Abstract: Improved vaccine compositions and methods of use thereof are described that elicit production of antibodies in an individual to the individual's own endogenous cholesteryl ester transfer protein (CETP).

Abstract: We describe a regulated antigen delivery system (RADS) that has (a) a vector that includes (1) a gene encoding a desired gene product operably linked to a control sequence, (2) an origin of replication conferring vector replication using DNA polymerase III, and (3) an origin of replication conferring vector replication using DNA polymerase I, where the second origin of replication is operably linked to a control sequence that is repressible by a repressor. The RADS microorganism also has a gene encoding a repressor, operably linked to an activatible control sequence. The RADS described provide high levels of the desired gene product after repression of the high copy number origin of replication is lifted. The RADS are particularly useful as live bacterial vaccines. Also described is a delayed RADS system, in which there is a delay before the high copy number origin is expressed after the repression is lifted. The delayed RADS is also particularly useful for live bacterial vaccines.

Abstract: This invention relates to peptides comprising a helper T cell epitope portion and a B cell epitope portion for eliciting an immune response against endogenous cholesteryl ester transfer protein (CETP) activity, to prevent or treat cardiovascular disease, such as atherosclerosis.

Abstract: The present invention provides a method for increasing HDL cholesterol in a mammal by stimulating an immune response that inhibits the function of CETP. Such an immune response can be induced by immunizing with CETP or fragments of CETP (together termed “CETP Peptides”) which contain an epitope capable of stimulating such a response. The peptides can be conjugated to a carrier, such as KLH or ovalbumin, in order to increase immunogenicity. Adjuvants can also be administered.

Abstract: The present invention discloses apparatus and methods of inducing bubble nucleation to overcome problems commonly associated with preservation by foam formation. Specifically, the invention relates to methods of using bubble nucleation in foam formation to preserve sensitive biological materials. Preferred methods of inducing bubble nucleation include, mixing, chamber rotation, crystals, and ultrasound.

Abstract: A plasmid-based vaccine is provided herein based on the combination of DNA segments coding for one or more B cell epitopes of CETP and one or more broad range helper T cell epitopes. Administration of the plasmids as a vaccine to a vertebrate subject provides an immune response to the subject's endogenous CETP and modulation of CETP activity, leading to prevention or reversal of various manifestations of heart disease. The vaccines provide an advantageous strategy for the prevention or treatment of atherosclerosis.

Abstract: The present invention is directed to a cell line capable of supporting replication of a growth-defective Herpes Simplex Virus strain; specifically a replication-defective HSV-2 double mutant. Particularly disclosed is a cell line that expresses the ICP8 protein and the UL5 protein of Herpes Simplex Virus. This cell line is useful to propagate a replication-defective HSV-2 vaccine strain that contains mutations and/or deletions in the ICP8 and UL5 genes.

Abstract: We describe a regulated antigen delivery system (RADS) that has (a) a vector that includes (1) a gene encoding a desired gene product operably linked to a control sequence, (2) an origin of replication conferring vector replication using DNA polymerase III, and (3) an origin of replication conferring vector replication using DNA polymerase I, where the second origin of replication is operably linked to a control sequence that is repressible by a repressor. The RADS microorganism also has a gene encoding a repressor, operably linked to an activatible control sequence. The RADS described provide high levels of the desired gene product after repression of the high copy number origin of replication is lifted. The RADS are particularly useful as live bacterial vaccines. Also described is a delayed RADS system, in which there is a delay before the high copy number origin is expressed after the repression is lifted. The delayed RADS is also particularly useful for live bacterial vaccines.

Abstract: Conjugates are disclosed comprising a broad range helper T cell epitope portion and a B cell epitope portion from a cholesteryl ester transfer protein (CETP), which conjugates are capable of eliciting an immune response in an individual against the individual's endogenous CETP activity. The conjugates are useful in methods to inhibit CETP activity, to raise serum levels of high density lipoproteins, and to prevent or treat cardiovascular disease, such as atherosclerosis.

Abstract: A humanized antibody framework motif is described. Preferably, the motif is encoded by the VH gene of K5B8 and the VL gene of TR1.6. This humanized antibody preferably contains the variable region of a tat antibody.

Abstract: This invention relates to peptides comprising a helper T cell epitope portion and a B cell epitope portion for eliciting an immune response against endogenous cholesteryl ester transfer protein (CETP) activity, to prevent or treat cardiovascular disease, such as atherosclerosis.

Abstract: The present invention provides polynucleotides coding for the mature transcriptional regulators known as ivi-2 and ivi-3, as well as a polynucleotide coding for a polypeptide designated as ivi-4. The polynucleotides were obtained from a genomic library obtained from the bacterial species Enterococcus faecalis.

Abstract: The present invention relates to the C3b/C4b receptor (CR1) gene and its encoded protein. The invention also relates to CR1 nucleic acid sequences and fragments thereof comprising 70 nucleotides and their encoded peptides or proteins comprising 24 amino acids. The invention further provides for the expression of the CR1 protein and fragments thereof. The genes and proteins of the invention have uses in diagnosis and therapy of disorders involving complement activity, and various immune system or inflammatory disorders. In specific embodiments of the present invention detailed in the examples sections infra, the cloning, nucleotide sequence, and deduced amino acid sequence of a full-length CR1 cDNA and fragments thereof are described. The expression of the CR1 protein and fragments thereof is also described. Also described is the expression of a secreted CR1 molecule lacking a transmembrane region.

Abstract: A plasmid-based vaccine is provided herein based on the combination of DNA segments coding for one or more B cell epitopes of cholesteryl ester transfer protein (CETP) and one or more broad range helper T cell epitopes. Administration of the plasmids as a vaccine to a vertebrate subject provides an immune response to the subject's endogenous CETP and modulation of CETP activity, leading to prevention or reversal of various manifestations of heart disease. The vaccines provide an advantageous strategy for the prevention or treatment of atherosclerosis.

Abstract: The present invention provides immunogenic compositions and methods for inducing enhanced immune responses using an antigen and a combination of water soluble polymer and an amphiphilic compound.

Abstract: A soluble polyphosphazene polyelectrolyte immunoadjuvant is disclosed. In one embodiment, the polymeric adjuvant is poly[di(carboxylatrophenoxy)phosphazene] which is in the form of a microsphere and which is adsorbed with antigen after formation of the microsphere. The immunoadjuvant can be administered intranasally.

Abstract: The present invention provides compositions comprising at least one complement moiety and at least one carbohydrate moiety, and methods of producing such compositions. In particular, the compositions of the invention comprise complement proteins related to the complement receptor type 1, and further comprise ligands for intercellular molecules, such as selectins. In a preferred embodiment, the compositions comprise a complement-related protein in combination with the Lewis X antigen or the sialyl Lewis X antigen. The compositions of the invention have use in the diagnosis or therapy of disorders involving complement activity and inflammation. Pharmaceutical compositions are also provided for treating or reducing inflammation mediated by inappropriate complement activity and intercellular adhesion.

Abstract: Provided are methods of making preparations of recombinant soluble Complement Receptor type 1 (sCR1) defined with respect to the distribution of sCR1 glycoforms and therapeutic methods using them. The preparations are suitable for treatment of allograft or xenograft rejection, diseases involving inflammation or inappropriate complement activation, and thrombotic or shock state conditions. Preferred methods employ sCR1 glycoforms that are sialylated, have a pI of .ltoreq.5.1, or have a sialic acid: mannose molar ratio of .gtoreq.0.25.

Abstract: A polyphosphazene polyelectrolyte immunoadjuvant having improved water solubility, a vaccine composition of the immunoadjuvant and an antigen or immunogen and methods of their use in producing or enhancing an immunoprotective response in a host are disclosed.

Abstract: The present invention relates to the C3b/C4b receptor (CR1) gene and its encoded protein. The invention further provides for the expression of the CR1 protein and fragments thereof. The genes and proteins of the invention have uses in diagnosis and therapy of disorders involving complement activity, and various immune system or inflammatory disorders. In specific embodiments of the present invention detailed in the examples sections infra, the cloning, nucleotide sequence, and deduced amino acid sequence of a full-length CR1 cDNA and fragments thereof are described. The expression of the CR1 protein and fragments thereof is also described. Also described is the expression of a secreted CR1 molecule lacking a transmembrane region. The secreted CR1 molecule is shown to be useful in reducing damage caused by inflammation and in reducing myocardial infarct size and preventing reperfusion injury.