AMPK-dependent phosphorylation is required for transcriptional activation of TFEB and TFE3

TFEB 毛囊素 安普克 自噬 mTORC1型 雷帕霉素的作用靶点 生物 细胞生物学 转录因子 TFE3型 磷酸化 蛋白激酶A PI3K/AKT/mTOR通路 癌症研究 生物化学 信号转导 基因 增强子 细胞凋亡
作者
Mathieu Paquette,Leeanna El–Houjeiri,Linda C. Zirden,Pietri Puustinen,Paola Blanchette,Hyeonju Jeong,Kurt Dejgaard,Peter M. Siegel,Arnim Pause
出处
期刊:Autophagy [Taylor & Francis]
卷期号:17 (12): 3957-3975 被引量:116
标识
DOI:10.1080/15548627.2021.1898748
摘要

Increased macroautophagy/autophagy and lysosomal activity promote tumor growth, survival and chemo-resistance. During acute starvation, autophagy is rapidly engaged by AMPK (AMP-activated protein kinase) activation and MTOR (mechanistic target of rapamycin kinase) complex 1 (MTORC1) inhibition to maintain energy homeostasis and cell survival. TFEB (transcription factor E3) and TFE3 (transcription factor binding to IGHM enhancer 3) are master transcriptional regulators of autophagy and lysosomal activity and their cytoplasm/nuclear shuttling is controlled by MTORC1-dependent multisite phosphorylation. However, it is not known whether and how the transcriptional activity of TFEB or TFE3 is regulated. We show that AMPK mediates phosphorylation of TFEB and TFE3 on three serine residues, leading to TFEB and TFE3 transcriptional activity upon nutrient starvation, FLCN (folliculin) depletion and pharmacological manipulation of MTORC1 or AMPK. Collectively, we show that MTORC1 specifically controls TFEB and TFE3 cytosolic retention, whereas AMPK is essential for TFEB and TFE3 transcriptional activity. This dual and opposing regulation of TFEB and TFE3 by MTORC1 and AMPK is reminiscent of the regulation of another critical regulator of autophagy, ULK1 (unc-51 like autophagy activating kinase 1). Surprisingly, we show that chemoresistance is mediated by AMPK-dependent activation of TFEB, which is abolished by pharmacological inhibition of AMPK or mutation of serine 466, 467 and 469 to alanine residues within TFEB. Altogether, we show that AMPK is a key regulator of TFEB and TFE3 transcriptional activity, and we validate AMPK as a promising target in cancer therapy to evade chemotherapeutic resistance.
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