Abstract: The present invention provides compounds for disrupting the binding of a matrix metalloprotease (MMP) protein to a substrate protein at an interaction site other than the protease catalytic site. In particular the inventive compounds inhibit the MMP's ability to cleave a substrate protein. In some cases the compound may prevent activation of transforming growth factor beta (TGF?). The compounds are preferably polypeptide fragments of the hemopexin-like domain of the MMP, but may be mimetics thereof or peptides or mimetics of the portion of the MMP substrate protein to which the MMP interacts.

Abstract: The present invention provides novel antibodies to human CXCR4 with high affinity to the target and the ability to act potently as antagonists. The antibodies disclosed herein bind to a diverse range of epitopes.

Abstract: The present disclosure relates to antibodies specific for urokinase-type plasminogen activator (uPA). According to certain embodiments, the anti-uPA antibody specifically binds to the active form of uPA. In certain aspects, the anti-uPA antibody that specifically binds to active uPA binds specifically to the active form of human uPA (e.g., the antibody does not cross-react with active forms of uPA from non-human organisms). In certain aspects, an anti-uPA antibody of the present disclosure competes for specific binding to uPA with plasminogen activator inhibitor type 1 (PAI-1), where binding of the antibody to uPA results in internalization of a complex that includes the antibody, uPA, and urokinase-type plasminogen activator receptor (uPAR). Also provided are antibodies that specifically bind to uPA and compete for binding to uPA with a synthetic ligand of uPA. The disclosure also provides anti-uPA antibody conjugates and compositions (e.g.

Abstract: Methods, systems and devices are implemented in connection with light-responsive ion channel molecules. One such method is implemented using a light-activated ion channel molecule that responds to a light stimulus. The method includes engineering the light-activated ion channel molecule in a cell; and activating the ion channel molecule, in response to light stimulus that is provided to the ion channel molecule and that has properties that do not activate a ChR2 ion channel, to allow ions to pass through the light-activated ion channel molecule.

Abstract: The present invention provides antagonizing antibodies that bind to growth hormone receptor (GHR). The invention further relates to therapeutic methods for use of these antibodies to reduce IGF-1 levels and/or for the treatment and/or prevention of diseases associated with excessive IGF-1, including treatment of acromegaly, gigantism, cancer, diabetic nephropathy, arthritis, and lung inflammation.

Abstract: The present invention provides antagonizing antibodies that bind to glucagon receptor and methods of using same. The anti-glucagon receptor antibodies can be used therapeutically to lower glucose levels in blood, and can be in the prevention and/or treatment of glucose-related disorders, including diabetes, hyperglycemia, hyperinsulinemia, impaired fasting glucose, impaired glucose tolerance, dyslipidemia, or metabolic syndrome.

Abstract: Provided herein are methods for the treatment of abnormal inflammation and inflammatory conditions comprising mucosal administration of an effective amount of an interleukin (e.g. IL-2) or a fragment or derivative thereof. Also provided herein are pharmaceutical compositions for mucosal administration for the treatment of abnormal inflammation and inflammatory conditions, the composition comprising said interleukin or fragment or derivative.

Abstract: The present invention is directed to sublingual formulations containing fentanyl, a pharmaceutically acceptable sale thereof, or derivative thereof, suitable for administration to a patient, and methods for treatment with the formulations.

Abstract: The present invention encompasses humanized antibodies that specifically bind N2 peptide, methods for the preparation thereof and methods for the use thereof.

Abstract: The invention describes improved methods and compositions for producing a recombinant protein, e.g., an antibody, in mammalian cell culture. In addition, the invention provides improved cell culture media, including improved production media, feed solutions, and combination feeds, which may be used to improve protein productivity in mammalian cell culture.

Abstract: The present disclosure provides human Aquaporin 4 (AQP4) peptides and peptides having homology to human Aquaporin 4 (AQP4) peptides. Also provided herein are methods for using human AQP4 peptides and peptides homologous to human AQP4 peptides for diagnosing and/or treating Neuromyelitis Optica.

Abstract: Provided is a method of combination therapy for prevention or treatment of a cancer including or consisting essentially of co-administering sorafenib and an anti-c-Met antibody or an antigen-binding fragment thereof to a subject. The method of combination therapy can achieve an excellent synergistic effect and lower the effective dose of the anti-c-Met antibody, thereby enabling a more effective cancer treatment.

Abstract: The present invention relates to compositions and methods for characterizing, diagnosing, and treating cancer. In particular the invention provides the means and methods for the diagnosis, characterization, prognosis and treatment of cancer and specifically targeting cancer stem cells. The present invention provides a soluble FZD receptor comprising an extracellular domain of a human FZD receptor that inhibits growth of tumor cells. The present invention still further provides a soluble receptor comprising a Fri domain of a human FZD receptor that binds a ligand of a human FZD receptor and said soluble receptor is capable of inhibiting tumor growth. The present invention still further provides a method of treating cancer comprising administering a soluble FZD receptor comprising for example, either an extracellular domain of a human FZD receptor or a Fri domain of a human FZD receptor, in an amount effective to inhibit tumor growth.

Abstract: Described herein are to antibodies against GPR49 and uses of such antibodies. Various aspects relate to monoclonal, humanized, or fully human antibodies against GPR49, hybridomas or other cell lines expressing such antibodies, nucleic acids and vectors comprising nucleic acids encoding for such antibodies.

Abstract: Described herein are antibodies against GPR49 and uses of such antibodies. Various aspects relate to monoclonal, humanized, or fully human antibodies against GPR49, hybridomas or other cell lines expressing such antibodies, nucleic acids and vectors comprising nucleic acids encoding for such antibodies.

Abstract: The invention provides methods for identifying immunobinders, such as scFv antibodies, capable of specifically binding to cell surface antigens, and compositions identified according to said methods.

Abstract: Described herein are antibodies against GPR49 and uses of such antibodies. Various aspects relate to monoclonal, humanized, or fully human antibodies against GPR49, hybridomas or other cell lines expressing such antibodies, nucleic acids and vectors comprising nucleic acids encoding for such antibodies, and methods of treating cancer with such antibodies.

Abstract: An HA-protein conjugate in which an HA-aldehyde derivative, in which an aldehyde group is introduced to a hyaluronic acid or a salt thereof, is conjugated to the N-terminus of a protein, and a method for preparing the same are provided. The HA-protein conjugate includes a protein drug exhibiting an excellent bioconjugation efficiency and long-term medicinal effects, and has excellent protein drug activities since the hyaluronic acid is specifically conjugated to the N-terminus of the protein. Also, since liver-targeting properties of the hyaluronic acid can be freely controlled by changing an aldehyde substitution rate of the HA-aldehyde derivative, the HA-protein conjugate can be effectively used as a protein drug for treating liver diseases, and also be useful in enabling long-term medicinal effects of a protein drug required to bypass the liver. Accordingly, the HA-protein conjugate can be effectively used for a drug delivery system of proteins.

Abstract: Methods for regulating T cell function in a subject, particularly regulatory T cell activity are provided. Methods of the invention include administering to a subject a therapeutically effective amount of an Interleukin 35-specific binding agent, such as an antibody or small molecule inhibitor. The invention further provides methods for enhancing the immunogenicity of a vaccine or overcoming a suppressed immune response to a vaccine in a subject, including administering to the subject a therapeutically effective amount of an IL35-specific binding agent and administering to the subject a vaccine. In one embodiment the vaccine is a cancer vaccine.

Abstract: The present invention refers to a fusion protein comprising a TNF-superfamily (TNFSF) cytokine or a receptor binding domain thereof fused to a collectin trimerization domain, to a nucleic acid molecule encoding the fusion protein, and to a cell comprising the nucleic acid molecule. The fusion protein is present as a trimeric complex or as an oligomer thereof. The fusion protein, the nucleic acid, and the cell is suitable as pharmaceutical composition or for therapeutic, diagnostic and/or research applications.