Abstract: The present invention relates to the discovery in eukaryotic cells, particularly mammalian cells, of a novel family of cell-cycle regulatory proteins ("CCR-proteins"). As described herein, this family of proteins includes a polypeptide having an apparent molecular weight of 16 kDa, and a polypeptide having an apparent molecular weight of approximately 15 kDa, each of which can function as an inhibitor of cell-cycle progression, and therefore ultimately of cell growth. Thus, similar to the role of p21 to the p53 checkpoint, the subject CCR-proteins may function coordinately with the cell-cycle regulatory protein, retinoblastoma (RB). Furthermore, the CCR-protein family includes a protein having an apparent molecular weight of 13.5 kDa (hereinafter "p13.5"). The presumptive role of p13.5, like p16 and p15, is in the regulation of the cell-cycle.

Abstract: The present invention relates to methods and compositions for the treatment and diagnosis of cardiovascular disease, including, but not limited to, atherosclerosis, ischemia/reperfusion, hypertension, restenosis, and arterial inflammation. Specifically, the present invention identifies and describes genes which are differentially expressed in cardiovascular disease states, relative to their expression in normal, or non-cardiovascular disease states, and/or in response to manipulations relevant to cardiovascular disease. Further, the present invention identifies and describes genes via the ability of their gene products to interact with gene products involved in cardiovascular disease. Still further, the present invention provides methods for the identification and therapeutic use of compounds as treatments of cardiovascular disease.

Abstract: The present invention relates to methods of treating neoplastic disease whereby gene therapy treatments are employed in combination with a chemotherapy regime. A combinational therapy with anti-neoplastic alkylating agents will optimize host tumor sensitivity to these agents used alone or in combination with O.sup.6 -benzylguanine (BG) or a similar compound or compounds. Hematopoietic cells are infected with a transgene expressing a mutant AGT protein exhibiting DNA repair activity while imparting resistance to BG or a related compound. Introduction of the transduced hematopoietic cell population expressing the mutant AGT protein into the patient in tandem with the chemotherapeutic regime will substantially reduce myelosuppression traditionally associated with the administration of these anti-neoplastic drugs.

Abstract: The present invention provides amphipathic lipid compounds comprising a hydrophilic, catonic, pH-sensitive moiety, the positive charge of which moiety increases as pH decreases over the pH range of 8.0 to 4.5. Vesicular delivery systems comprising such amphipathic compounds and the use of those systems for delivering biologically active substances to cells are also provided.

Abstract: Replication-competent recombinant viruses, particularly replication-competent recombinant polioviruses, which include (1) exogenous nucleic acid sequences which encode an exogenous polypeptide and (2) a nucleic acid sequence which encodes an artificial proteolytic cleavage site for a viral or cellular protease which proteolytically processes (cleaves) the precursor protein produced by the parent virus and uses therefor. The recombinant precursor is cleaved into the usual array of constituent proteins, freeing the exogenous polypeptide. Replication-competent recombinant viruses are useful as vaccines against bacterial, viral, fungal and yeast infections, parasitic diseases, cancer and allergies.

Abstract: Disclosed are a variety of compositions and methods for use in specifically targeting the L-selectin or preferably, the E-selectin marker following its cell surface induction, e.g., using ionizing radiation, in tumor vasculature endothelial cells. The compositions and methods described are suitable for use in the delivery of selected agents to tumor vasculature, as may be used in the diagnosis aid therapy of solid tumors.

Abstract: The present invention relates to an in vivo method for specific targeting and transfer of DNA into mammalian repair cells. The transferred DNA may include any DNA encoding a therapeutic protein of interest. The invention is based on the discovery that mammalian repair cells proliferate and migrate into a wound site where they actively take up and express DNA. The invention further relates to pharmaceutical compositions that may be used in the practice of the invention to transfer the DNA of interest. Such compositions include any suitable matrix in combination with the DNA of interest.

Abstract: The present invention relates to the discovery in eukaryotic cells, particularly mammalian cells, of a novel family of cell-cycle regulatory proteins ("CCR-proteins"). As described herein, this family of proteins includes a polypeptide having an apparent molecular weight of 16 kDa, and a polypeptide having an apparent molecular weight of approximately 15 kDa, each of which can function as an inhibitor of cell-cycle progression, and therefore ultimately of cell growth. Thus, similar to the role of p21 to the p53 checkpoint, the subject CCR-proteins may function coordinately with the cell-cycle regulatory protein, retinoblastoma (RB). Furthermore, the CCR-protein family includes a protein having an apparent molecular weight of 13.5 kDa (hereinafter "p13.5"). The presumptive role of p13.5, like p16 and p15, is in the regulation of the cell-cycle.

Abstract: The use of oligodeoxynucleotides modified at the 3'-terminal internucleotide link as therapeutic agents by a method of hybridizing the modified oligonucleotide to a complementary sequence within a targeted mRNA and cleaving the mRNA within the RNA-DNA helix by the enzyme RNaseH to block the expression of the corresponding gene.

Abstract: Cationic derivatives of biguanide are provided, which are useful in the preparation of lipid carriers for mediating transfection of mammalian cells in vivo and in vitro.

Abstract: A method for preparing a viral aerosol from a dilute viral suspension prepared by dissolving a virus in an aqueous solution containing 6-12 g/l of a monovalent cation salt, or 50-100 g/l of a hexose, which is then nebulised with a gas pressure of 0.5-3.5 bars or an ultrasonic frequency of 2-5 MHz. The resulting aerosol composition is also disclosed.

Abstract: The invention relates to a system for expressing a transgene in a target cell or a human or animal cell, characterized in that it consists of a eukaryotic cell established as a line, into which there have been transfected:a) a recombinant viral sequence in which a gene has been deleted totally or partially and substituted by the transgene at the level of this gene;b) a nucleic acid sequence including a sequence encoding the deleted protein, which sequence is in dependence on a promoter and is combined, where appropriate, with the transgene, and flanked at its 3' end a polyadenylation site;the recombinant viral genome and the sequence, carried by one or two plasmid supports, being capable of trans-complementing each other and allowing the host cell to produce defective infectious viruses.

Abstract: Novel cationic amphiphiles are provided that facilitate transport of biologically active (therapeutic) molecules into cells. The amphiphiles contain lipophilic groups derived from steroids, from mono or dialkylamines, or from alkyl or acyl groups; and cationic groups, protonatable at physiological pH, derived from amines, alkylamines or polyalkylamines. There are provided also therapeutic compositions prepared typically by contacting a dispersion of one or more cationic amphiphiles with the therapeutic molecules. Therapeutic molecules that can be delivered into cells according to the practice of the invention include DNA, RNA, and polypeptides. Representative uses of the therapeutic compositions of the invention include providing gene therapy, and delivery of antisense polynucleotides or biologically active polypeptides to cells. With respect to therapeutic compositions for gene therapy, the DNA is provided typically in the form of a plasmid for complexing with the cationic amphiphile.

Abstract: The major problem with current direct delivery techniques of therapeutic reagents into solid tumors, especially of cells or large volumes of recombinant DNA reagents or drugs, has been resistance of the tissues to the influx of the fluid and/or cells, resulting in low quantities of the fluid and/or cells penetrating into and remaining in the tumor tissue to be treated. Increased penetration and/or reduced backflow and diversion through the point of entry, so that more material is introduced into and remains in the tumor, is obtained through the use of a viscous vehicle, most preferably having a similar density to tissue, for the material to be delivered. Preferred materials include solutions or suspensions of a polymeric material which gel or solidify at the time of or shortly after injection or implantation. In the preferred embodiment, the solution is injected via a catheter into regions of the tumor to be treated.

Abstract: Disclosed are methods, compositions, kits and devices for use in transferring nucleic acids into bone cells in situ and/or for stimulating bone progenitor cells. Type II collagen and, particularly, osteotropic genes, are shown to stimulate bone progenitor cells and to promote bone growth, repair and regeneration in vivo. Gene transfer protocols are disclosed for use in transferring various nucleic acid materials into bone, as may be used in treating various bone-related diseases and defects including fractures, osteoporosis, osteogenesis imperfecta and in connection with bone implants.

Abstract: The present invention is concerned with a vaccine for combating B. bronchiseptica infection in susceptible animals (such as dogs and swine), containing proteins or polypeptides typical of the fimbrial protein of B. bronchiseptica, or containing recombinant polynucleotides having as part thereof a polynucleotide coding for said protein or polypeptide, and also is concerned with the preparation of said proteins, polypeptides and polynucleotides.

Abstract: A mammalian gene encoding a tolloid-like protein distinct from human or murine BMP-1/mTld is presented. The gene is similar in structure to members of the BMP-1 family of genes, but maps to a distinct location and encodes a distinct protein. The protein encoded by the gene can be used to screen putative therapeutic agents in an ongoing effort to inhibit activity of the BMP-1 family of genes to prevent scarring, fibrosis, and the like.

Abstract: Novel compositions are provided. Typically, the compositions comprise one or more neutral co-lipids and also a cationic amphiphile. Therapeutic compositions are prepared according to the practice of the invention by contacting a therapeutically active molecule with a dispersion of neutral co-lipid(s) and amphiphile(s).

Abstract: The present invention provides a composition comprising a protein solder, a bioactive compound, and a vehicle for delivering the bioactive compound into a target cell having a genome. The present invention also provides a method for delivering a bioactive compound into a target cell having a genome comprising (a) contacting a tissue with a composition comprising the protein solder, a bioactive compound, and a vehicle for delivering the bioactive compound into the target cell, and (b) exciting the protein solder to effect delivery of the bioactive compound into the target cell.

Abstract: The present invention provides a method for optimizing gene transfer into hematopoietic stem cells (HSCs) by contacting the cells with hydroxyurea prior to gene transfer to induce HSCs in G0 into active cell cycle. This method is useful for treating patients suffering from a disease that is suitably treated by gene therapy or involves hematopoietic cells. A method is also provided for enhancing the efficacy of bone marrow transplantation by administering hydroxyurea to increase HSC yields.