Abstract: The present invention is directed towards a method of regulating smooth muscle tone, comprising the introduction, into smooth muscle cells of a subject, of a DNA sequence encoding a protein involved in the regulation of smooth muscle tone, and expression of the DNA sequence in a sufficient number of smooth muscle cells of the subject to regulate smooth muscle tone in the subject. Specifically, the invention provides methods of gene therapy for treating erectile dysfunction, bladder dysfunction, and other smooth muscle disorders. The present invention also provides recombinant viral and non-viral vectors comprising DNA encoding a protein involved in the regulation of smooth muscle tone. Further provided by the present invention is a smooth muscle cell which expresses a gene encoding a protein involved in the regulation of smooth muscle tone.

Abstract: The present invention provides a purified and isolated wild type PKD2 gene, as well as mutated forms of this gene. The present invention also provides one or more single-stranded nucleic acid probes which specifically hybridize to the wild type PKD2 gene or the mutated PKD2 gene, and mixtures thereof, which may be formulated in kits, and used in the diagnosis of ADPKD associated with the mutated PKD2 gene. The present invention also provides a method for diagnosing ADPKD caused by a mutated PKD2 gene, as well as a method for treating autosomal dominant polycystic kidney disease caused by a mutated PKD2 gene.

Abstract: This invention relates to mycobacterial species-specific reporter mycobacteriophages (reporter mycobacteriophages), methods of producing said reporter mycobacteriophages and the use of said reporter mycobacteriophages for the rapid diagnosis of mycobacterial infection and the assessment of drug susceptibilities of mycobacterial strains in clinical samples. In particular, this invention is directed to the production and use of luciferase reporter mycobacteriophages to diagnose tuberculosis. The mycobacterial species-specific reporter mycobacteriophages comprise mycobacterial species-specific mycobacteriophages which contain reporter genes and transcriptional promoters therein. When the reporter mycobacteriophages are incubated with clinical samples which may contain the mycobacteria of interest, the gene product of the reporter genes will be expressed if the sample contains the mycobacteria of interest, thereby diagnosing mycobacterial infection.

Abstract: The present invention refers in general to novel recombinant mycobacteria that are auxotrophic for diaminopimelate. In particular, this invention relates to novel auxotrophic recombinant mycobacteria, to methods of making the mycobacteria, and to uses of the mycobacteria to deliver vaccines. This invention also provides for uses of the mycobacteria in drug screening processes.

Abstract: This invention relates to a method for eating a subject with irritable bowel syndrome (“IBS”) which comprises long-term administration of an opioid receptor antagonist at an appropriately low dose which will selectively antagonize excitatory opioid receptor functions, but not inhibitory opioid receptor functions, in myenteric neurons in the intestinal tract as well as in neurons of the central nervous system (“CNS”). The administration of the opioid receptor antagonist at a low dose enhances the potency of the inhibitory effects of endogenous opioid peptides present in the intestinal tract and the CNS, thereby reducing abdominal pain and stool frequency resulting from abnormally supersensitized excitatory opioid receptor functions. The invention also relates to a composition for treating a subject with IBS, which comprises an effective dose of an opioid receptor antagonist, and a pharmaceutically acceptable carrier.

Abstract: A new method to analyze and predict the binding energy for enzyme-transition state inhibitor interactions is presented. Computational neural networks are employed to discovery quantum mechanical features of transition states and putative inhibitors necessary for binding. The method is able to generate its own relationship between the quantum mechanical structure of the inhibitor and the strength of binding. Feed-forward neural networks with back propagation of error can be trained to recognize the quantum mechanical electrostatic potential at the entire van der Waals surface, rather than a collapsed representation, of a group of training inhibitors and to predict the strength of interactions between the enzyme and a group of novel inhibitors. The experimental results show that the neural networks can predict with quantitative accuracy the binding strength of new inhibitors.

Abstract: The invention provides a cells which express a gene or genes, derived from the adenovirus E3 region, which block allograft rejection. One class of genes blocks the intracellular transport and/or intracellular maturation within the cells of proteins called MHC class I products. Without limitation as to theory, it is believed that blocking the appearance of this class of proteins on the transplanted cell's surface, prevents the host's immune system from rejecting the graft. Another class of proteins acts to permit TNF .alpha.-mediated cell cytolysis. In one embodiment, the invention is directed towards engrafting the cells that secrete insulin, which are called alternatively, pancreatic .beta.-cells and islet cells, and thereby provide a treatment of diabetes mellitus.

Abstract: The present invention is directed towards gene therapy for erectile dysfunction through delivery and expression of a recombinant vector containing a DNA sequence encoding a protein involved in the regulation of smooth muscle tone into a smooth muscle cell. Also provided by the present invention is a method of inducing penile erection in a subject comprising the introduction and expression of a DNA sequence encoding a protein involved in the regulation of smooth muscle tone into a sufficient number of cells of the subject to induce penile erection in the subject. The present invention also provides a recombinant vector comprising the DNA of or corresponding to at least a portion of the genome of a virus, which portion is capable of directing the expression of a DNA sequence, and DNA encoding a protein involved in the regulation of smooth muscle tone operably linked to the viral DNA and capable of being expressed as a functional gene product in the target cell.

Abstract: A composition which comprises an animal cell population which contains immature animal cells. The immature animal cells are characterized by expression of alpha-fetoprotein or lack of essential expression of alpha-fetoprotein and albumin, and at least a portion of said immature animal cells or at least a portion of the progeny of said immature animal cells is capable of differentiating into cells which express albumin. The cell population is cultured under conditions which result in expansion of the cells. Expansion of the cells may be achieved by culturing the cells in the presence of an extracellular matrix and liver stromal cells; and preferably in the presence of growth factors. Such cells may be used for liver transplantation, artificial livers, and for toxicology and pharmacology studies. Such cells may also be genetically engineered to express proteins or polypepetides of interest.

Abstract: The present invention provides a rep-max fusion gene which encodes a Rep-max protein capable of suppressing the oncogenic activity of a Myc family oncoprotein. The present invention further provides a vector containing nucleic acid encoding a Rep-max protein, a vector capable of expressing Rep-max protein and a recombinant viral vector capable of introducing nucleic acid encoding Rep-max protein into a target cell. Finally, the present invention provides a method for suppressing the oncogenic activity of the Myc family oncoproteins in a tumor cell and for inhibiting the growth of a tumor in a subject.

Abstract: The present invention provides for peptide conjugate compositions, methods of using the peptide conjugate compositions, and pharmaceutical compositions comprising the peptide conjugate compositions. The peptide conjugate compositions comprise peptides with amino acid sequences similar to the gp120 principal neutralizing domain (PND) of HIV, gp41, and Nef (p27) of HIV and carriers which enhance immunogenicity. The peptide conjugate compositions of the present invention may comprise a multivalent cocktail of several different peptide conjugates. Also provided by present invention is a method for reducing the level of HIV titers in a mammal by administering to the mammal a peptide composition of the present invention in an amount effective to reduce the level of HIV titers. The peptide conjugate compositions of the present invention induce prolonged antibody response in serum, a high level of antibody in the mucosa, and the production of cytotoxic lymphocytes.

Abstract: This invention is directed to transition-state analog compounds and to the use of said compounds as inhibitors of nucleoside hydrolase and transferase enzyme activity of parasites. This invention is further directed to the use of said compounds to treat infections and diseases caused by certain bacterial and plant toxins.

Abstract: The present invention provides a recombinant, glucose-regulated insulin producing beta cell whose proliferation is controlled by tetracycline or a derivative thereof. The present invention also provides a method for treating a subject with diabetes using the recombinant beta cell of the present invention.

Abstract: This invention relates to a method for selectively enhancing the analgesic potency of a bimodally-acting opioid agonist such as morphine and simultaneously attenuating anti-analgesia, hyperalgesia, hyperexcitability, physical dependence and/or tolerance effects associated with the administration of the bimodally-acting opioid agonist. The method of the present invention comprises administering to a subject an analgesic or sub-analgesic amount of a bimodally-acting opioid agonist such as morphine and an amount of an excitatory opioid receptor antagonist such as naltrexone or nalmefene effective to enhance the analgesic potency of the bimodally-acting opioid agonist and attenuate the anti-analgesia, hyperalgesia, hyperexcitability, physical dependence and/or tolerance effects of the bimodally-acting opioid agonist.

Abstract: The present invention provides compounds having the formula: ##STR1## wherein A is CH or N; B is chosen from OH, NH.sub.2, NHR, H or halogen; D is chosen from OH, NH.sub.2, NHR, H, halogen or SCH.sub.3 ; R is an optionally substituted alkyl, aralkyl or aryl group; and X and Y are independently selected from H, OH or halogen except that when one of X and Y is hydroxy or halogen, the other is hydrogen; and Z is OH or, when X is hydroxy, Z is selected from hydrogen, halogen, hydroxy, SQ or OQ, Q is an optionally substituted alkyl, aralkyl or aryl group; or a tautomer thereof; or a pharmaceutically acceptable salt thereof; or an ester thereof; or a prodrug thereof; and compounds having the formula: ##STR2## wherein A, X, Y, Z and R are defined for compounds of formula (I) where first shown above; E is chosen from CO.sub.2 H or a corresponding salt form, CO.sub.2 R, CN, CONH.sub.2, CONHR or CONR.sub.2 ; and G is chosen from NH.sub.

Abstract: This invention is directed to a chimeric mouse capable of mounting murine cellular and humoral immune response, where the chimeric mouse is tolerant of human tissue implanted therein. The chimeric mouse of this invention is capable of developing murine T cells and producing murine IgG antibodies, which T cells and antibodies are tolerant of the human tissue implanted in the mouse. This allows for the challenge of the vaccinated mouse with human-specific pathogens and determining the capacity of the vaccine to protect the cells in the implanted tissue from infection. This invention is also directed to a method for the development of the chimeric mouse, as well as to the use of the chimeric mouse for the screening of vaccines for human-specific pathogens.

Abstract: The present invention provides a novel method for the rapid isolation and identification of large numbers of novel enzyme substrates. The novel method provided by the present invention identifies substrates in tissue and/or cell extracts of a non-human model characterized as having an inactive enzyme. Without active enzyme, the substrates of this enzyme accumulate in the non-human model. The tissue or cell extract containing the enzyme substrate is then fractionated by passing the extract through an affinity column. The affinity column comprises an enzyme having similar specificity to the inactive enzyme, bound to a solid support. The affinity resin binds the enzyme substrate so that the substrate may be isolated from other proteins in the extract. The substrate of the enzyme may then be further identified by purifying and sequencing. Also provided by the present invention are novel substrates, and analogs of the substrates identified by the method of the present invention.

Abstract: The present invention provides a novel MHRII-associated protein designated MHRII-AP62 and antibodies immunoreactive with the MHRII-AP62 protein. Also provided are kits containing these antibodies and methods of using the antibodies for the detection of the MHRII-AP62 protein. The present invention also provides for a nucleic acid encoding the MHRII-AP62 protein and nucleic acid probes for use in the detection of the MHRII-AP62 protein. Further provided by the present invention are agents that mimic the activity of the MHRII-AP62 protein by binding to the MHRII, agents that inhibit the activity of the MHRII-AP62 protein by binding to the MHRII-AP62 protein, or by binding to the nucleic acid encoding the MHRII-AP62 protein, and methods of using these agents to treat cancer and cancer causing diseases.

Abstract: The present invention provides a purified and isolated wild type PKD2 gene, as well as mutated forms of this gene. The present invention also provides one or more single-stranded nucleic acid probes which specifically hybridize to the wild type PKD2 gene or the mutated PKD2 gene, and mixtures thereof, which may be formulated in kits, and used in the diagnosis of ADPKD associated with the mutated PKD2 gene. The present invention also provides a method for diagnosing ADPKD caused by a mutated PKD2 gene, as well as a method for treating autosomal dominant polycystic kidney disease caused by a mutated PKD2 gene.

Abstract: This invention relates to a method of selectively enhancing the analgesic potency of morphine and other clinically used bimodally-acting opioid agonists and simultaneously attenuating development of physical dependence, tolerance and other undesirable side effects caused by the chronic administration of said bimodally-acting opioid agonists comprising the co-administration of a bimodally-acting opioid agonist which activates both inhibitory and excitatory opioid receptor-mediated functions of neurons in the nociceptive (pain) pathways of the nervous system and an opioid receptor antagonist which selectively inactivates excitatory opioid receptor-mediated side effects. This invention also relates to a method of using excitatory opioid receptor antagonists alone to block the undesirable excitatory side effects of endogenous bimodally-acting opioid agonists which may be markedly elevated during chronic pain.