Sterrenbeld Biotechnologie North America, Inc. Patent applications |
Patent application number | Title | Published |
20140341972 | METHOD TO INDUCE NEOVASCULAR FORMATION AND TISSUE REGENERATION - The present invention relates, e.g., to a method for inducing arteriogenesis, lymphangiogenesis, vasculogenesis, or cardiomyogenesis, and/or for inducing mitosis or proliferation of a smooth muscle cell, a skeletal muscle cell, or a cardiomyocyte, comprising administering to a cell or tissue in need thereof a dose of a polynucleotide that encodes a vascular endothelial growth factor (VEGF), or that encodes a polypeptide comprising an active site of the VEGF. The coding sequence is operably linked to an expression control sequence; and the dose is sufficient to induce arteriogenesis, lymphangiogenesis, vasculogenesis, or cardiomyogenesis, and/or to induce mitosis or proliferation of a smooth muscle cell, a skeletal muscle cell, or a cardiomyocyte. In preferred embodiments of the invention, the method is a method of tissue regeneration, particularly of cardiomyogenesis; and the polynucleotide (or a polypeptide encoded by such a polynucleotde) is administered into the myocardium. | 11-20-2014 |
20110072526 | PROCESS FOR PRODUCING EXOGENOUS PROTEIN IN THE MILK OF TRANSGENIC MAMMALS AND A PROCESS FOR PURIFYING PROTEINS THEREFROM - The invention relates to a method of producing a protein of interest, comprising making a non-human transgenic mammal that produces said protein in its milk, obtaining said milk from the non-human transgenic mammal and purifying said protein of interest from the milk. Transgenic bovine animals were generated, which are able to produce human growth hormone in mammary glands. The method involves cloning of a genetic construct comprising the hGH gene and beta casein promoter sequences conveniently in an expression vector. It also includes transfection procedures into fetal bovine somatic cells, generally fibroblasts, and the nuclear transfer into enucleated bovine oocytes, generating thus transgenic embryos. The method also includes other procedures to generate transgenic embryos for further expansion of the transgenic herd, such as the subcloning of transgenic female bovines, the superovulation of transgenic cows and their insemination with semen from a non-transgenic or a transgenic male bovine, and the superovulation of non-transgenic cows and their insemination with semen from a transgenic male bovine. Afterwards, transgenic embryos give rise to transgenic cattle that produce human growth hormone in huge amounts in their milk, from which the hormone is completely purified and analysed to fulfill all the requirements for the manufacture of a pure biopharmaceutical product. | 03-24-2011 |
20090275645 | METHOD TO INDUCE NEOVASCULAR FORMATION AND TISSUE REGENERATION - The present invention relates, e.g., to a method for inducing arteriogenesis, lymphangiogenesis, vasculogenesis, or cardiomyogenesis, and/or for inducing mitosis or proliferation of a smooth muscle cell, a skeletal muscle cell, or a cardiomyocyte, comprising administering to a cell or tissue in need thereof a dose of a polynucleotide that encodes a vascular endothelial growth factor (VEGF), or that encodes a polypeptide comprising an active site of the VEGF. The coding sequence is operably linked to an expression control sequence; and the dose is sufficient to induce arteriogenesis, lymphangiogenesis, vasculogenesis, or cardiomyogenesis, and/or to induce mitosis or proliferation of a smooth muscle cell, a skeletal muscle cell, or a cardiomyocyte. In preferred embodiments of the invention, the method is a method of tissue regeneration, particularly of cardiomyogenesis; and the polynucleotide (or a polypeptide encoded by such a polynucleotide) is administered into the myocardium. | 11-05-2009 |
20090187999 | Process for Producing Exogenous Protein in the Milk of Transgenic Mammals and a Process For Purifying Proteins Therefrom - The invention relates to a non-human transgenic mammal that is useful for the production of a protein of interest that may be toxic to the mammal. The mammal is characterized by the fact that it is transgenic for the production in its milk of an inactive form of the protein of interest, preferably recombinant human insulin. It is not possible to produce recombinant human insulin in transgenic mammals since this molecule has a certain degree of biological activity in the mammals and could be toxic to the mammal. Thus, the invention involves cloning a genetic construct comprising a sequence encoding a modified human insulin precursor under the control of a beta casein promoter in an expression vector. It also involves transfecting the expression plasmid into fetal bovine somatic cells, such as fibroblasts, and enucleating bovine oocytes by nuclear transfer to generate transgenic embryos. The invention gives rise to transgenic bovine that will be able to produce a modified human insulin precursor in their mammary glands. Afterwards, the milk of these transgenic mammals can be collected, the modified human insulin precursor can be converted in vitro into recombinant human insulin, and the recombinant human insulin can be purified to homogeneity as a pure biopharmaceutical product. | 07-23-2009 |
20080229438 | Process of making transgenic mammals that produce exogenous proteins in milk and transgenic mammals produced thereby - The invention relates to a method of producing a protein of interest, comprising making a non-human transgenic mammal that produces said protein in its milk, obtaining said milk from the non-human transgenic mammal and purifying said protein of interest from the milk. Transgenic bovine animals were generated, which are able to produce human growth hormone in mammary glands. The method involves cloning of a genetic construct encoding hGH gene and beta casein promoter conveniently in an expression vector. It also includes transfection procedures into fetal bovine somatic cells, generally fibroblasts, and the nuclear transfer into enucleated bovine oocytes, generating thus transgenic embryos. The method also includes other procedures to generate transgenic embryos for the further expansion of the transgenic herd, such as the subcloning of transgenic female bovines, the superovulation of transgenic cows and their insemination with semen from a non-transgenic or a transgenic male bovine, and the superovulation of non-transgenic cows and their insemination with semen from a transgenic male bovine. Afterwards, transgenic embryos give rise to transgenic cattle that produce human growth hormone in huge amounts in their milk, from which the hormone is completely purified and analysed to fulfill all the requirements for the manufacture of a pure biopharmaceutical product. | 09-18-2008 |