Abstract: The present invention relates to novel insulins or insulins analogues that are extended with predominantly sequences of polar amino acid residues in order to improve the half-life and stability of the drug substance. The invention also provides pharmaceutical compositions comprising such drug substances, and relates to the use of such drug substances for the treatment or prevention of medical conditions relating to diabetes.

Abstract: The present disclosure is generally directed to compositions that include antibodies, e.g., monoclonal, chimeric, humanized antibodies, antibody fragments, etc., that specifically bind on or more epitopes within a Sortilin protein, e.g., human Sortilin or a mammalian Sortilin, and use of such compostions in preventing, reducing risk, or treating an individual in need thereof.

Abstract: The present disclosure is generally directed to compositions that include antibodies, e.g., monoclonal, chimeric, humanized antibodies, antibody fragments, etc., that specifically bind on or more epitopes within a Sortilin protein, e.g., human Sortilin or a mammalian Sortilin, and use of such compositions in preventing, reducing risk, or treating an individual in need thereof.

Abstract: The present disclosure provides recombinantly manufactured ultra-long acting insulin-Fc fusion proteins for use in treating canine diabetes. The insulin-Fc fusion proteins comprise an insulin polypeptide linked via a peptide linker to an Fc-fragment of canine origin. Based on the results obtained, creating a treatment that is amenable to low cost manufacturing, exhibits sufficient in vivo bioactivity, displays extended duration of bioactivity, does not induce anti-drug antibodies, and substantially retains is potency over multiple administrations, requires a non-obvious combination of insulin polypeptide, peptide linkers, and species-specific Fc fragment, in addition to selective mutations on one or more of these components. Exemplary ultra-long acting insulin-Fc fusion proteins, polynucleotides encoding these insulin-Fc fusion proteins, and pharmaceutical formulations of exemplary insulin-Fc fusion proteins are provided, in addition to methods of use and preparation.

Abstract: The present invention relates to aqueous formulations comprising a compound neutralizing GM-CSF in concentrations of at least 20 mg/ml, a tonicity modifier, a buffer and one or more of surfactants, amino acids, antioxidants and/or chelators, wherein the composition is stable. The ingredients of the formulation preferably provide stability to the compound neutralizing GM-CSF in view of long-term storage. In a preferred aspect, the formulation is for use in therapy, preferably for use in the treatment of inflammatory and autoimmune disorders, preferably including allergic and psoriatic disorders, as well as arthritic and asthmatic disorders.

Abstract: A single-chain insulin analogue comprises a B-chain insulin polypeptide connected to an A-chain insulin polypeptide by a C-domain polypeptide. The B-chain insulin polypeptide contains a Cysteine substitution at position B4. The A-chain insulin polypeptide contains a Cysteine substitution at position A10. The C-domain polypeptide is 4 to 11 amino acids long. The analogue mitigates the unfavorable activity of this 4th disulfide bridge in conventional two-chain insulin analogues resulting in a duration of insulin signaling similar to that of wild-type insulin. A method of treating a patient with diabetes mellitus comprises the administration of a physiologically effective amount of the protein or a physiologically acceptable salt thereof to a patient. Use of a single-chain insulin analogue of the present invention in an insulin delivery device (such as a pump or pen) or as part of a high-temperature polymer-melt manufacturing process.

Abstract: This invention relates to methods for treatment of diseases of ageing including immunosenescence, immune dysfunction, inflammation and impairment of early lymphoid lineage differentiation. The invention more specifically relates to the use of granulocyte colony stimulating factors to assist in stem cell mobilization, optionally in combination with the application of a method of delivering precise magnetic field patterns which agree with the body's own natural magnetic field patterns, and further in combination with re-infusion of previously collected autologous cells and/or plasma, optionally including allogeneic (healthy donor) cells and blood plasma.

Abstract: In certain aspects, the present invention provides compositions and methods for increasing red blood cell and/or hemoglobin levels in vertebrates, including rodents and primates, and particularly in humans.

Abstract: In certain aspects, the present invention provides compositions and methods for increasing red blood cell and/or hemoglobin levels in vertebrates, including rodents and primates, and particularly in humans.

Abstract: In certain aspects, the present invention provides compositions and methods for increasing red blood cell and/or hemoglobin levels in vertebrates, including rodents and primates, and particularly in humans.

Abstract: A single-chain insulin comprises a C-domain of 6 to 11 amino acid residues comprising at least two acidic residues at the N-terminal side of the C-domain and at least two basic residues at the C-terminal side of the C-domain peptide, a basic amino acid residue at the position corresponding to A8 of human insulin, and an acidic amino acid residue at the position corresponding to A14 of human insulin. The C-domain may contain a 2 to 4 amino acid joint region between the acidic and basic residues. Residues C1 and C2 may have a net negative charge of ?1 or ?2; and the remaining C-domain segment may culminates with two basic residues. A pharmaceutical composition comprises the single-chain insulin, formulated at a pH within the range 7.0 to 8.0, and may be formulated at a concentration of 0.6 mM to 5.0 mM and/or at a strength of U-100 to U-1000.

Abstract: The present invention relates to a novel glucagon derivative peptide, and a composition for preventing or treating hypoglycemia containing the novel glucagon derivative peptide as an active ingredient. The glucagon derivative according to the present invention has improved physical properties due to the change in isoelectric point (pI) while being capable of maintaining an activity on glucagon receptors, and thus can improve patient compliance when used as a hypoglycemic agent, and is also suitable for administration in combination with other anti-obesity agents. Accordingly, the glucagon derivative according to the present invention can be effectively used for the prevention and treatment of hypoglycemia and obesity.

Abstract: In certain aspects, the present invention provides compositions and methods for promoting bone growth and increasing bone density.

Abstract: The present invention relates to compositions and methods utilizing anti-TNF antibodies having a heavy chain (HC) comprising SEQ ID NO:36 and a light chain (LC) comprising SEQ ID NO:37 for use in the treatment or prevention of Type I Diabetes (T1D).

Abstract: The present invention provides a pharmaceutically acceptable composition comprising: particles of inulin; a substance comprising or consisting of one or more pathogen-associated molecular patterns (PAMPs), and an antigen for use inducing or modulating an immune response in a subject, such as modulating an immune response to an antigen or allergen and/or as a vaccine.

Abstract: An ultra-rapid acting insulin composition and method for treating hyperglycemia in patients with diabetes are disclose. The composition is an inhalable dry powder composition comprising fumaryl diketopiperazine and insulin for pulmonary delivery, which significantly reduces the rates of hypoglycemic events in patients in patients on mealtime insulin therapy.

Abstract: Liquid formulations of insulin that contain physically and chemically stable insulin but do not contain preservatives or stabilizers are provided. The formulations also lack surfactants. The formulations are useful for various modes of delivery including pulmonary delivery.

Abstract: The invention relates to an isolated interleukin-34 (IL-34) polypeptide for use in preventing or treating graft rejection, autoimmune disease, unwanted immune response against therapeutic proteins and allergy. The invention also provides an in vitro method for determining whether a patient is at risk of transplant rejection, autoimmune diseases, unwanted immune response against therapeutic proteins or allergies, comprising a step of determining the expression level of IL-34 in a biological sample obtained from said patient, wherein the presence of IL-34 is indicative of a reduced risk of transplant rejection, autoimmune diseases, unwanted immune response against therapeutic proteins or allergies.

Abstract: A method of treatment of encephalopathy, the method comprising decreasing concentration of glucose in a patient's blood stream to 1.6-3.6 mmol per liter by intravenous insulin administrating and consecutively administering the patient with single doses of a plurality of pharmacological solutions with a 30-second interval, wherein, first pharmacological solution administered to the patient is a pharmacological solution comprising a vascular medicine with pharmacological effect, wherein second pharmacological solution administered to the patient is a straight nootropic effected pharmacological composition, wherein third pharmacological solution administered to the patient is a peptide pharmacological composition, and wherein fourth pharmacological solution administered to the patient is a metabolic pharmacological composition.

Abstract: The disclosure provides a high-activity long-acting hypoglycemic fusion protein, which is formed by connecting, via a linker peptide or directly, a high-activity Exendin-4 mutant with an optimally mutated Fc fragment of a human immunoglobulin IgG1. The optimally mutated Fc fragment of the human immunoglobulin IgG1 comprises an optimally mutated human IgG1 hinge region and human IgG1 constant regions CH2 and CH3.