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Type 3 inositol 1,4,5-trisphosphate receptor negatively regulates apoptosis during mouse embryonic stem cell differentiation
Edited by V De Laurenzi
J Liang1, Y-J Wang1, Y Tang1, N Cao1, J Wang1 and H-T Yang1,2,3
1Key Laboratory of Stem Cell Biology, Institute of Health Sciences, Shanghai Institutes for Biological Sciences (SIBS), Chinese Academy of Sciences (CAS) and Shanghai Jiao Tong University School of Medicine (SJTUSM), Shanghai, China
2Laboratory of Molecular Cardiology of Shanghai Stem Cell Institute, SJTUSM, Shanghai, China
3Shanghai Key Laboratory of Vascular Biology, Ruijin Hospital, SJTUSM, Shanghai, China
Ca2+ signals generated by inositol 1,4,5-trisphosphate receptors (IP3Rs) are crucial for cellular processes such as apoptosis and differentiation. However, the exact roles of IP3Rs and their contributions to Ca2+ signals in pluripotent embryonic stem (ES) cell behaviors remain largely unknown. In this study, we showed that the expression of type 3 IP3R (IP3R3) was transiently downregulated with a concomitant increase in apoptosis at the early differentiation stage of murine ES cells. Knockdown of IP3R3 by small interfering RNA increased apoptosis in differentiating cells but not in undifferentiated ES cells. Moreover, IP3R3 overexpression had the opposite effect. Consistently, IP3R3 knockdown altered Ca2+ oscillations in differentiating cells but not in undifferentiated ES cells. The apoptosis in differentiating IP3R3-knockdown cells was decreased by chelating intracellular Ca2+ with BAPTA-AM and increased in control ones. Furthermore, IP3R3 knockdown led to a suppression of the expression of mesodermal and mesoendodermal but not ectodermal markers. The differentiation suppressions were further confirmed by the impaired differentiation of mesodermal and some of the endodermal but not ectodermal derivatives. Such defects were partially because of the increased apoptosis in Flk-1+ cells. These findings provide the first demonstration of the important role of IP3R3 in the regulation of apoptosis in early differentiating ES cells and subsequent lineage commitments through modulation of Ca2+ signals.
