Abstract: The present inventors have developed a novel composition and method for inhibiting inflammation and treating of symptoms of tissue ischemia, including that associated with peripheral and cardiac vascular disease by local administration of a pharmaceutical composition including an effective amount of a poloxamer.

Abstract: Disclosed is a vaccine against Lyme Disease or its causative agent Borrelia burgdorferi (sensu stricto or sensu lato) containing a plasmid a DNA encoding a promoter for driving expression in a mammalian cell, DNA encoding a leader peptide for facilitating secretion/release of a prokaryotic protein sequence from a mammalian cell, a DNA encoding Borrelia OspA or OspB, and a DNA encoding a terminator. Disclosed too is an immunogenic composition against Lyme Disease or its causative agent Borrelia burgdorferi (sensu stricto or sensu lato) containing a plasmid comprising a DNA encoding a promoter for driving expression in a mammalian cell, DNA encoding a leader peptide for facilitating secretion/release of a prokaryotic protein sequence from a mammalian cell, a DNA encoding a Borrelia OspC, and a DNA encoding a terminator. And, methods for making and using such vaccines and the immunogenic composition are also disclosed.

Abstract: A method for delivering an isolated polynucleotide to the interior of a cell in a vertebrate, comprising the interstitial introduction of an isolated polynucleotide into a tissue of the vertebrate where the polynucleotide is taken up by the cells of the tissue and exerts a therapeutic effect on the vertebrate. The method can be used to deliver a therapeutic polypeptide to the cells of the vertebrate, to provide an immune response upon in vivo translation of the polynucleotide, to deliver antisense polynucleotides, to deliver receptors to the cells of the vertebrate, or to provide transitory gene therapy.

Abstract: Plasmid DNA encoding at least one Borrelia genospecies antigen and methods for making and using such a plasmid are disclosed and claimed. The genospecies can be burgdorferi, garinii and/or afzelli. The antigen can be OspA and/or OspB and/or OspC. Compositions containing the plasmid DNA are useful for administration to a host susceptible to Lyme Disease for an in vivo response, such as a protective response, or for generating useful antibodies. The inventive plasmid can also be transfected into cells for generating antigens in vitro. And, the inventive plasmid can be prepared by isolating DNA (such as DNA coding for: promoter, leader sequence, antigen, and terminator) and performing a ligation or ligations, such as a three-way ligation. More particularly, administration of DNA encoding Borrelia genospecies antigen, e.g.

Abstract: Disclosed are cationic lipids capable of facilitating transport of biologically active agents into cells, including the transfection of cells by therapeutic polynucleotides, the delivery of antiviral drugs, and the introduction of immunogenic peptides. The cationic lipids, comprising an ammonium group, have the general structure ##STR1## Also disclosed are adducts of these compounds comprising additional cationic sites that enhance the transfective or transport activity. Structure-activity correlations provide for the selection of preferred compounds to be synthesized for this purpose. Compositions disclosed for use of these cationic lipid include formulations for in vitro transfection and pharmaceutical formulations for parenteral and topical administration of therapeutic agents.

Abstract: Synthetic hypocalcemic peptides which are superior in biological properties to native calcitonins as clinically useful agents. The peptides comprise analogues of native calcitonins having amino acid additions at the N-terminal position which, either alone or together with substitutions, and deletions at other residues, act to improve potency, prolong duration of the hormonal effect, and increase oral or nasal bioavailability. Methods are provided for the synthesis of these peptides.

Abstract: Disclosed are cationic lipids capable of facilitating transport of biologically active agents into cells, including the transfection of cells by therapeutic polynucleotides, the delivery of antiviral drugs, and the introduction of immunogenic peptides. The cationic lipids, comprising an ammonium group, have the general structure ##STR1## Also disclosed are adducts of these compounds comprising additional cationic sites that enhance the transfective or transport activity. Structure-activity correlations provide for the selection of preferred compounds to be synthesized for this purpose. Compositions disclosed for use of these cationic lipid include formulations for in vitro transfection and pharmaceutical formulations for parenteral and topical administration of therapeutic agents.

Abstract: Compounds are disclosed for treating AIDS, herpes, and other viral infections by means of lipid derivatives of antiviral agents. The compounds consist of nucleoside analogues having antiviral activity which are linked, commonly through a phosphate group at the 5' position of the pentose residue, to one of a selected group of lipids. The lipophilic nature of these compounds provide advantages over the use of the nucleoside analogue alone. It also makes it possible to incorporate them into the lamellar structure of liposomes, either alone or combined with similar molecules. In the form of liposomes, these antiviral agents are preferentially taken up by macrophages and monocytes, cells which have been found to harbor the target HIV virus. Additional site specificity may be incorporated into the liposomes with the addition of ligands, such as monoclonal antibodies or other peptides or proteins which bind to viral proteins.

Abstract: Compounds are disclosed for treating viral infections due to herpes, influenza, hepatitis B, Epstein-Barr, and varicella zoster viruses, as well as cytomegalovirus and human immunodeficiency virus (HIV) by means of lipid derivatives of antiviral agents. The compounds consist of lipid derivatives of phosphonoacids having antiviral activity which are linked, commonly through the phosphate group of the phosphonoacid, to one of a selected group of lipids.The lipophilic nature of these compounds provides advantages over the use of the phosphonoacids alone. It also makes it possible to incorporate them into the lamellar structure of liposomes when combined with similar molecules. In the form of liposomes, these antiviral molecules are preferentially taken up by macrophages and monocytes, cells which have been found to harbor the target human immunodeficiency virus (HIV).

Abstract: Synthetic hypocalcemic peptides which are similar in biological properties to native calcitonins as clinically useful agents. The peptides comprise analogues of native calcitonins having amino acid substitutions and deletions which act to improve potency, prolong duration of the hormonal effect, enhance receptor binding, and increase oral or nasal bioavailability. The calcitonin peptide analogues are less expensive and more easily synthesized than native calcitonins, and have improved resistance to inactivation or degradation. Methods are provided for the synthesis of these peptides.Also, disclosed are novel cyclic peptides, including calcitonin, having increased stability with respect to proteolysis. Methods for the synthesis of these peptides are provided, comprising converting disulfide cyclic peptides and proteins to enzymatically and chemically stable cyclic peptide structures by the replacement of cysteine residues with dicarboxylic acids and diamino acids.