AI Article Synopsis
- - Mouse F9 cells can differentiate into primitive endoderm (PrE) when exposed to retinoic acid (RA), which also raises the levels of reactive oxygen species (ROS).
- - The study identifies NADPH oxidase (NOX) complexes, specifically Nox1 and Nox4, as key contributors to the increased ROS levels during differentiation, and both genes are upregulated by RA.
- - Blocking NOX activity through inhibitors or genetic knockdown hinders RA-induced differentiation, indicating that GATA6 regulates NOX levels and that multiple NOX proteins are needed for F9 cell differentiation into PrE.
Article Abstract
Mouse F9 cells differentiate to primitive endoderm (PrE) when treated with retinoic acid (RA). Differentiation is accompanied by increased reactive oxygen species (ROS) levels, and while treating F9 cells with antioxidants attenuates differentiation, H2O2 treatment alone is sufficient to induce PrE. We identified the NADPH oxidase (NOX) complexes as candidates for the source of this endogenous ROS, and within this gene family, and over the course of differentiation, Nox1 and Nox 4 show the greatest upregulation induced by RA. Gata6, encoding a master regulator of extraembryonic endoderm is also up-regulated by RA and we provide evidence that NOX1 and NOX4 protein levels increase in F9 cells overexpressing Gata6. Pan-NOX and NOX1-specific inhibitors significantly reduced the ability of RA to induce PrE, and this was recapitulated using a genetic approach to knockdown Nox1 and/or Nox4 transcripts. Interestingly, overexpressing either gene in untreated F9 cells did not induce differentiation, even though each elevated ROS levels. Thus, the data suggests that ROS produced during PrE differentiation is dependent in part on increased NOX1 and NOX4 levels, which is under the control of GATA6. Furthermore, these results suggest that the combined activity of multiple NOX proteins is necessary for the differentiation of F9 cells to primitive endoderm.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5289483 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0170812 | PLOS |
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