Amparo Dávila scite author profile

Satb1 and the closely related Satb2 proteins regulate gene expression and higher-order chromatin structure of multigene clusters in vivo. In examining the role of Satb proteins in murine embryonic stem (ES) cells, we find that Satb1−/− cells display an impaired differentiation potential and augmented expression of the pluripotency determinants Nanog, Klf4, and Tbx3. Metastable states of self-renewal and differentiation competence have been attributed to heterogeneity of ES cells in the expression of Nanog. Satb1−/− cultures have a higher proportion of Nanoghigh cells, and an increased potential to reprogram human B lymphocytes in cell fusion experiments. Moreover, Satb1-deficient ES cells show an increased expression of Satb2, and we find that forced Satb2 expression in wild-type ES cells antagonizes differentiation-associated silencing of Nanog and enhances the induction of NANOG in cell fusions with human B lymphocytes. An antagonistic function of Satb1 and Satb2 is also supported by the almost normal differentiation potential of Satb1−/−Satb2−/− ES cells. Taken together with the finding that both Satb1 and Satb2 bind the Nanog locus in vivo, our data suggest that the balance of Satb1 and Satb2 contributes to the plasticity of Nanog expression and ES cell pluripotency.

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Satb1 and Satb2 Are Dispensable for X Chromosome Inactivation in Mice

Nechanitzky

Dávila

Savarese

et al. 2012

Developmental Cell

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Satb1 and Satb2 have been recently described as regulators of embryonic stem (ES) cell pluripotency and as silencing factors in X chromosome inactivation. The influence of the pluripotency machinery on X chromosome inactivation and the lack of an X chromosome inactivation defect in Satb1(-/-) and Satb2(-/-) mice raise the question of whether or not Satb proteins are directly and/or redundantly involved in this process. Here, we analyzed X chromosome inactivation in fibroblastic cells that were derived from female Satb1(-/-)Satb2(-/-) embryos. By fluorescence in situ hybridization to visualize Xist RNA and by immunohistochemistry to detect H3K27me3 histone modifications, we found that female Satb1(-/-)Satb2(-/-) fibroblastic cells contain proper Barr bodies. Moreover, we did not detect an upregulation of X-linked genes, suggesting that Satb proteins are dispensable for X chromosome inactivation in mice.

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Amparo Dávila

Satb1 and Satb2 regulate embryonic stem cell differentiation and Nanog expression

Satb1 and Satb2 Are Dispensable for X Chromosome Inactivation in Mice

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