vector and its use as a 
    diagnostic indicator of homologous recombination. Further information 
    regarding these and other applications is available.
        A corresponding group of divisional patent applications claiming 
    different aspects of this technology (e.g. a vaccine for mammals 
    against tumors) have also been filed and are available for licensing. 
    (portfolio: Gene-Based Therapies--Therapeutics, vectors, control 
    sequences/genes; Gene-Based Therapies--Therapeutics, vectors, viral)
    
    Dominant Negative Transcription Regulatory Proteins Created by Acidic 
    Amphipathic Alpha-Helical Extension of the Leucine Zipper
    
    Vinson, C.R. (NCI)
    Filed 31 Jul 95
    Serial No. 60/001,654
    Licensing Contact: Allan Kiang, 301/496-7735 ext 270
    
        Members of the transcription factor family of molecules termed 
    basic-region leucine zipper (bZIP) proteins are characterized by the 
    fact that they contain two regions--a hepted repeat of leucine residues 
    (the leucine zipper) and a region rich in basic amino acids. 
    Dimerization with other protein molecules occurs by interactions with 
    the leucine zipper domains allowing interaction of DNA regulatory 
    sequences with the basic domain, thereby stabilizing the dimer. This 
    invention embodies the creation of dominant negative (DN) transcription 
    factors modified to increase the stability of the dimerization reaction 
    between the leucine zipper regions of the bZIP proteins. This results 
    in a DN factor that has the ability to inhibit DNA binding and then 
    transactivation, thereby preventing the production of other proteins or 
    the expression of genes that are detrimental. A transgenic animal model 
    has been produced expressing a DN factor that interacts and inhibits a 
    cellular factor indicating the utility of this approach. (portfolio: 
    Gene-Based Therapies--Therapeutics, other)
    
    Method of Identifying Inhibitors of the Jak-STAT Signal Transduction 
    Pathway
    
    Leonard, W.J. (NHLBI)
    DHHS Reference No. E-176-95/0
    Licensing Contact: Allan Kiang, 301/496-7735 ext 270
    
        The invention provides identification methods for agents which 
    inhibit the Jak-STAT signaling transduction pathway. Drugs identified 
    by these methods are candidates for the treatment of proliferative 
    disorders dependent on the Jak-STAT pathway, including those caused by 
    HTLV-1. In addition, such agents may be potent immunosuppressive drugs 
    with potential applications not only for organ transplantation but also 
    for treatment of autoimmune diseases. (portfolio: Cancer--Therapeutics, 
    miscellaneous; Internal Medicine--Miscellaneous)
    
        Dated: April 11, 1996.
    Barbara M. McGarey, J.D.,
    Deputy Director, Office of Technology Transfer.
    [FR Doc. 96-9614 Filed 4-18-96; 8:45 am]
    BILLING CODE 4140-01-M
    
    

Document Information

Published:
04/19/1996
Department:
National Institutes of Health
Entry Type:
Notice
Action:
Notice.
Document Number:
96-9614
Pages:
17309-17311 (3 pages)
PDF File:
96-9614.pdf