X-chromosome inactivation (XCI) is an epigenetic process that equalizes expression of X-borne genes between male and female eutherians. This process is observed in early eutherian embryo development in a species-specific manner. Until recently, various pluripotent factors have been suggested to regulate the process of XCI by repressing
XIST expression, which is the master inducer for XCI. Recent insights into the process and its regulation have been restricted in mouse species despite the evolutionary diversity of the process and molecular mechanism among the species.
OCT4A is one of the represented pluripotent factors, the gate-keeper for maintaining pluripotency, and an
XIST repressor. Therefore, in here, we examined the relation between
OCT4A and X-linked genes in porcine preimplantation embryos
. Three X-linked genes,
XIST,
LOC102165544, and
RLIM, were selected in present study because their orthologues have been known to regulate XCI in mice. Expression levels of
OCT4A were positively correlated with
XIST and
LOC102165544 in female blastocysts. Furthermore, overexpression of exogenous human
OCT4A in cleaved parthenotes generated blastocysts with increased
XIST expression levels. However, increased
XIST expression was not observed when exogenous
OCT4A was obtained from early blastocysts. These results suggest the possibility that
OCT4A would be directly or indirectly involved in
XIST expression in earlier stage porcine embryos rather than blastocysts.
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