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        검색결과 1

        1.
        2014.09 서비스 종료(열람 제한)
        Pluripotent cells are categorized as either "naive" or "primed" based upon their pluripotent status. According to previous studies, embryonic stem cells and embryonic germ cells are identified as naive pluripotent stem cells and epiblast stem cells are identified as primed pluripotent stem cells. In a permissive species such as the mouse, naive and primed pluripotent stem cells can be derived from embryos without genetic manipulations. In non-permissive species such as humans and pigs, primed pluripotent cells are only established from embryos. However, previous studies have shown that the embryonic germ cells of non-permissive species share similar morphology and features with naive pluripotent cells. For these reasons porcine embryonic germ cells (pEGCs) may provide a useful cell source for comparative studies on naive pluripotent cells in non-permissive species. In this study, we attempted to establish and characterize porcine embryonic germ cells. Consequently, an embryonic germ cell line was derived from the genital ridges of a porcine dpc 30 fetus in media containing LIF and bFGF. After establishment, this cells were cultured and stabilized in LIF or bFGF contained media. This cell lines displayed a dome-shaped colony morphology in both culture condition. The cell lines were maintained in both condition over an extended time period and were able to differentiate into the three germ layers in vitro. Interestingly, cell lines cultured in LIF or bFGF expressed different pluripotency markers. LIF-dependent pEGCs expressed naive-pluripotency markers such as OCT4, SOX2, NANOG and SSEA1, while bFGF-dependent pEGCs expressed primed-pluripotency markers such as OCT4, SOX2, NANOG and SSEA4. However, as a result of analysis of XCI, two cell lines showed hemi-methylated pattern similarly in XIST promoter regions. In conclusion, we were able to successfully derive embryonic germ cells from genital ridges of a porcine fetus. Pluripotent state of pEGCs were regulated by modulation of culture condition. In LIF supplement, pEGCs showed naive-pluripotency expressing SSEA1, while pEGCs show primed-pluripotency expressing SSEA4 in bFGF condition. This cell line could potentially be used as naive pluripotent cell source for comparative study with porcine embryonic stem cells and other pluripotent cell lines. As porcine pluripotent cells, pEGCs could be useful candidates for preliminary studies of human disease as well as a source for generating transgenic animals.