Keriayn N. Smith scite author profile

The generation of induced pluripotent stem cells (iPSCs) provides a novel method to facilitate investigations into the mechanisms that control stem cell pluripotency and self-renewal. Myc has previously been shown to be critical for murine embryonic stem cell (mESC) maintenance, while also enhancing directed reprogramming of fibroblasts by effecting widespread changes in gene expression. Despite several studies identifying in vivo target genes, the precise mechanism by which Myc regulates pluripotency remains unknown. Here we report that co-deletion of c- and N-MYC in iPSCs and ESCs results in their spontaneous differentiation to primitive endoderm. We show that Myc sustains pluripotency through repression of the primitive endoderm master regulator GATA6, while also contributing to cell cycle control by regulation of the mir-17-92 miRNA cluster. Our findings demonstrate the indispensable requirement for c- or N-myc in pluripotency beyond proliferative and metabolic control.

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Long Noncoding RNA Moderates MicroRNA Activity to Maintain Self-Renewal in Embryonic Stem Cells

Smith

Starmer

Miller

et al. 2017

Stem Cell Reports

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SummaryOf the thousands of long noncoding RNAs expressed in embryonic stem cells (ESCs), few have known roles and fewer have been functionally implicated in the regulation of self-renewal and pluripotency, or the reprogramming of somatic cells to the pluripotent state. In ESCs, Cyrano is a stably expressed long intergenic noncoding RNA with no previously assigned role. We demonstrate that Cyrano contributes to ESC maintenance, as its depletion results in the loss of hallmarks of self-renewal. Delineation of Cyrano's network through transcriptomics revealed widespread effects on signaling pathways and gene expression networks that contribute to ESC maintenance. Cyrano shares unique sequence complementarity with the differentiation-associated microRNA, mir-7, and mir-7 overexpression reduces expression of a key self-renewal factor to a similar extent as Cyrano knockdown. This suggests that Cyrano functions to restrain the action of mir-7. Altogether, we provide a view into the multifaceted function of Cyrano in ESC maintenance.

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MYC Transcription Factors: Key Regulators Behind Establishment and Maintenance of Pluripotency

Smith

Dalton²

2010

Regen. Med.

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Summary The interplay between transcription factors, epigenetic modifiers, chromatin remodelers and miRNAs form the foundation of a complex regulatory network required for establishment and maintenance of the pluripotent state. Recent work indicates that Myc transcription factors are essential elements of this regulatory system. Despite numerous reports however, aspects of how Myc controls self-renewal and pluripotency remain obscure. Here, we review evidence supporting the placement of Myc as a central regulator of the pluripotent state and discuss possible mechanisms of action.

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SWI/SNF remains localized to chromatin in the presence of SCHLAP1

et al. 2018

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SCHLAP1 is a long-noncoding RNA that is reported to function by depleting the SWI/SNF complex from the genome. We investigated the hypothesis that SCHLAP1 affects only specific compositions of SWI/SNF. Using several assays we found that SWI/SNF is not depleted from the genome by SCHLAP1, and that SWI/SNF is associated with many coding and non-coding RNAs, suggesting SCHLAP1 may function in a SWI/SNF independent manner.

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Keriayn N. Smith

Myc Represses Primitive Endoderm Differentiation in Pluripotent Stem Cells

Long Noncoding RNA Moderates MicroRNA Activity to Maintain Self-Renewal in Embryonic Stem Cells

MYC Transcription Factors: Key Regulators Behind Establishment and Maintenance of Pluripotency

SWI/SNF remains localized to chromatin in the presence of SCHLAP1

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