Patent ID: 6040180
Filing Date: 2000-03-21
Classification: A61K,C12N,G01N

Abstract:
A method for in vitro generation of neurons, astrocytes and oligodendrocytes from an adhesion culture of mammalian multipotential CNS stem cells, wherein the mammalian multipotential CNS stem cells maintain the multipotential capacity to differentiate into neurons, astrocytes and oligodendrocytes, divide in serum-free medium supplemented with a mitogen and differentiate upon withdrawal of mitogen, comprising the steps of:a) culturing multipotential CNS stem cells in a chemically defined serum-free culture medium containing a growth factor by:1) dissociating cells from central nervous system tissue by mechanical trituration in the absence of divalent cations,2) culturing the dissociated cells adhered onto a plate in a chemically defined serum-free culture medium,3) plating dissociated cells at a density not exceeding 20,000 cells/cm.sup.2 and, in subsequent passages, replating the cultured cells at a density not exceeding 10,000 cells/cm.sup.2,4) adding daily to the cultured cells a growth factor selected from the group consisting ofi) bFGF at a concentration of at least 10 ng/ml,ii) EGF at a concentration of at least 10 ng/ml,iii) TGF-alpha at a concentration of at least 10 ng/ml, andiv) aFGF at a concentration of at least 10 ng/ml plus 1 .mu.g/ml heparin,5) replacing the culture medium with fresh medium within every two days,6) passaging the cultured cells within four days after plating so as not to exceed 50% confluence, and7) passaging the cultured cells by treating the cultured cells with saline solution free of divalent cations and scraping cells from the plate;b) replacing the medium with growth factor-free, serum-free medium;c) harvesting the stem cells;d) plating the stem cells at a density of between 100,000 to 250,000 cells per square centimeter; ande) culturing the cells in a glutamic acid-free chemically defined serum-free culture medium.