Alexey Tomilin scite author profile

Previous studies have shown that Oct4 has an essential role in maintaining pluripotency of cells of the inner cell mass (ICM) and embryonic stem cells. However, Oct4 null homozygous embryos die around the time of implantation, thus precluding further analysis of gene function during development. We have used the conditional Cre/loxP gene targeting strategy to assess Oct4 function in primordial germ cells (PGCs). Loss of Oct4 function leads to apoptosis of PGCs rather than to differentiation into a trophectodermal lineage, as has been described for Oct4-deficient ICM cells. These new results suggest a previously unknown function of Oct4 in maintaining viability of mammalian germline.

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Oct4 Expression Is Not Required for Mouse Somatic Stem Cell Self-Renewal

Lengner

et al. 2007

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The Pou domain containing transcription factor Oct4 is a well-established regulator of pluripotency in the inner cell mass of the mammalian blastocyst as well as in embryonic stem cells. While it has been shown that the Oct4 gene is inactivated through a series of epigenetic modifications following implantation, recent studies have detected Oct4 activity in a variety of somatic stem cells and tumor cells. Based on these observations it has been suggested that Oct4 may also function in maintaining self-renewal of somatic stem cells and, in addition, may promote tumor formation. We employed a genetic approach to determine whether Oct4 is important for maintaining pluripotency in the stem cell compartments of several somatic tissues including the intestinal epithelium, bone marrow (hematopoietic and mesenchymal lineages), hair follicle, brain, and liver. Oct4 gene ablation in these tissues revealed no abnormalities in homeostasis or regenerative capacity. We conclude that Oct4 is dispensable for both self-renewal and maintenance of somatic stem cells in the adult mammal.

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Activation of the pluripotency factor OCT4 in smooth muscle cells is atheroprotective

Cherepanova

Gomez

Shankman

et al. 2016

Nat Med

182

233

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There are controversial claims that the embryonic stem cell (ESC) pluripotency factor OCT4 is activated in somatic cells, but there is no evidence it plays a functional role in these cells. Herein we demonstrate that smooth muscle cell (SMC)-specific conditional knockout of Oct4 within Apoe−/− mice resulted in increased lesion size and changes consistent with decreased plaque stability including a thinner fibrous cap, increased necrotic core, and increased intra-plaque hemorrhage. Results of SMC-lineage tracing studies showed that these changes were likely due to marked reductions in SMC number within lesions including impaired SMC migration and investment within the fibrous cap. Re-activation of Oct4 within SMCs was associated with hydroxymethylation of the Oct4 promoter and was HIF1α- and KLF4-dependent. Results provide the first direct evidence that OCT4 plays a functional role in somatic cells and highlight the importance of further investigation of possible OCT4 functions in normal and diseased somatic cells.

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Differential Dimer Activities of the Transcription Factor Oct-1 by DNA-Induced Interface Swapping

et al. 2001

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Two crystal structures of Oct-1 POU domain bound to DNA provide a rationale for differential, conformation-dependent recruitment of transcription cofactors. The POU-homeo and POU-specific subdomains of Oct-1 contain two different nonoverlapping pairs of surface patches that are capable of forming unrelated protein-protein interfaces. Members of the POU factor family contain one or two conserved sequence motifs in the interface that are known to be phosphorylated, as noted for Oct-1 and Pit-1. Modeling of Oct-4 reveals the unique case where the same conserved sequence is located in both interfaces. Our studies provide the basis for two distinct dimeric POU factor arrangements that are dictated by the architecture of each DNA response element. We suggest interface swapping in dimers could be a general mechanism of modulating the activity of transcription factors.

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Alexey Tomilin

Oct4 is required for primordial germ cell survival

Oct4 Expression Is Not Required for Mouse Somatic Stem Cell Self-Renewal

Activation of the pluripotency factor OCT4 in smooth muscle cells is atheroprotective

Differential Dimer Activities of the Transcription Factor Oct-1 by DNA-Induced Interface Swapping

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