在肝癌中,HSP90 N-端抑制通过减少HSP90AA1与HCFC1的相互作用,降低TFEB转录,从而促进线粒体衍生囊泡的相关转移。

Lixia Liu, Zhenming Zheng, Yaling Huang, Hairou Su, Guibing Wu, Zihao Deng, Yan Li, Guantai Xie, Jieyou Li, Fei Zou, Xuemei Chen
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引用次数: 0

摘要

当缺乏典型的 MAP1LC3B/LC3B(微管相关蛋白 1 轻链 3 beta)介导的有丝分裂时,癌细胞会通过增加线粒体衍生囊泡(MDVs)来维持线粒体的平衡。MDV 促进线粒体成分向细胞外囊泡 (EV) 的运输,并诱发肿瘤转移。虽然 HSP90(热休克蛋白 90)能合成数百种客户蛋白,其抑制剂也能抑制肿瘤,但与 HSP90 抑制剂相关的化疗却会导致意想不到的转移。在这里,我们发现 HSP90 抑制剂会导致线粒体损伤,但会刺激低 LC3 诱导的 MDVs 和 MDVs 衍生 EVs 的释放。然而,在 HSP90 抑制作用下,LC3 为什么会减少,MDVs 形成的转录调控机制是什么,这些仍然是未知数。由于TFEB(转录因子EB)是最重要的有丝分裂吞噬转录因子,而HSP90的客户HCFC1(宿主细胞因子C1)调控TFEB的转录,因此在MDVs形成过程中,TFEB、HCFC1和HSP90之间应该存在隐性联系。我们的研究结果支持这样一种观点,即 HSP90 N 端抑制通过减少 HSP90AA1 与 HCFC1 的相互作用来减少 TFEB 的转录,从而阻止 HCFC1 与 TFEB 近端启动子区域结合。TFEB 转录的减少以及 LC3 的减少最终促进了 MDVs 的形成。用微管抑制剂nocodazole(NOC)阻断MDVs的形成可激活HCFC1-TFEB-LC3轴,削弱HSP90抑制剂诱导的MDVs和MDVs衍生EVs的释放,抑制肿瘤细胞球和原发性肝肿瘤的生长,并减少癌细胞向继发性转移部位的外渗。综上所述,这些数据表明,应采用联合疗法来降低 HSP90 抑制剂导致的低 TFEB 触发 MDVs 形成的转移风险。
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HSP90 N-terminal inhibition promotes mitochondria-derived vesicles related metastasis by reducing TFEB transcription via decreased HSP90AA1-HCFC1 interaction in liver cancer.

Cancer cells compensate with increasing mitochondria-derived vesicles (MDVs) to maintain mitochondrial homeostasis, when canonical MAP1LC3B/LC3B (microtubule associated protein 1 light chain 3 beta)-mediated mitophagy is lacking. MDVs promote the transport of mitochondrial components into extracellular vesicles (EVs) and induce tumor metastasis. Although HSP90 (heat shock protein 90) chaperones hundreds of client proteins and its inhibitors suppress tumors, HSP90 inhibitors-related chemotherapy is associated with unexpected metastasis. Herein, we find that HSP90 inhibitor causes mitochondrial damage but stimulates the low LC3-induced MDVs and the release of MDVs-derived EVs. However, why LC3 decreases and what is the transcriptional regulatory mechanism of MDVs formation under HSP90 inhibition remain unknown. Because TFEB (transcription factor EB) is the most important mitophagy transcription factor, and the HSP90 client HCFC1 (host cell factor C1) regulates TFEB transcription, there should be a hidden connection between TFEB, HCFC1 and HSP90 in MDVs formation. Our results support the idea that HSP90 N-terminal inhibition reduces TFEB transcription via decreased HSP90AA1-HCFC1 interaction, which prevents HCFC1 from binding to the TFEB proximal promoter region. Decreased TFEB transcription and consequently reduced LC3, ultimately promoted MDVs formation. Blocking MDVs formation with the microtubule inhibitor nocodazole (NOC) activates the HCFC1-TFEB-LC3 axis, weakens HSP90 inhibitors-induced MDVs and the release of MDVs-derived EVs, inhibits the growth of tumor cell spheres and primary liver tumors, and reduces the extravasation of cancer cells to secondary metastatic sites. Taken together, these data suggest that combination therapy should be used to reduce the metastatic risk of low TFEB-triggered-MDVs formation caused by HSP90 inhibitors.Abbreviation: ACIs: ATP-competitive inhibitors; BaFA1: bafilomycin A1; CCCP: carbonyl cyanide 3-chlorophenylhydrazone; ChIP: chromatin immunoprecipitation; CHX: cycloheximide; CTD: C-terminal domain; EVs: extracellular vesicles; HCFC1: host cell factor C1; HSP90: heat shock protein 90; ILVs: intralumenal vesicles; MAP1LC3B/LC3B: microtubule associated protein 1 light chain 3 beta; MD: middle domain; MDVs: mitochondria-derived vesicles; MQC: mitochondrial quality control; ΔΨm: mitochondrial membrane potential; MVBs: multivesicular bodies; NB: novobiocin; TEM: transmission electron microscopy; TFEB: transcription factor EB; TFs: transcription factors. NOC: nocodazole; NTD: N-terminal nucleotide binding domain; OCR: oxygen consumption rate; RFP: red fluorescent protein; ROS: reactive oxygen species; STA9090: Ganetespib; VPS35: VPS35 retromer complex component.

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