SATB1 promotion of trophoblast stem cell renewal through regulation of threonine dehydrogenase

Trophoblast stem (TS) cell renewal and differentiation are essential processes in placentation. Special AT-rich binding protein 1 (SATB1) is a key regulator of the TS cell stem state. In this study, we identified SATB1 downstream targets and investigated their actions.

Our findings indicate that the actions of SATB1 on TS cell maintenance are mediated, at least in part, through the regulation and actions of TDH. General significance: Regulatory pathways controlling TS cell dynamics dictate the functionality of the placenta, pregnancy outcomes, and postnatal health.

RNA-sequencing analysis was performed in Rcho-1 TS cells expressing control or Satb1 short hairpin RNAs (shRNAs) to identify candidate SATB1 targets. Differentially regulated transcripts were validated by reverse transcription-quantitative polymerase chain reaction. The role of a target of SATB1, L-threonine 3-dehydrogenase (TDH), in the regulation of trophoblast cell development was investigated using a loss-of-function approach.

Among the differentially regulated transcripts in SATB1 knockdown TS cells, were downregulated transcripts known to affect the TS cell stem state and upregulated transcripts characteristic of trophoblast cell differentiation. Tdh expression was exquisitely responsive to SATB1 dysregulation. Tdh expression was high in the TS cell stem state and decreased as TS cells differentiated. Treatment of Rcho-1 TS cells with a TDH inhibitor or a TDH specific shRNA inhibited cell proliferation and attenuated the expression of TS cell stem state-associated transcripts and elevated the expression of trophoblast cell differentiation-associated transcripts. TDH disruption decreased TS cell colony size, Cdx2 expression, and blastocyst outgrowth. Conclusions: Our findings indicate that the actions of SATB1 on TS cell maintenance are mediated, at least in part, through the regulation and actions of TDH. General significance: Regulatory pathways controlling TS cell dynamics dictate the functionality of the placenta, pregnancy outcomes, and postnatal health.

Regulatory pathways controlling TS cell dynamics dictate the functionality of the placenta, pregnancy outcomes, and postnatal health.