Abstract: The present invention provides antibodies that bind to the C-terminal region of TSG101. The invention also provides methods of using the TSG101 antibodies for the treatment of viral infections, including HIV and Ebola virus infection.

Abstract: The invention reflects enhanced antibody expression of an antibody of interest by cell lines transformed by random homozygous gene perturbation methods to either increase or decrease the expression pattern of a gene of the cell line other than the antibody of interest. The transformed cell line exhibits specific productivity rates, SPR, for the RHGP transformed cell liens of 1.5 or more, as compared with the antibody expressing cell line parents prior to transformation by RHGP. A knock out or anti-sense construct may be devised to reduce expression of the target gene, a promoter may be inserter to enhance expression of the target gene. The antibodies expressed by the transformed cell lines exhibit the binding properties of their parent cell lines prior to transformation with RHGP, and increase Total Volumetric Production of said antibody by said cells in a given volume.

Abstract: A human gene, fg01, on chromosome 8, is identified, as well as a truncated form on chromosome 5. Upregulation appears to suppress the Alzheimer's phenotype, (AB plaques and hyperphosphorylated tau tangles) which may address the onset of symptoms or progression of symptoms associated with AD. Screening methods are also set forth.

Abstract: A human gene, fg01, on chromosome 8, is identified. This gene, and its expression product, human fg01, shares a homology under 70% with the corresponding murine gene, which has been linked to presentation of the Alzheimer's phenotype of A? plaques and hyperphosphorylated tau tangles. Upregulation appears to suppress the Alzheimer's phenotype, which may be effective in preventing the onset of symptoms or progression of symptoms associated with AD. Screening methods are also set forth.

Abstract: A method for identifying host genes and encoded proteins for potential targets for therapeutic intervention employs a Gene Search Vector that is either lentivirus or MMLV-based, and can be used to interrogate an entire cell genome without prior knowledge of the genomic sequence. This Random Homozygous Gene Perturbation (RUGP) technique is rapidly verifiable and is used to identify potential host targets for intervention for influenza, HIV and other viral infections. Using Thermal Assymetric Interlaced (TAIL)-PCR, the period for identification of promising targets is reduced from months to weeks or less. Specific targets including PTCH1, Robo1 and Nedd4 are reviewed in detail.

Abstract: The invention reflects enhanced antibody expression of an antibody of interest by cell lines transformed by random homozygous gene perturbation methods to either increase or decrease the expression pattern of a gene of the cell line other than the antibody of interest. The transformed cell line exhibits specific productivity rates, SPR, for the RHGP transformed cell liens of 1.5 or more, as compared with the antibody expressing cell line parents prior to transformation by RHGP. A knock out or anti-sense construct may be devised to reduce expression of the target gene, a promoter may be inserter to enhance expression of the target gene. The antibodies expressed by the transformed cell lines exhibit the binding properties of their parent cell lines prior to transformation with RHGP, and increase Total Volumetric Production of said antibody by said cells in a given volume.

Abstract: Compounds that possess anti-infective activity are described. Methods of using these compounds for the treatment or prevention of infectious diseases such as acquired immunodeficiency syndrome (AIDS) are also described. The compounds inhibit HIV infectivity and do not exhibit significant cytotoxicity in HIV producing cells.

Abstract: Genes relating to resistance to infection by influenza virus are identified. The genes and the gene products (i.e., the polynucleotides transcribed from and polypeptides encoded by the genes) can be used for the prevention and treatment of influenza. The genes and the gene products can also be used to screen agents that modulate the gene expression or the activities of the gene products.

Abstract: A method of inhibiting viral infection in a mammal in need of same, includes administering an effective amount of at least one of the compounds of FGI-103 which are represented by 273, 365 and 510 either prophylactically to prevent viral infection, or therapeutically following viral infection. These compounds appear to selectively inhibit Caspase 8 as a method of preventing infective viral particle release. They can be administered IV, IP, orally or via other conventional administration routes. The compounds are highly effective, requiring relatively low dosages on the order of 1 ng/kg-200 mg/kg of body weight.

Abstract: The invention reflects enhanced antibody expression of an antibody of interest by cell lines transformed by random homozygous gene perturbation methods to either increase or decrease the expression pattern of a gene of the cell line other than the antibody of interest. The transformed cell line exhibits specific productivity rates, SPR, for the RHGP transformed cell liens of 1.5 or more, as compared with the antibody expressing cell line parents prior to transformation by RHGP. A knock out or anti-sense construct may be devised to reduce expression of the target gene, a promoter may be inserter to enhance expression of the target gene. The antibodies expressed by the transformed cell lines exhibit the binding properties of their parent cell lines prior to transformation with RHGP, and increase Total Volumetric Production of said antibody by said cells in a given volume.

Abstract: The present invention provides antibodies that bind to the C-terminal region of TSG101. The invention also provides methods of using the TSG101 antibodies for the treatment of viral infections, including HIV and Ebola virus infection.

Abstract: The invention provides for inhibition of viral disease by the provision to a mammalian host of antibodies directed against an escort protein likeTsg 101. These proteins appear on the surface of a cell, and thus can be bound by circulating antibodies thereto. By binding escort proteins on the cell surface, budding of viral particles is inhibited. The virus infects the initial cells, but cannot escape that cell to infect the body en masse.

Abstract: The present invention relates to a topical antimicrobial composition containing an antimicrobial complex that provides sustained antimicrobial disinfecting action upon contact with microorganisms for prolonged periods, without the necessity for reapplication. The topical antimicrobial composition provides both initial and residual contact-killing disinfecting activity, and does not release its antimicrobial components into contacting liquids at levels that result in solution disinfection.