Cell Death Discovery (Aug 2022)

Nucleosome remodeling and deacetylation complex and MBD3 influence mouse embryonic stem cell naïve pluripotency under inhibition of protein kinase C

  • Yujian Dai,
  • Jialei Sun,
  • Na He,
  • Liyou An,
  • Chunhui Hou,
  • Fuliang Du

DOI
https://doi.org/10.1038/s41420-022-01131-0
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 11

Abstract

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Abstract The pluripotency of naïve mouse embryonic stem cells (mES) is regulated by multiple signaling pathways, with inhibition of protein kinase C (PKCi) playing a particularly important role in maintaining naïve mES. However, the regulatory function of nucleosome remodeling and deacetylase (NuRD) complex in mES cultured in a PKCi system is unknown. We found that, compared with 2iL-derived mES, PKCi-derived mES showed low mRNA expression of NuRD complex subunits, including MBD3, HDAC1/HDAC2, MTA1, and RbAP46/RbAP48. Western blot showed that PKCi-derived mES expressed lower protein levels of MBD3 and HDAC2 at passage 3, as well as MBD3, HDAC2, and MTA1 at passage 10, indicating that PKCi suppressed NuRD complex expression. Knockdown of MBD3 increased PKCi-derived mES pluripotency by increasing NANOG and OCT4 expression and colony formation. By contrast, overexpression of MBD3 or removal of PKC inhibitor-induced differentiation of mES, results in reduced NANOG, OCT4, and REX1 expression and colony formation, increased differentiation-related gene expression, and differentiation into flat cells. Knockdown of MBD3 in mES upon PKC inhibitor removal partially reversed cell differentiation. Our results show that the regulatory NuRD complex and its MBD3 subunit influence the naïve pluripotency of mES cultured in a PKCi system.