Abstract

Embryonic stem (ES) cells are derived from the epiblast of the inner cell mass (ICM) of a blastocyst. These are pluripotent cells and can give rise to all derivatives of the three primary germ layers ectoderm, endoderm, and mesoderm. ES cells require specific signals for specific lineage of differentiation if injected directly into another body, ES cells will differentiate into many different types of cells, causing a teratoma (Wu et al., 2007). The techniques for culturing mouse embryonic stem (ES) cells from the inner cell mass of the preimplantation blastocyst were first done in 1981 (Martin, 1981), and versions of these standard procedures are used today in laboratories throughout the world. The first successful derivation of human ES (hES) cells was reported by Thomson et al. (Thomson et al., 1998). They isolated and plated the cells onto mitotically inactivated MEF (mouse embryonic fibroblast) cells. In 2000, Reubinoff et al. confirmed that hES cells could be efficiently derived from surplus embryos and possess the differentiation potential under in vitro conditions. Since then, there has been rapid progress made and numerous studies have described the derivation of new hES cell lines including methods of growing both undifferentiated hES cells and their differentiated progeny. In last 6 years, there has been exponential increase in methods to improve culture conditions, differentiation patterns to produce human cells for transplantation and drug testing (Trounson, 2006, Gepstein, 2002) and genetic manipulation (Draper et al., 2004, Zwaka and Thomson, 2003). Generating cultures of mouse or human ES cells that remain in a proliferating and undifferentiated state is multistep process. Typically, the inner cell mass of a preimplantation blastocyst is removed from the trophectoderm that surrounds it and cultured in the small plastic culture dishes containing growth medium supplemented with fetal calf serum. The culture dishes are sometimes coated with a layer of nondividing cells, which are often MEF cells that have been chemically inactivated so they will not divide. Mouse ES cells can be grown in vitro without feeder layers if the cytokine leukemia inhibitory factor (LIF) is added to the culture medium, but human ES cells do not respond to LIF. The process of generating an embryonic stem cell line is somewhat difficult, so lines are not produced every time from the preimplantation-stage embryo maintained in a culture dish. However, if the plated cells survive, divide and multiply enough to crowd the dish, they are removed, and plated into several fresh culture dishes. The process of re-plating or

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