Functional screen reveals essential roles of miR‐27a/24 in differentiation of embryonic stem cells

Y Ma, N Yao, G Liu, L Dong, Y Liu, M Zhang… - The EMBO …, 2015 - embopress.org
Y Ma, N Yao, G Liu, L Dong, Y Liu, M Zhang, F Wang, B Wang, X Wei, H Dong, L Wang, S Ji…
The EMBO journal, 2015embopress.org
Micro RNA s play important roles in controlling the embryonic stem cell (ESC) state.
Although much is known about micro RNA s maintaining ESC state, micro RNA s that are
responsible for promoting ESC differentiation are less reported. Here, by screening 40 micro
RNA s pre‐selected by their expression patterns and predicted targets in Dgcr8‐null ESC s,
we identify 14 novel differentiation‐associated micro RNA s. Among them, miR‐27a and miR‐
24, restrained by c‐Myc in ESC, exert their roles of silencing self‐renewal through directly …
Abstract
MicroRNAs play important roles in controlling the embryonic stem cell (ESC) state. Although much is known about microRNAs maintaining ESC state, microRNAs that are responsible for promoting ESC differentiation are less reported. Here, by screening 40 microRNAs pre‐selected by their expression patterns and predicted targets in Dgcr8‐null ESCs, we identify 14 novel differentiation‐associated microRNAs. Among them, miR‐27a and miR‐24, restrained by c‐Myc in ESC, exert their roles of silencing self‐renewal through directly targeting several important pluripotency‐associated factors, such as Oct4, Foxo1 and Smads. CRISPR/Cas9‐mediated knockout of all miR‐27/24 in ESCs leads to serious deficiency in ESC differentiation in vitro and in vivo. Moreover, depleting of them in mouse embryonic fibroblasts can evidently promote somatic cell reprogramming. Altogether, our findings uncover the essential role of miR‐27 and miR‐24 in ESC differentiation and also demonstrate novel microRNAs responsible for ESC differentiation.
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