Abstract: NGF variants which have trkC-binding activity and trkC-signal inducing activity are provided. The variants optionally have trkA or trkB binding and signal induction activity. The NGF variants of the present invention are useful in the treatment of neuronal disorders. Nucleic acids and expression vectors encoding the NGF variant neurotrophins are also provided.

Abstract: The present invention relates to an in vitro method for identifying a molecule, which interferes with the interaction between a glial cell-line derived neurotrophic factor family ligand (GFL) and a heparan sulfate proteoglycan (HSPG), by screening a library of molecules against a matrix anchored complex comprising at least one immobilized glial cell-line derived neurotrophic factor family ligand (GFL) and at least one heparan sulfate proteoglycan (HSPG), wherein the interfering molecule is isolated based on its capacity to replace a glial cell-line derived neurotrophic factor family ligand (GFL) in said anchored complex. The invention also relates to a complex for identifying such a molecule. The invention also relates to methods for preventing or delaying a neurodegenerative process as well as to method for prophylactic treatment or treatment of a disorder in the nervous system.

Abstract: The present invention provides an isolated protein comprising a pro-domain of a proneurotrophin, methods for producing the protein, and pharmaceutical compositions containing the isolated protein. The invention also provides a nucleic acid molecule which encodes the protein and a vector containing the nucleic acid molecule. The present invention further provides a method for cleaving a proneurotrophin protein to a mature neurotrophin. In addition, the invention relates to methods for inducing apoptosis in a cell of a mammal expressing p75 surface receptors or p75 and trk receptors. The methods include causing the p75 receptor to bind a pharmaceutical composition containing a pro-domain of a proneurotrophin or administering to the mammal an effective amount of a cleavage-resistant proneurotrophin and an inhibitor of trk activation.

Abstract: A human F-spondin-like protein and DNA (RNA) encoding such protein and a procedure for producing such protein by recombinant techniques is disclosed. Also disclosed are methods for utilizing such polypeptide for treating spinal cord injuries and damage to peripheral nerves by promoting neural-cell adhesion and neurite extension, inhibiting tumor metastases and tumor angiogenesis, and stimulating wound repair. Antagonists are also disclosed which may be utilized to prevent malaria. Diagnostic assays for identifying mutations in nucleic acid sequence encoding a polypeptide of the present invention and for detecting altered levels of the polypeptide of the present invention for detecting diseases, for example, cancer, are also disclosed.

Abstract: The present invention relates to a toxin comprising a modified light chain of a botulinum toxin type E, wherein the modified light chain comprises amino acid sequence PFVNKQFN (SEQ ID NO: 120) at the N-terminus, and amino acid sequence xDxxxLL (SEQ ID NO: 111) at the C-terminus, wherein x is any amino acid.

Abstract: This invention provides an ADNF polypeptide comprising an active core site, the active core site comprising at least one D-amino acid. The invention also provides a pharmaceutical composition comprising an ADNF polypeptide comprising an active core site, the active core site comprising at least one D-amino acid. In particular, the pharmaceutical composition of the invention is orally active. The invention further provides methods for reducing neuronal cell death, methods for reducing oxidative stress, and methods for reducing a condition associated with fetal alcohol syndrome using the ADNF polypeptides and the pharmaceutical compositions of the invention.

Abstract: Cloning, expression, viral and delivery vectors and hosts which contain nucleic acid coding for at least one peripheral nervous system specific (PNS) sodium channel peptide (SCP), isolated PNS SCP, and compounds and compositions and methods, are provided, for isolating, crystallizing, x-ray analyzing molecular modeling, rational drug designing, selecting, making and using therapeutic or diagnostic agents or ligands having at least one peripheral nervous system specific (PNS) sodium channel (SC) modulating activity.

Abstract: The present invention is directed to a non-immunogenic cellular composition comprising: a cell having a cell surface and antigenic determinants on the cell surface; an optional linker molecule covalently attached to the cell surface; and a hydrophilic, biocompatible, non-immunogenicity providing compound or polymer (e.g., polyethylene glycol or a derivative thereof) covalently attached to the linker molecule or directly to the cell. In one embodiment, the linker molecule is covalently attached directly to the antigenic determinant on the cell surface. In an alternate embodiment, the linker molecule may be covalently attached to a non-antigenic site on the cell surface, but will camouflage the antigenic determinant on the cell surface.

Abstract: The present invention relates to a toxin comprising a modified light chain of a botulinum toxin type E, wherein the modified light chain comprises amino acid sequence PFVNKQFN (SEQ ID NO: 120) at the N-terminus, and amino acid sequence xExxxLL (SEQ ID NO: 112) at the C-terminus, wherein x is any amino acid.

Abstract: The present invention relates to an immunogenic or vaccine composition to induce an immune response or protective immune response against vesicular stomatitis virus (VSV) in an animal susceptible to VSV. The composition may include a pharmaceutically or veterinarily acceptable vehicle or excipient, and a vector. The vector may contain at least one heterologous nucleic acid molecule(s), expresses in vivo in the animal VSV antigen(s), immunogen(s) or epitope(s) thereof, e.g., VSV G protein and/or VSV N protein and/or VSV M protein. The heterologous nucleic acid molecule(s) may be adjusted to the vector/mammalian cell system by codon optimization. The composition can contain an adjuvant, such as carbomer. Methods for making and using such a composition, including prime-boost regimes and including as to differential diagnosis, are also contemplated.

Abstract: The invention relates to Bt toxin resistance management. The invention particularly relates to the isolation and characterization of nucleic acid and polypeptides for a novel Bt toxin receptor. The nucleic acid and polypeptides are useful in identifying and designing novel Bt toxin receptor ligands including novel insecticidal toxins.

Abstract: The invention features a method for promoting neural growth in vivo in the mammalian central nervous system by administering a neural cell adhesion molecule which can overcome inhibitory molecular cues found on glial cells and myelin to promote neural growth. Also featured active fragments, cognates, congeners, mimics, analogs, secreting cells and soluble molecules thereof, as well as antibodies thereto, and DNA molecules, vectors and transformed cells capable of expressing them. The neuroprotective of the agents as well as their ability to promote and effect myelination and remyelination are also disclosed, as are the concomitant benefits that these capabilities confer, in the former instance, with regard to reduction of apoptosis and necrosis, and in the latter instance, the treatment of Parkinsonism, Alzheimer's disease and multiple sclerosis. The invention also includes transgenic mouse lines expressing a neural adhesion molecule in differentiated astrocytes, and cells and tissues derived therefrom.

Abstract: A chaperone protein Q2 and ?-amyloid can form a complex. This complex can be detected in a biological sample, such as, for example, tissues or fluids from a mammal. Q2 levels can also be detected in a biological sample. A method for determining the Q2 level in a biological sample and comparing that level to a normal Q2 level can be used to detect, screen, diagnose, or otherwise determine a person's susceptibility to Alzheimer's disease such as, for example, the presence or absence of Alzheimer's disease, of symptoms of this disease, of factors leading to or associated with this disease, of likelihood of developing this disease, and the like. In one embodiment, a decline in Q2 level correlates to an increased likelihood of developing Alzheimer's disease. In another embodiment, a decline in Q2 level correlates to an increase in ?-amyloid aggregation. The method may further include screening for an apolipoprotein E genotype, which is associated with Alzheimer's disease.

Abstract: The present invention relates generally to a method for modulating cell survival. Modulation of cell survival includes inducing, enhancing or otherwise promoting cell survival such as the survival of neural cells as well as facilitating cell death such as the death of targeted cancer cells. The modulation of cell survival is mediated by a region identified on the p75 neurotrophin receptor (p75NTR) required for death signalling. The present invention further provides genetic molecules which encode the death signalling region of p75NTR which are useful in antagonising death signal function as well as promoting cell death when expressed in targeted cells. The present invention also contemplates recombinant peptides, polypeptides and proteins s well as chemical equivalents, derivatives and homologues thereof which comprise the death signalling portion of p75NTR. Particularly useful molecules of the present invention comprise peptides corresponding to soluble forms of the death signalling portion of p75NTR.

Abstract: The present invention relates to aqueous pharmaceutical compositions comprising 2,6-diisopropylphenol (propofol). A composition of the present invention can comprise propofol and two or more excipients as an aqueous mixture. The propofol containing compositions are preferably sterile and are parenterally administered to any animal, including humans. The compositions are also chemically and physically stable over a wide range of environmental conditions.

Abstract: The present invention relates to prompt-release oral pharmaceutical compositions containing one or more active principles solubilised, suspended or embedded in a suitably formulated amphiphilic matrix for improving in vitro and in vivo bioavailability of medicaments sparingly absorbed through the oral route and/or with problems of high variability of absorption in the gastrointestinal tract.

Abstract: The present invention provides novel human genes, for example a novel human gene comprising a nucleotide sequence coding for the amino acid sequence shown under SEQ ID NO:1. The use of the genes makes it possible to detect the expression of the same in various tissues, analyze their structures and functions, and produce the human proteins encoded by the genes by the technology of genetic engineering. Through these, it becomes possible to analyze the corresponding expression products, elucidate the pathology of diseases associated with the genes, for example hereditary diseases and cancer, and diagnose and treat such diseases.

Abstract: A novel gene, dubbed “YS68”, involved in primitive hematopoiesis was successfully isolated from cDNA derived from mouse yolk sacs. In addition, a human gene corresponding to this gene was successfully isolated. Expression characteristics of these genes suggested their involvement in primitive hematopoiesis. The proteins of this invention and genes encoding the proteins may be utilized as tools for drug development against diseases, such as hematological disorders.

Abstract: A glial precursor cell population from mammalian central nervous system has been isolated. These A2B5+ E-NCAM? glial-restricted precursor (GRP) cells are capable of differentiating into oligodendrocytes, A2B5+ process-bearing astrocytes, and A2B5? fibroblast-like astrocytes, but not into neurons. GRP cells can be maintained by regeneration in culture. GRP cells differ from oligodendrocyte-type-2 astrocyte (O-2A) progenitor cells in growth factor requirements, morphology, and progeny. Methods of use of GRP cells are also disclosed.

Abstract: The present invention relates to the use of growth factors in improving tissue survival. In particular, the invention describes methods for enhancing organ transplant, musculocutaneous flap or skin graft survival by administering a nucleic acid sequence encoding hepatocyte growth factor.