Transcriptional regulation of autophagy by chromatin remodeling complex and histone variant.

IF 14.6 1区 生物学 Q1 CELL BIOLOGY Autophagy Pub Date : 2023-10-01 Epub Date: 2023-04-13 DOI:10.1080/15548627.2023.2200352
Xin Li, Shanshan Wang, Xilan Yu, Shanshan Li
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Abstract

Autophagy is a catabolic process to maintain homeostasis, and involved in cell differentiation and development. Autophagy is tightly regulated in response to nutrient availability but the underlying mechanism is not completely understood. Recently, we identified the chromatin remodeling complex INO80 (inositol-requiring mutant 80) and histone variant H2A.Z as new autophagy regulators and uncover how histone deacetylase Rpd3L (reduced potassium dependency 3 large) complex represses autophagy by deacetylating Ino80 and H2A.Z. In particular, Rpd3L complex deacetylates Ino80 at lysine 929, which protects Ino80 from being degraded by autophagy. The stabilized Ino80 then evicts H2A.Z from autophagy-related (ATG) genes, leading to their transcriptional repression. In parallel, Rpd3L complex also deacetylates H2A.Z, which further reduces its association with ATG gene promoters and repress ATG gene transcription. Under nutrient-rich conditions, Rpd3L-mediated deacetylation of Ino80 K929 and H2A.Z is enhanced by the TORC1 complex (target of rapamycin complex 1). Under nitrogen-starvation condition, TORC1 is inactivated, leading to reduced activity of Rpd3L complex and increased acetylation of Ino80 and H2A.Z, which in turn induce the transcription of ATG genes. These results reveal a critical role of chromatin remodelers and histone variants in regulating autophagy in response to nutrient availability.Abbreviations: INO80: inositol-requiring mutant 80; Rpd3: reduced potassium dependency 3; H2A.Z: histone H2A variant; Rpd3L complex: Rpd3 large complex; H4K16: H4 lysine 16; H3R17: H3 arginine 17; H3T11: H3 threonine 11; TORC1 complex: target of rapamycin complex 1; ATG: autophagy-related; SWI/SNF: switch/sucrose non-fermentable; SWR1: Swi2/Snf2-related ATPase complex; RSC: remodel the structure of chromatin; ISWI: imitation switch; CHD1: chromodomain helicase DNA binding protein 1; Arp8: actin-related protein 8; Sds3: suppressor of defective silencing 3; Ume6: unscheduled meiotic gene expression 6.

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染色质重塑复合物和组蛋白变体对自噬的转录调控。
自噬是维持体内平衡的分解代谢过程,参与细胞分化和发育。自噬受到营养物质供应的严格调控,但其潜在机制尚不完全清楚。最近,我们鉴定了染色质重塑复合物INO80(需要肌醇的突变体80)和组蛋白变体H2A.Z作为新的自噬调节因子,并揭示了组蛋白脱乙酰酶Rpd3L(减少的钾依赖性3大)复合物如何通过脱乙酰INO80和H2A.Z来抑制自噬,其保护Ino80不被自噬降解。稳定的Ino80随后将H2A.Z从自噬相关(ATG)基因中排出,导致其转录抑制。同时,Rpd3L复合物还使H2A.Z脱乙酰,这进一步减少了其与ATG基因启动子的结合并抑制ATG基因转录。在营养丰富的条件下,Rpd3L介导的Ino80 K929和H2A.Z的脱乙酰作用被TORC1复合物(雷帕霉素复合物1的靶标)增强。在缺氮条件下,TORC1失活,导致Rpd3L复合物的活性降低,Ino80和H2A.Z的乙酰化增加,进而诱导ATG基因的转录。这些结果揭示了染色质重塑因子和组蛋白变体在调节营养物质可利用性的自噬中的关键作用。缩写:INO80:需要肌醇的突变体80;Rpd3:减少钾依赖性3;H2A.Z:组蛋白H2A变体;Rpd3L复合体:Rpd3大型复合体;H4K16:H4赖氨酸16;H3R17:H3精氨酸17;H3T11:H3苏氨酸11;TORC1复合物:雷帕霉素复合物1的靶标;ATG:自噬相关;SWI/SNF:开关/蔗糖不可发酵;SWR1:Swi2/Snf2相关ATP酶复合物;RSC:重塑染色质结构;ISWI:模拟开关;CHD1:色结构域解旋酶DNA结合蛋白1;Arp8:肌动蛋白相关蛋白8;Sds3:缺陷沉默抑制剂3;Ume6:计划外减数分裂基因表达6。
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来源期刊
Autophagy
Autophagy 生物-细胞生物学
CiteScore
21.30
自引率
2.30%
发文量
277
审稿时长
1 months
期刊介绍: Autophagy is a peer-reviewed journal that publishes research on autophagic processes, including the lysosome/vacuole dependent degradation of intracellular material. It aims to be the premier journal in the field and covers various connections between autophagy and human health and disease, such as cancer, neurodegeneration, aging, diabetes, myopathies, and heart disease. Autophagy is interested in all experimental systems, from yeast to human. Suggestions for specialized topics are welcome. The journal accepts the following types of articles: Original research, Reviews, Technical papers, Brief Reports, Addenda, Letters to the Editor, Commentaries and Views, and Articles on science and art. Autophagy is abstracted/indexed in Adis International Ltd (Reactions Weekly), EBSCOhost (Biological Abstracts), Elsevier BV (EMBASE and Scopus), PubMed, Biological Abstracts, Science Citation Index Expanded, Web of Science, and MEDLINE.
期刊最新文献
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