MEK1/2 kinases cooperate with c-Myc:MAX to prevent polycomb repression of TERT in human pluripotent stem cells

Spandana T Kotian, Lindsay F Rizzardi, Josh Lewis Stern
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Abstract

Telomerase counteracts telomere shortening, enabling human embryonic stem cells (hESC) to undergo long-term proliferation. MAPK signaling plays a major role in regulating the self-renewal of hESC, and previous studies in induced pluripotent stem cells (iPSC) suggested that expression of TERT, the gene encoding the catalytic subunit of telomerase, relies on MAPK signaling. We examined whether MEK-ERK signaling regulated TERT transcription in a model of normal hESC. Kinase inhibitors of MEK1 and MEK2 (MEKi) or ERK1 and ERK2 (ERKi) significantly repressed TERT mRNA levels. Using chromatin immunoprecipitation (ChIP) we observed that MEKi induced the accumulation of the repressive histone mark histone 3 lysine 27 trimethylation (H3K27me3) at the TERT proximal promoter. This increase corresponded with a loss of histone 3 lysine 27 acetylation (H3K27ac) which is associated with transcriptionally active loci. Inhibition of the polycomb repressive complex 2 (PRC2), which deposits H3K27me3, partially rescued the loss of TERT expression, indicating that MEK1/2 activity can limit PRC2 activity at TERT. Inhibition of MEK/ERK kinases also repressed expression of c-Myc, a transcription factor reported to regulate TERT in other immortalized cells. Consistent with a key role for c-Myc in regulating TERT, low doses of a c-Myc:MAX dimerization inhibitor induced a striking and rapid gain of H3K27me3 at TERT and repressed TERT transcription in hESC. Inhibiting c-Myc:MAX dimerization also resulted in lower MAX recruitment to TERT, suggesting that this complex acts in cis at TERT. Our study using a model of normal human pluripotent stem cells identifies new regulators and mechanisms controlling transcription of an important, developmentally regulated gene involved in telomere protection.
MEK1/2 激酶与 c-Myc:MAX 合作,阻止多聚酶抑制人类多能干细胞中的 TERT
端粒酶能抵消端粒的缩短,使人类胚胎干细胞(hESC)能够长期增殖。MAPK信号在调节hESC的自我更新中起着重要作用,先前对诱导多能干细胞(iPSC)的研究表明,编码端粒酶催化亚基的基因TERT的表达依赖于MAPK信号。我们研究了正常hESC模型中MEK-ERK信号是否调控TERT转录。MEK1和MEK2(MEKi)或ERK1和ERK2(ERKi)的激酶抑制剂显著抑制了TERT mRNA水平。我们利用染色质免疫沉淀(ChIP)技术观察到,MEKi诱导了抑制性组蛋白标记组蛋白3赖氨酸27三甲基化(H3K27me3)在TERT近端启动子处的积累。这种增加与组蛋白 3 赖氨酸 27 乙酰化(H3K27ac)的丧失相对应,而组蛋白 3 赖氨酸 27 乙酰化与转录活跃的基因座相关。抑制多聚酶抑制复合体 2(PRC2)可沉积 H3K27me3,但抑制多聚酶抑制复合体 2 可部分缓解 TERT 表达的丧失,这表明 MEK1/2 的活性可限制 TERT 上 PRC2 的活性。抑制MEK/ERK激酶还能抑制c-Myc的表达,据报道,c-Myc是一种转录因子,能调节其他永生细胞中的TERT。低剂量的c-Myc:MAX二聚化抑制剂诱导了TERT处H3K27me3的显著快速增殖,并抑制了hESC中TERT的转录,这与c-Myc在调控TERT中的关键作用是一致的。抑制c-Myc:MAX二聚化也会降低MAX对TERT的招募,这表明该复合物在TERT上的作用是顺式的。我们利用正常人类多能干细胞模型进行的研究发现了控制参与端粒保护的重要发育调控基因转录的新调控因子和机制。
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