Abstract: The present invention provides a cationic polyamino acid suitable for a carrier that can form a stable complex with a nucleic acid under a physiological condition and release the nucleic acid in cells suitably. The cationic polyamino acid can associate with a nucleic acid and includes a cationic amino acid residue having a cationic group in a side chain and a hydrophobic amino acid residue having a hydrophobic group in a side chain. The cationic polyamino acid includes 1 to 20 units of the cationic amino acid residue and is represented by the following formula (1). The meaning of each symbol in the formula is as shown in the description.

Abstract: The invention relates to a method for producing injectable medicament preparations containing a therapeutically and/or diagnostically effective substance which is comprised of an active agent, of a spacer molecule and of at least one protein-binding molecule. After being brought into contact with the body, said therapeutically and/or diagnostically effective substance covalently bonds to the body fluid constituents or tissue constituents via the protein-binding molecule, thus providing a form of transport of the active agent that an be hydrolytically or enzymatically cleaved, according to pH, in the body while releasing the active agent.

Abstract: Melanocortin receptor-specific cyclic peptides of the formula where R1, R2, R3, R4, R5, R6, R7, R8, R9, R10 and z are as defined in the specification, compositions and formulations including the peptides of the foregoing formula, and methods of preventing, ameliorating or treating melanocortin receptor-mediated diseases, indications, conditions and syndromes.

Abstract: The present invention provides methods of forming a solid, biodegradable implant in-situ in a body by administering a liquid pharmaceutical composition comprising an effective amount of a biocompatible, water-insoluble, biodegradable polymer and an effective amount of a therapeutic peptide covalently modified with one or more lipophilic or amphiphilic moieties, which are dissolved or dispersed in a biocompatible, water-soluble organic solvent. This invention also provides related compositions and methods.

Abstract: The present invention related to a method of producing polypeptides in transformed host cells by expressing a precursor molecule of the desired polypeptide which are to be acylated in a subsequent in vitro step. The invention is also related to DNA-sequences, vectors and transformed host cells for use in the claimed method. Further, the present invention is related to certain precursors of the desired polypeptides and certain acylation methods. The invention provides a method for making polypeptides being preferentially acylated in certain lysine ?-amino groups.

Abstract: Short oligopeptides are provide which are capable of binding to the epidermal growth factor receptor on the surface of human tumor cells. Methods for using the peptides as targeting moieties in more complex compositions, such as conjugates of cytoxins, and/or structures, such as liposomal structures, for the purposes of drug delivery are also provided.

Abstract: The present invention relates to insulin derivatives which are naturally occurring insulins or analogues thereof which have a side chain attached either to the ?-amino group of the N-terminal amino acid residue of the B chain or to the ?-amino group of a Lys residue present in the B chain of the parent insulin, the side chain being of the general formula: —W—X—Y—Z wherein W, X, Y and Z are as defined in the disclosure.

Abstract: Charged nutritive proteins are provided. In some embodiments the nutritive proteins an aqueous solubility of at least 12.5 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 50 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 100 g/L at pH 7.

Abstract: The instant invention provides compositions comprising a prodrug, the prodrug comprising a therapeutically active drug; and a peptide selected from the group consisting of the sequences: Ser-Ser-Lys-Tyr-Gln (SEQ ID NO:1); Gly-Lys-Ser-Gln-Tyr-Gln (SEQ ID NO:2); and Gly-Ser-Ala-Lys-Tyr-Gln (SEQ ID NO:3) wherein the peptide is linked to the therapeutically active drug to inhibit the therapeutic activity of the drug, and wherein the therapeutically active drug is cleaved from the peptide upon proteolysis by an enzyme having a proteolytic activity of prostate specific antigen (PSA). The invention further provides methods of making and using the claimed compositions.

Abstract: A controlled release composition containing a physiologically active substance in high content, suppressing the initial excess release, and achieving a stable release speed over a long period of time is provided. A controlled release composition comprising (1) a physiologically active substance or salt thereof in an amount of about 14% (w/w) to about 24% (w/w) based on the total composition weight, (2) hydroxynaphthoic acid selected from the group consisting of 3-hydroxy-2-naphthoic acid and 1-hydroxy-2-naphthoic acid or salt thereof, and (3) a lactic acid polymer or salt thereof having a weight-average molecular weight of 15000 to 50000 in which the content of polymers having molecular weights of 5000 or less is about 5% by weight or less, wherein the molar ratio of said hydroxynaphthoic acid or salt thereof to said physiologically active substance or salt thereof is from 3:4 to 4:3.

Abstract: The invention is directed to peptides. Specifically, the invention is directed to peptides which bind skin and do not bind hair. Alternatively, the invention is drawn to peptides which bind hair and do not bind skin.

Abstract: Charged nutritive proteins are provided. In some embodiments the nutritive proteins an aqueous solubility of at least 12.5 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 50 g/L at pH 7. In some embodiments the nutritive proteins an aqueous solubility of at least 100 g/L at pH 7.

Abstract: Methods and compositions are described to regenerate cartilage in a partial thickness defect or area of reduced volume of articular cartilage comprising an infiltration suppressor agent and a columnar growth promoting agent.

Abstract: The present application relates to novel compounds, pharmaceutical compositions comprising the same, use of said compounds for the manufacture of a medicament for treatment of inter alia shock conditions as well as to a method for treatment of said conditions, wherein said compounds are administered. The compounds are represented by the general formula (I), as further defined in the specification.

Abstract: The invention describes a pharmaceutical composition to combat multiple-drug-resistant bacteria in non-ocular infective conditions. Compositions comprising glycopeptides, in particular vancomycin, and cephalosporins, in particular ceftriaxone, are disclosed. Such compositions are found to be useful for parenteral administration for hospitalized patients with serious infections. Specifically, this invention also discloses a pharmaceutical composition further including an excipient such as CVMC agent and is available in dry powder form for reconstitution before injection with a suitable solvent. The pharmaceutical compositions of this invention have been found normally to enhance resistance to precipitation in solutions to be administered parenterally. The invention also gives details of the dosage forms stored in sealed containers to be reconstituted before use.

Abstract: The invention provides stable metastin derivatives having excellent biological activities (a cancer metastasis suppressing activity, a cancer growth suppressing activity, etc.). By modifying the constituent amino acids of metastin with specific modifying groups, metastin derivatives having more improved blood stability, etc. than native metastin and showing excellent cancer metastasis suppressing activity or cancer growth suppressing activity have been found. Furthermore, it has been found that these metastin derivatives exhibit effects of suppressing gonadotropic hormone secretion, suppressing sex hormone secretion, etc., which are wholly different from the effects heretofore known.

Abstract: A concomitant agent to be used simultaneously or separately, comprising a combination of (a) 3-{(2S,4S)-4-[4-(3-methyl-1-phenyl-1H-pyrazol-5-yl)piperazin-1-yl]pyrrolidin-2-ylcarbonyl}thiazolidine, a salt of the compound with an organic or inorganic and mono- or di-basic acid or a solvate thereof, and (b) at least one kind of active ingredient selected from the group consisting of an active ingredient of a pharmaceutical agent selected from (i) an antidiabetic drug, (ii) a lipid lowering drug, (iii) an antihypertensive drug, (iv) a therapeutic drug for diabetic complications, (v) an antiobesity drug, (vi) an antiplatelet drug and (vii) an anticoagulant, a pharmaceutically acceptable salt thereof and a solvate thereof.

Abstract: The invention relates to chemically as well as physically stable compositions comprising Factor VII or a Factor VII-related polypeptide such that these compositions can be stored, handled and used at room temperature.

Abstract: The present invention relates to the use of a natriurectic peptide, such as urodilatin, for treating a patient suffering from heart failure, such as acute decompensated heart failure. Preferably, a composition comprising an effective amount of urodilatin is intravenously administered to the patient continuously through a time period of at least 24 hours and up to 120 hours, preferably at least 48 hours.

Abstract: The present invention generally relates to methods and compositions for generating vancomycin analogs. Specifically the invention relates to generating a vancomycin library through chemoselective ligation of a sugar moiety with a vancomycin aglycon. In particular, the present invention provides a library of vancomycin analogs, where the member of the library comprises at least one vancomycin analog selected from 2?-N-acyldecanoyl-glucosyl vancomycin neoglycoside, 3?-N-acyldecanoyl-glucosyl vancomycin neoglycoside, 4?-N-acyldecanoyl-glucosyl vancomycin neoglycoside, 6?-N-acyldecanoyl-glucosyl vancomycin neoglycoside, 2?-N-acylbiphenyl-glucosyl vancomycin neoglycoside, 3?-N-acylbiphenoyl-glucosyl vancomycin neoglycoside, 4?-N-acylbiphenoyl-glucosyl vancomycin neoglycoside and 6?-N-acylbiphenoyl-glucosyl vancomycin neoglycoside.