Abstract
In mammals, sex chromosome dosage is compensated through X-chromosome inactivation and active-X upregulation. It is believed that during early development, X-chromosome inactivation and active X upregulation happen in a highly coordinated fashion. However, such coordination between two X-chromosomes in other developmental contexts remains unexplored. Here, we have profiled the coordination between two X-chromosomes in female cells in different developmental contexts and cell types: pre-implantation embryos, embryonic epiblast cells, iPSC reprogramming, germ cell reprogramming, B-cell, and extra-embryonic endoderm stem (XEN) cells. Interestingly, we found that two X-chromosomes in female cells are not always coordinated; instead, it happens in a lineage-specific manner. Specially, while embryonic mouse epiblast cells, iPSC undergo erasure of X-upregulation upon reactivation of the inactive X, germ cells do not. Importantly, we show that the erasure of X-upregulation in epiblast or iPSC is potentially mediated via undifferentiated embryonic transcription Factor 1 (UTF1), which is absent or lowly expressed in late germ cells and therefore, germ cells are unable to erase upregulation. Moreover, we found that partial reactivation of the inactive X is insufficient to drive the erasure of upregulation globally, nor from their counterparts on the active X in XEN and B-cells. Finally, through a phenomenological mathematical model, we show that cross-inhibition between two X-chromosomes can reproduce the dynamics of reactivation and erasure of upregulation. Altogether, our study provides insight into the coordination between two X-chromosomes in female cells in different developmental contexts and related mechanistic aspects.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
The manuscript has been extensively revised with new experimental data.