Abstract: This invention provides novel peptides that ameliorate one or more symptoms of atherosclerosis. The peptides comprise class A amphiphathic helices, are highly stable and readily administered via an oral route. The peptides are effective to stimulate the formation and cycling of pre-beta high density lipoprotein-like particles and/or to promote lipid transport and detoxification.

Abstract: Disclosed is a new and emerging serotype of Streptococcus pneumoniae designated serotype 6C, and assays and monoclonal antibodies useful in identifying same. Also disclosed is a novel pneumococcal polysaccharide with the repeating unit {?2) glucose 1 (1?3) glucose 2 (1?3) rhamnose (1?3) ribitol (5?phosphate}. This new serotype may be included in pneumococcal vaccines.

Abstract: The embodiments described herein provide for immunogenic portions of Streptococcus pneumoniae surface protein A and surface protein C lacking alpha helical structure.

Abstract: The present invention relates, in general, to an immunogen and, in particular, to an immunogen for inducing antibodies that neutralize a wide spectrum of HIV primary isolates and/or to an immunogen that induces a T cell immune response. The invention also relates to a method of inducing anti-HIV antibodies, and/or to a method of inducing a T cell immune response, using such an immunogen. The invention further relates to nucleic acid sequences encoding the present immunogens.

Abstract: This invention provides novel peptides that ameliorate one or more symptoms of atherosclerosis. The peptides are highly stable and readily administered via an oral route. The peptides are effective to stimulate the formation and cycling of pre-beta high density lipoprotein-like particles and/or to promote lipid transport and detoxification. This invention also provides a method of tracking a peptide in a mammal. In addition, the peptides inhibit osteoporosis. When administered with a statin, the peptides enhance the activity of the statin permitting the statin to be used at significantly lower dosages and/or cause the statins to be significantly more anti-inflammatory at any given dose.

Abstract: This invention provides novel peptides that ameliorate one or more symptoms of atherosclerosis. The peptides are highly stable and readily administered via an oral route. The peptides are effective to stimulate the formation and cycling of pre-beta high density lipoprotein-like particles and/or to promote lipid transport and detoxification. This invention also provides a method of tracking a peptide in a mammal. In addition, the peptides inhibit osteoporosis. When administered with a statin, the peptides enhance the activity of the statin permitting the statin to be used at significantly lower dosages and/or cause the statins to be significantly more anti-inflammatory at any given dose.

Abstract: This invention provides novel peptides that ameliorate one or more symptoms of atherosclerosis. The peptides are highly stable and readily administered via an oral route. The peptides are effective to stimulate the formation and cycling of pre-beta high density lipoprotein-like particles and/or to promote lipid transport and detoxification. This invention also provides a method of tracking a peptide in a mammal. In addition, the peptides inhibit osteoporosis. When administered with a statin, the peptides enhance the activity of the statin permitting the statin to be used at significantly lower dosages and/or cause the statins to be significantly more anti-inflammatory at any given dose.

Abstract: It has been surprisingly discovered that administration of nitrite to subjects causes a reduction in blood pressure and an increase in blood flow to tissues. The effect is particularly beneficial, for example, to tissues in regions of low oxygen tension. This discovery provides useful treatments to regulate a subject's blood pressure and blood flow, for example, by the administration of nitrite salts. Provided herein are methods of administering a pharmaceutically-acceptable nitrite salt to a subject, for treating, preventing or ameliorating a condition selected from: (a) ischemia-reperfusion injury (e.g., hepatic or cardiac or brain ischemia-reperfusion injury); (b) pulmonary hypertension (e.g., neonatal pulmonary hypertension); or (c) cerebral artery vasospasm.

Abstract: This invention provides novel peptides that ameliorate one or more symptoms of atherosclerosis. The peptides are highly stable and readily administered via an oral route. In addition, the peptides inhibit osteoporosis. When administered with a statin, the peptides enhance the activity of the statin permitting the statin to be used at significantly lower dosages. In certain embodiments, the peptides range in length from about 10 up to about 30 amino acids, comprise at least one class A amphipathic helix, and protect a phospholipid against oxidation by an oxidizing agent.

Abstract: This invention provides novel peptides for the treatment of atherosclerosis.

Abstract: This invention provides novel peptides that ameliorate one or more symptoms of atherosclerosis. In certain embodiments, the peptide comprises an amino acid sequence that ranges in length from about 10 up to about 30 amino acids, that comprises at least one class A amphipathic helix, that bears at least one protecting group, that protects a phospholipid against oxidation by an oxidizing agent; and that is not the D-18A peptide. The peptides are highly stable and readily administered via an oral route.

Abstract: The invention pertains to methods of delivering a polypeptide to a cell comprising (a) contacting a cell with a replicon having a non-poliovirus nucleic acid substituted for a nucleic acid which encodes at least a portion of a protein necessary for encapsidation, the non-poliovirus nucleic acid encoding, in an expressible form, a polypeptide or fragment thereof; and (b) maintaining the cells under conditions appropriate for introduction of the replicons into the cells. The cell may be within a subject and the polypeptide may be a therapeutic agent. The methods of the invention may be used to treat diseases including central nervous system disorders, infectious diseases, and cancer.

Abstract: The present invention provides a composition of matter, comprising: DNA encoding a viral Vpx protein fused to DNA encoding a protein. In another embodiment of the present invention, there is provided a composition of matter, comprising: DNA encoding a viral Vpr protein fused to DNA encoding a protein. The present invention further provides DNA, vectors and methods for expressing a lentiviral pol gene in trans, independent of the lentiviral gag-pol. A gene transduction element is optionally delivered to a lentiviral vector according to the present invention. Also provided are various methods of delivering a virus inhibitory molecule to a target in an animal. Further provided is a pharmaceutical composition.

Abstract: A method for treating HBV infections via administration of 2′, 3′ dideoxynucleoside compounds.

Abstract: The present invention provides methods of synthesizing and screening inhibitors of bacterial NAD synthetase enzyme, compounds thereof, and methods of treating bacterial and microbial infections with inhibitors of bacterial NAD synthetase enzyme.

Abstract: The present invention provides a composition of matter, comprising: DNA encoding a viral Vpx protein fused to DNA encoding a protein. In another embodiment of the present invention, there is provided a composition of matter, comprising: DNA encoding a viral Vpr protein fused to DNA encoding a protein. The present invention further provides DNA, vectors and methods for expressing a lentiviral pol gene in trans, independent of the lentiviral gag-pol. A gene transduction element is optionally delivered to a lentiviral vector according to the present invention. Also provided are various methods of delivering a virus inhibitory molecule to a target in an animal. Further provided is a pharmaceutical composition.

Abstract: The matrix protein, M1, of influenza virus strain A/PR/8/34 has been purified from virions and crystallized. The crystals consist of a stable fragment (18 Kd) of the M1 protein. X-ray diffraction studies indicated that the crystals have a space group of P3.sub.t 21 or P3.sub.2 21. Vm calculations showed that there are two monomers in an asymmetric unit. A crystallized N-terminal domain of M1, wherein the N-terminal domain of M1 is crystallized such that the three dimensional structure of the crystallized N-terminal domain of M1 can be determined to a resolution of about 2.1 .ANG. or better, and wherein the three dimensional structure of the uncrystallized N-terminal domain of M1 cannot be determined to a resolution of about 2.1 .ANG. or better. A method of purifying M1 and a method of crystallizing M1. A method of using the three-dimensional crystal structure of M1 to screen for antiviral, influenza virus treating or preventing compounds.

Abstract: The present invention provides a method of killing replicating or non-replicating, transfected or transduced mammalian cells and bystander cells, comprising: (a) transfecting or transducing mammalian cells with a nucleic acid encoding a non-human purine cleavage enzyme; and (b) contacting the transfected or transduced cells with an effective amount of a substrate for the purine cleavage enzyme, wherein the substrate is non-toxic to mammalian cells and is cleaved by the enzyme to yield a purine toxic to the targeted mammalian cells and bystander cells, to kill the mammalian cells expressing the enzyme and the bystander cells. Further provided is a vector comprising a DNA sequence coding for a non-human purine nucleoside phosphorylase protein and the vector is capable of replication and/or expression in a host which comprises, in operable linkage: a) optionally, an origin of replication; b) a promoter; and c) a DNA sequence coding for said protein.

Abstract: The present invention provides a composition of matter, comprising: DNA encoding a viral Vpx protein fused to DNA encoding a virus inhibitory protein. In another embodiment of the present invention, there is provided a composition of matter, comprising: DNA encoding a viral Vpr protein fused to DNA encoding a virus inhibitory protein. Also provided are various methods of delivering a virus inhibitory molecule to a target in an animal. Further provided is a pharmaceutical composition.

Abstract: A method for treating HBV infections comprising administering a 5'-phospholipid prodrug of .beta.-L-2',3'-dideoxyadenosine 5'-monophosphate.