Class / Patent application number | Description | Number of patent applications / Date published |
514600100 | Truncated insulin | 6 |
20110009314 | Single-Chain Insulin Analogues and Pharmaceutical Formulations Thereof - The present invention is related to fast acting single-chain insulin comprising a modified B-chain and the A-chain of human insulin or an analogue thereof connected by a connecting peptide wherein one or more of the amino acid residues in position B25, B26 or B27 in the human B-chain are Glu or Asp or are deleted and/or B28 is Glu, Asp, Lys or is deleted, and the amino acid residue in position B10 in the human insulin B-chain is Gln, Ala, Val, Thr or Ser. The invention is also related to pharmaceutical compositions being a mixture of the rapid acting single-chain insulin and the protracted acylated insulin. | 01-13-2011 |
20110021423 | Rapid Acting Insulin Analogues - The invention is related to fast acting insulin analogues which can form soluble mix-tures (pre-mixed or self-mixed) with long acting insulin analogues. The fast action is achieved through monomerizing substitutions/deletions in the C-terminus of the B-chain of human insulin and the mixability with long acting insulin analogues is achieved through a substitution of the Zn-binding His in position B10 of human insulin with a Gln amino acid residue. In one embodiment the invention is related to fast acting insulin analogues in which at least one of the natural amino acid residues in position B22-B30 in the human B-chain has been substituted with another amino acid residue having the effect of promoting formation of the monomeric form of insulin, the His amino acid residue in position 10 in the B-chain is substituted with a Gln and wherein further one or more of the amino acid residues in position B22-B30 optionally have been deleted. | 01-27-2011 |
20110245164 | YL-BASED INSULIN-LIKE GROWTH FACTORS EXHIBITING HIGH ACTIVITY AT THE INSULIN RECEPTOR - Insulin-like growth factor analogs are disclosed wherein substitution of the IGF native amino acids, at positions corresponding to positions B16 and B17 of native insulin, with tyrosine and leucine, respectively, increases potency of the resulting analog at the insulin receptor by tenfold. Also disclosed are prodrug and depot formulations of the IGF analogs, wherein the IGF analog has been modified by the linkage of a dipeptide to the analog through an amide bond linkage. The prodrug and depot formulations disclosed herein have extended half lives of at least 2 hours, 10 hours, and more typically greater than 2 are converted to the active form at physiological conditions through a non-enzymatic reaction driven by chemical instability. | 10-06-2011 |
20140031279 | Human Insulin Analogues and Derivatives Comprising Cysteine Substitutions - The present invention relates to human insulin analogues containing a substituting cysteine, to human insulin derivatives containing a PEGylated substituting cysteine and methods of making such. The compounds of the invention may be useful for the treatment of diabetes. | 01-30-2014 |
20140128319 | INSULIN ANALOGUES CONTAINING PENTA-FLUORO-PHENYLALANINE AT POSITION B24 - An insulin analogue comprises a B-chain polypeptide incorporating a halogenated phenylalanine at position B24, B25 or B26. The halogenated phenylalanine may be ortho-monofluoro-phenylalanine, ortho-monobromo-phenylalanine, ortho-monochloro-phenylalanine, or para-monochloro-phenylalanine or penta-fluoro-Phenylalanine at position B24 alone or in combination with an acidic substitution (Aspartic Acid or Glutamic Acid) at position B10. The analogue may be of a mammalian insulin, such as human insulin. A nucleic acid encodes such an insulin analogue. The halogenated insulin analogues retain significant activity. A method of treating a patient comprises administering a physiologically effective amount of the insulin analogue or a physiologically acceptable salt thereof to a patient. Halogen substitution-based stabilization of insulin may enhance the treatment of diabetes mellitus in regions of the developing world lacking refrigeration. | 05-08-2014 |
20150072929 | Pharmaceutical composition comprising a mixture of carboxylated oligopeptides - A pharmaceutical composition comprising a mixture of carboxylated oligopeptides, derived by hydrolysis of eukaryotic or prokaryotic cells and their subsequent partial carboxylation through acylation or alkylation of the amino acid and basic amino acid residues in the amino terminal structure of the oligopeptides. The resulting pharmaceutical composition can be used in production of medical drugs effective in the treatment of cancer, pancreatitis, viral infection, for the development of vaccines. | 03-12-2015 |