Abstract: A DNA vaccine effective for inhibiting endothelial cell proliferation comprises a DNA construct operably encoding a vascular endothelial growth factor (VEGF) receptor protein. This invention provides DNA vaccines that encode VEGF receptor-2 (KDR, SEQ ID NO: 2), VEGF receptor-1 (Flt-1, (SEQ ID NO: 4), or Flk-1 (the murine homolog of KDR, SEQ ID NO: 6), DNA sequences SEQ ID NOS: 1, 3, and 5 respectively, as well as methods of using such a DNA vaccine to inhibit vascular endothelial cell proliferation in the tumor micro-environment. Anti-angiogenesis and subsequent decrease in tumor growth and dissemination is achieved.

Abstract: The present invention relates to isolated polypeptides having phospholipase B activity and isolated nucleic acid sequences encoding the polypeptides. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the nucleic acid sequences as well as methods for producing and using the polypeptides.

Abstract: A retroviral vector comprising a first retroviral envelope protein and at least one modified retroviral envelope protein, wherein the first retroviral envelope protein includes a surface protein comprising (i) a receptor binding region; (ii) a hypervariable polyproline region; and (iii) a body portion, and the modified retroviral envelope protein, prior to modification, includes a surface protein which includes (i) a receptor binding region; (ii) a hypervariable polyproline region; and (iii) a body portion, characterized in that the modified retroviral envelope protein has been modified such that at least 90% of the amino acid residues of the receptor binding region of the surface protein of the modified retroviral envelope protein have been removed and replaced with a non-retroviral protein or peptide.

Abstract: Disclosed are screening methods for identifying the interplay between environmental and host signals (e.g., host-dependent or host-independent signals) and physiological pathogenic pathways that control or regulate genes responsible for establishing a persistent infection, as in the colonization of the gut of the nematode.

Abstract: The present invention provides experimentally-generated cold-adapted equine influenza viruses, and reassortant influenza A viruses comprising at least one genome segment of such an equine influenza virus, wherein the equine influenza virus genome segment confers at least one identifying phenotype of the cold-adapted equine influenza virus, such as cold-adaptation, temperature sensitivity, dominant interference, or attenuation. Such viruses are formulated into therapeutic compositions to protect animals from diseases caused by influenza A viruses, and in particular, to protect horses from disease caused by equine influenza virus. The present invention also includes methods to protect animals from diseases caused by influenza A virus utilizing the claimed therapeutic compositions.

Abstract: The invention described herein allows the production of recombinant retroviruses (retroviral vector particles) from producer cells which are safer and of higher titer than normal. In addition, methods are provided for making helper cells which, when a recombinant retrovirus genome is introduced to make a producer line, produce particles that are targeted toward particular cell types. Methods are also provided for making recombinant retrovirus systems adapted to infect a particular cell type, such as a tumor, by binding the retrovirus or recombinant retrovirus in the particular cell type. Methods are also provided for producing recombinant retroviruses which integrate in a specific small number of places in the host genome, and for producing recombinant retroviruses from transgenic animals.

Abstract: There is disclosed a nucleic acid molecule encoding human Akt-3 protein or a functional equivalent or bioprecursor thereof comprising the amino acid sequence illustrated in Sequence ID No. 3. The human Akt-3 protein itself also forms part of the invention. The nucleic acid molecule and the human Akt-3 protein may themselves be used as medicaments, or in the preparation of medicaments for treating cancer, in their own right or in the form of a pharmaceutically acceptable carrier, diluent or excipient thereof. Further disclosed are methods of identifying agents which influence the activity of a human Akt-3 protein.

Abstract: The invention provides a branched transport polymer characterized as having at least 10 amino acids and a ratio of histidine to non-histidine amino acids greater than 1.5, said branched transport polymer comprising one or more backbones, one or more terminal branches, and optionally, one or more non-terminal branches. The branched transport polymer may be associated with a pharmaceutical agent to form a pharmaceutical agent delivery composition useful for in vivo therapies based on local injection.

Abstract: Novel defective adenoviruses for the transfer and expression of an exogenous nucleotide sequence in a host cell or organism. The invention also relates to novel complementation lines and to the process for the preparation of these novel defective adenoviruses and their use in therapy and to a pharmaceutical composition containing same.

Abstract: The invention provides a method of identifying anti-nematode compounds and further provides transgenic nematodes that may be used to practice the method. In particular, the invention provides a screen for compounds that inhibit a nematode secretion pathway e.g, compounds that inhibit the secretion of proteins by nematodes. The transgenic nematodes express reporters for nematode secreted proteins. In preferred embodiments of the invention the screen is performed using C. elegans, i.e., certain embodiments of the invention utilize C. elegans and C. elegans secretory pathways as a model system for parasitic nematodes and parasitic nematode secretion pathways. The invention also provides pharmaceutical compositions that may be used in the treatment and prevention of nematode infection in humans and animals and anti-nematode agents that may be used to protect plants from plant-parasitic nematodes. In addition, the invention provides a genetic screen for identifying additional targets for anti-nematode compounds.

Abstract: A method for obtaining a Drosophila neurodegeneration mutant includes the steps of selecting at least one Drosophila mutant having an aberrant phenotype selected from the group consisting of temperature-sensitive paralysis and bang-sensitive paralysis; and screening the at least one selected Drosophila mutant for age-dependent neurodegeneration. Neurodegeneration mutants are obtained in the method and causal mutations are characterized. The neurodegeneration mutants can be used in screening methods to identify putative neuroprotective agents.

Abstract: The present invention relates to inducible gene expression constructs and methods of inducing gene expression using a combination of inducing agents.

Abstract: Presented are ways to address the problem of replication competent adenovirus in adenoviral production for use with, for example, gene therapy. Packaging cells having no overlapping sequences with a selected vector are suited for large-scale production of recombinant adenoviruses. A system for use with the invention produces replication-defective adenovirus. The system includes a primary cell containing a nucleic acid based on or derived from adenovirus and an isolated recombinant nucleic acid molecule for transfer into the primary cell. The isolated recombinant nucleic acid molecule is based on or derived from an adenovirus, has at least one functional encapsidation signal and at least one functional Inverted Terminal Repeat, and lacks overlapping sequences with the nucleic acid of the cell. Otherwise, the overlapping sequences would enable homologous recombination leading to replication competent adenovirus in the primary cell into which the isolated recombinant nucleic acid molecule is to be transferred.

Abstract: This invention relates to compositions and methods for selective expression of a heterologous nucleic acid sequence in a targeted tissue, and more particularly to the glucose regulated protein 78 (grp78) stress-responsive promoter and its use in gene therapy and the production of transgenic animals.

Abstract: A process for the production of a peptide is disclosed, the process comprising expressing in the milk of a transgenic, non-human, placental mammal a fusion protein which comprises the peptide to be expressed linked to a fusion partner protein which is lysozyme. The fusion protein may be separate from the milk and cleaved to yield the target peptide. A transgenic, non-human, placental mammal whose genome incorporates a DNA molecule comprising a coding sequence encoding lysozyme coupled to a peptide is also described.

Abstract: The present invention provides a recombinant adenovirus vector targeted by zipper peptides. The vector contains a fiber protein modified by insertion of a first zipper peptide that can crosslink to a fusion protein comprising a second zipper peptide and a targeting ligand. Binding of the first zipper peptide to the second zipper peptide forms a targeted vector: ligand complex, thereby targeting the adenovirus vector to a cell that expresses a cell surface molecule that binds to said targeting ligand.

Abstract: A mast cell surface antigen, DNA thereof and an antibody against the antigen are provided. The amino acid sequence of this mast cell surface antigen is the translation of the coding region of its DNA. The base sequence of this DNA has been clarified in the following manner. Namely, mast cells obtained by incubating cord blood monocular cells are co-incubated with primary culture of fibroblasts to give connective tissue type mast cells (MC-TC). Then mRNA is extracted from this MC-TC cell extraction and a cDNA library is constructed therefrom. Immunological screening is carried out with the use of anti-MC-TC antiserum and the base sequence of the positive clone thus obtained is identified. Owing to the clarification of the amino acid sequence of this mast cell antigen, it becomes possible to reveal the role of mast cells in the pathology of allergic diseases and thus an antibody against mast cells can be easily obtained.

Abstract: The present invention provides methods of screening an agent for activity using teleosts. Methods of screening an agent for angiogenesis activity, toxic activity and an effect cell death activity in teleosts are provided.

Abstract: A genome of an ovine adenovirus designated OAV287 is isolated from sheep and sequenced. Portions of the genome not essential for maintenance or viability of the virus can be deleted or altered. A nucleotide sequence encoding a non-adenoviral polypeptide can be incorporated into the genome. The a full-length clone of the genome can be provided as part of a plasmid or viral vector. Cells can be transformed with a vector of the invention such that they express an exogenous protein.

Abstract: The present invention provides a transgenic non-human animal and method for using the same in evaluating a therapeutic agent for use in the treatment of Schizophrenia. More specifically, the invention is directed to a transgenic non-human animal which is incapable of expressing functional EDG2 protein. A theraupeutic agent is administered to the transgenic non-human animal incapable of expressing functional EDG2 protein and the effect of the agent on the animal is evaluated.