Abstract: The invention features devices and methods for the systemic delivery of fentanyl or a fentanyl congener (e.g., sufentanil) to treat pain. In the present invention, a drug formulation comprising fentanyl or a fentanyl congener is stored within a drug delivery device (e.g., contained in a reservoir or impregnated within a matrix within the controlled drug delivery device). The drug formulation comprises an amount of drug sufficient for treatment and is stable at body temperatures (i.e., no unacceptable degradation) for the entire pre-selected treatment period. The drug delivery devices store the drug formulation safely (e.g., without dose dumping), provide sufficient protection from bodily processes to prevent unacceptable degradation of the formulation, and release the drug formulation in a controlled fashion at a therapeutically effective rate to treat pain.

Abstract: The invention features methods for delivering a polypeptide to the bloodstream of a subject by introduction of a nucleic acid construct into secretory gland cells(e.g., cells of salivary gland, pancreas, or liver). In general, the method involves introduction of a nucleic acid construct into a secretory gland duct, which introduction results in expression of a gene product encoded by the introduced construct and delivery of the gene product into the bloodstream of the subject.

Abstract: The invention provides a method for selectively activating a target cell, where the target cell expresses a receptor activated superiorly by a synthetic ligand (RASSL) having decreased binding affinity for a selected natural ligand and normal or near normal binding affinity for a synthetic small molecule agonist. Thus, RASSL-mediated activation of target cells does not occur to a significant extent in the presence of natural G protein-coupled receptor ligand, but is significantly stimulated upon exposure to a synthetic small molecule. RASSL-expressing target cells are selectively activated by exposing of the cells to an appropriate synthetic small molecule, which in turn binds the RASSL, resulting in G protein activation and triggering of a specific cellular response associated with G protein activation (e.g., cellular proliferation or cellular secretion).

Abstract: Disclosed is a method for enhancing an immune response to a substance, such as an antigen or microbial pathogen. The immune response can be, for example, production of IgG2 antibodies. The method comprises administering an immunostimulatory nucleotide sequence (ISS) to a subject at least one hour prior to exposure to the substance by the subject. The subject may be exposed to the substance either naturally, as with an environmental pathogen, or by administration, as with a known antigen. The method can be used for protecting or immunizing a subject against an antigen or pathogen, providing more effective immunization than if the ISS were co-administered with the substance. The method can be used prophylactically or therapeutically. In preferred embodiments, the ISS comprises a CG, p(GC) or p(IC) DNA or RNA nucleotide sequence. Of these, a CG containing nucleotide sequence is preferred. The ISS can further comprise a pG nucleotide sequence.

Abstract: The present invention features a non-human animal model that is susceptible to infection by human hepatotrophic pathogens, particularly human hepatitis C virus (HCV). The model is based on a non-human, immunocompromised xenogeneic transgenic animal having a human-mouse chimeric liver, where the transgene provides for expression of a urokinase-type plasminogen activator in the liver. The invention also features methods for identifying candidate therapeutic agents, e.g., agents having antiviral activity against HCV infection.

Abstract: The present invention provides new methods of synthesizing cDNAs, methods of verifying full-length cDNAs, methods of producing cDNA libraries enriched for full-length inserts, and the like.

Abstract: A family of small peptides have been found to be inhibitory to TGF-&bgr; activity, and preferably have the primary structure of Formula I: AA1-AA2-AA3-Pro-D-Glu-Ala  FORMULA I wherein AA1 is leucine, phenylalanine, &agr;-aminoisobutric acid, N-methylalanine, N-methylisoleucine, or isoleucine; AA2 is the same or a different amino acid residue as in AA1; and AA3 is alanine or N-methylalanine.

Abstract: The invention relates to methods for preventing or reducing antigen-stimulated, granulocyte-mediated inflammation in tissue of an antigen-sensitized mammal host by delivering an immunostimulatory oligonucleotide to the host. In addition, methods for using the immunostimulatory oligonucleotides to boost a mammal host's immune responsiveness to a sensitizing antigen (without immunization of the host by the antigen) and shifting the host's immune responsiveness to a Th1 phenotype to achieve various therapeutic ends are provided. Kits for practicing the methods of the invention are also provided.

Abstract: The present invention features methods and compositions for production of persistent acyl phosphate analogues (e.g., aspartyl phosphate analogues) using beryllofluoride (BeFx), as well as polypeptides comprising such an acyl phosphate analogue and antibodies that specifically bind to these polypeptides. The invention further features methods of using BeFx analogues in screening assays to identify candidate agent compounds that modulate activity of polypeptides that normally exhibit activity due to the presence of an acyl phosphate linkage (e.g., a phosphorylated aspartate residue as in, e.g., polypeptides involved in signal transduction, polypeptides involved in ion transport across biological membranes, phosphotransferases, etc.). The BeFx polypeptide analogues can also be used to facilitate determination of the structure of the corresponding phosphorylated polypeptide and in rationale drug design.

Abstract: Fibroblast cells are treated with a chemical inhibitor of protein kinase C such as staurosporine, in conjunction with functionally hypoxic micromass culture so as to be induced into chondrogenic differentiation. Such fibroblast-derived, chondrocyte-like cells may be seeded onto three-dimensional polymer scaffolds for use in the repair of articular cartilage lesions, and thus can obviate the need for invasive techniques to harvest autologous chondrocytes from a limited supply of existing articular cartilage, or to avoid the need for obtaining allogeneic chondrocytes from non-biocompatible donor tissues.

Abstract: A method to produce a cell expressing an antibody from a genomic sequence of the cell comprising a modified immunoglobulin locus using Cre-mediated site-specific recombination is disclosed. The method involves first transfecting an antibody-producing cell with a homology-targeting vector comprising a lox site and a targeting sequence homologous to a first DNA sequence adjacent to the region of the immunoglobulin loci of the genomic sequence which is to be converted to a modified region, so the first lox site is inserted into the genomic sequence via site-specific homologous recombination. Then the cell is transfected with a lox-targeting vector comprising a second lox site suitable for Cre-mediated recombination with the integrated lox site and a modifying sequence to convert the region of the immunoglobulin loci to the modified region.

Abstract: The present invention features non-human transgenic animal models for Alzheimer's disease (AD) and CAA, wherein the transgenic animal is characterized by 1) expression of bioactive transforming growth factor-&bgr;1 (TGF-&bgr;1) or 2) both expression of bioactive TGF-&bgr;1 and expression of a human amyloid &bgr; precursor protein (APP) gene product. The transgenic animals may be either homozygous or heterozygous for these alterations. Bigenic animals are further characterized by development of AD-associated and/or CAA-associated pathology within about two to three months of age, and at about twelve months of age are characterized by a reduced number of neuritic plaques relative to singly transgenic animals. The invention also features methods of screening for biologically active agents that facilitate reduction of &bgr;-amyloid deposits in vivo and methods for facilitating reduction of formation of neuritic plaques in a subject susceptible to AD.

Abstract: The present invention provides a method for detecting polymorphisms in a nucleic acid by preconditioning a sample of nucleic acids to completely denature the nucleic acids, e.g., via heating and/or chemical treatment, and performing high-performance liquid chromatography (HPLC) on the nucleic acid under denaturing conditions to identify any polymorphisms. The nucleic acids to be analyzed are completely denatured prior to application of the sample to a stationary reverse-phase support and throughout the HPLC process. Sample elution is also carried out under completely denaturing conditions, and the sample mixture is eluted with a mobile phase containing an ion-pairing reagent and an organic solvent.

Abstract: The present invention provides modified G protein &agr;-subunits which are characterized by constitutive localization to the plasma membrane; enhanced binding to one or more of the normal receptor binding partners for that &agr;-subunit; and efficient binding to and activation of G protein binding partners. The distribution of these modified &agr;-subunits, which are “tethered” to the plasma membrane, allows the regulation of receptor-G protein coupling, and thus G-protein signaling, in various biological systems.

Abstract: An apparatus for delivering fluid materials into and out of the inner ear via the round window membrane. A fluid transfer conduit is provided which includes one or more passageways therethrough which may have a semipermeable membrane associated therewith to control fluid flow. Attached to the conduit is an inflatable bladder sized for insertion within the round window niche. When inflated, the bladder engages the internal side wall of the niche, thereby securing the bladder and part of the conduit within the niche. The conduit can then transfer fluids to and from the niche and the fluid-permeable round window membrane therein. Bladder inflation may be achieved through one of the passageways within the conduit which can deliver an inflation fluid into the bladder. Also, the conduit may include an elongate conductive diagnostic member for transferring electrical potentials to and from the inner ear.

Abstract: Methods and compositions are provided for producing full-length cDNA libraries. In the subject methods, full length first strand cDNAs are isolated using a fusion protein of an eIF-4E domain and an eIF-4G domain separated by a flexible linker. Also provided is the novel fusion protein employed in the subject methods, as well as nucleic acids encoding, and host cells capable of expressing, the same. Finally, kits for use in practicing the subject methods are provided. The subject invention finds use in a variety of applications in which full-length cDNA libraries are employed.

Abstract: The present invention features a human Nkx-6.1 polypeptide and nucleotide sequences encoding Nkx-6.1 polypeptides. In a particular aspect, the polynucleotide is the nucleotide sequence of SEQ ID NO:1. In addition, the invention features polynucleotide sequences that hybridize under stringent conditions to SEQ ID NO:1. In related aspects the invention features expression vectors and host cells comprising polynucleotides that encode a human Nkx-6.1 polypeptide. The present invention also relates to antibodies that bind specifically to a human Nkx-6.1 polypeptide, and methods for producing human Nkx-6.1 polypeptides.

Abstract: The present invention is based on the discovery of polynucleotides that represent novel genes that are differentially expressed in pancreatic disease, e.g., pancreatic cancer, dysplasia, pancreatitis, or diabetes. The invention features methods of identifying cells affected by such pancreatic diseases by detection of a gene product encoded by such differentially expressed genes, as well as methods of modulating expression of such gene products to effect therapy (e.g., to decrease growth and/or affect abnormal characteristics of cancerous or dysplastic pancreatic cells.

Abstract: The invention is directed to a method for treating both the early and late phases of allergic asthma by introducing naked polynucleotides which operatively encode for the asthma-initiating antigen into the host. The antigen-encoding polynucleotides are administered to host tissues which contain a high concentration of antigen presenting cells (e.g., skin and mucosa) relative to other host tissues. Expression of the asthma-initiating antigen encoding polynucleotides of the invention inside of antigen presenting cells (without substantial secretion therefrom) induces antigen tolerance while suppressing IgE antibody formation in the early phase of the disease, and also suppresses cytokine-mediated eosinophil accumulation in the late phase of the disease. Devices and compositions for use in the methods of the invention are also described.

Abstract: The present invention features a method of producing a multimeric protein from a hybrid cell formed from the fusion of two or more cells, each of which cell is engineered to express one component of the multimeric protein, as well as a method for screening for successful fusion of the cells to produce a desired hybrid cell. The methods of the invention are widely applicable to the production of proteins having two or more components.