Abstract
Female human pluripotent stem cells (PSCs) have variable X-chromosome inactivation (XCI) status. One of the X chromosomes may either be inactive (Xi) or display some active state markers. Long-term cultivation of PSCs may lead to an erosion of XCI and partial X reactivation. Such heterogeneity and instability of XCI status might hamper the application of human female PSCs for therapy or disease modeling. We attempted to address XCI heterogeneity by reprogramming human embryonic stem cells (hESCs) to the naïve state. We propagated five hESC lines under naïve culture conditions. PSCs acquired naïve cells characteristics although these changes were not uniform for all of the hESC lines. Transition to the naïve state was accompanied by a loss of XIST expression, loss of Xi H3K27me3 enrichment and a switch in Xi replication synchronously with active X, except for two regions. This pattern of Xi reactivation was observed in all cells in two hESC lines. However, these cells were unable to undergo classical XCI upon spontaneous differentiation. We conclude that naïve culture conditions do not resolve the variability in XCI status in female human ESC lines and establish an irreversible heterogeneous pattern of partial X reactivation.
Highlights
X chromosome inactivation (XCI) occurs during early embryonic development in mammalian females
Cell lines derived from mouse postimplantation epiblasts (EpiSCs) have one inactivated X chromosome, and they are basic fibroblast growth factor (bFGF)-dependent in contrast to leukemia inhibitory factor (LIF)-dependent mouse embryonic stem cells (mESCs)
Cell colonies cultured in 20% KO serum replacement on feeder layers had typical morphology indicative of primed human embryonic stem cells (hESCs) (Figure 1A)
Summary
X chromosome inactivation (XCI) occurs during early embryonic development in mammalian females. This process equalizes the dose of X-linked genes between males and females. Cell lines derived from mouse postimplantation epiblasts (EpiSCs) have one inactivated X chromosome, and they are bFGF-dependent in contrast to LIF-dependent mESCs. EpiSCs are Oct4-positive and have epithelial morphology, reduced Rex expression, and retained pluripotency, i.e., they give rise to all three germ layers [2, 3]. Most human pluripotent stem cell (hPSC) lines carry inactive X (Xi) chromosomes, some cell lines exhibit active state markers on both X chromosomes [5,6,7]. This socalled “erosion” process appears to be a frequent event of epigenetic instability in culture and is characterized by the loss of common XCI markers and up-regulation of a subset of X-linked genes [8,9,10]
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