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Macroautophagy mediates recycling of intracellular material by a multistep pathway, ultimately leading to the fusion of closed double-membrane structures, called autophagosomes, with the lysosome. This event ensures the degradation of the autophagosome content by lysosomal proteases followed by the release of macromolecules by permeases and, thus, it accomplishes the purpose of macroautophagy (hereafter referred to as autophagy). Because fusion of unclosed autophagosomes (i.e., phagophores) with the lysosome would fail to degrade the autophagic cargo, this critical step has to be tightly controlled. Yet, until recently, little was known about the regulation of this event and the factors orchestrating it. A punctum in this issue highlights the recent paper by Noboru Mizushima and his collaborators that answered the question of how premature fusion of phagophores with the lysosome is prevented prior to completion of autophagosome closure. 相似文献
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Macroautophagy is a conserved degradative pathway in which a double-membrane compartment sequesters cytoplasmic cargo and delivers the contents to lysosomes for degradation. Efficient formation and maturation of autophagic vesicles, so-called phagophores that are precursors to autophagosomes, and their subsequent trafficking to lysosomes relies on the activity of small RAB GTPases, which are essential factors of cellular vesicle transport systems. The activity of RAB GTPases is coordinated by upstream factors, which include guanine nucleotide exchange factors (RAB GEFs) and RAB GTPase activating proteins (RAB GAPs). A role in macroautophagy regulation for different TRE2-BUB2-CDC16 (TBC) domain-containing RAB GAPs has been established. Recently, however, a positive modulation of macroautophagy has also been demonstrated for the TBC domain-free RAB3GAP1/2, adding to the family of RAB GAPs that coordinate macroautophagy and additional cellular trafficking pathways. 相似文献
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The source of the autophagic membrane and the regulation of autophagosome biogenesis are still elusive open issues in the field of autophagy. In our recent study of the role of lipid droplets (LDs) and their constituents in autophagy, we provided evidence that both the biogenesis of LDs and its lipolysis by specific lipases are important for autophagosome biogenesis. Our study sheds new light on the source of the autophagic membrane and suggests that a flow of membranes from the endoplasmic reticulum (ER) to LDs, and from LDs to the ER, is essential for autophagosome biogenesis. 相似文献
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自噬是细胞通过溶酶体自主降解以实现细胞内物质循环利用的过程,在昆虫细胞分化和个体发育中起着重要作用。鳞翅目昆虫属于完全变态昆虫,会通过自噬和凋亡完成蜕变重建过程,是研究自噬机制的模式生物。自噬相关蛋白Atg8是哺乳动物微管相关蛋白1轻链3的同系物,是自噬相关蛋白的核心蛋白家族,对自噬小体形成、膜的延伸、特定物质识别等具有重要意义。文中就鳞翅目昆虫Atg8在自噬信号通路中的作用、Atg8结构特点、Atg8表达分布及Atg8-PE/Atg8水平与自噬活性关系进行了综述。Atg8-PE是自噬信号通路中两个类泛素结合系统之一,在自噬中起着关键作用。序列分析表明,鳞翅目昆虫Atg8与其他真核生物同源蛋白的整体结构相似,尤其与其他昆虫同源蛋白的氨基酸序列高度一致,体现了Atg8的高度保守性。鳞翅目昆虫发育不同阶段,Atg8在中肠、唾液腺、卵巢、脂肪体、丝腺等器官中的表达分布各不相同。并且,Atg8在核质中分布也存在差异,Atg8在细胞核与细胞质之间的穿梭可能存在蛹化前阶段的某些细胞中。通过检测Atg8-PE在细胞内的表达水平或Atg8含量的变化,可以评价细胞自噬的发生程度。 相似文献
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《Molecular cell》2020,77(5):951-969.e9
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Takashi Ueno Masaaki Komatsu 《BioEssays : news and reviews in molecular, cellular and developmental biology》2020,42(11):2000122
Macroautophagy is a major degradation mechanism of cell components via the lysosome. Macroautophagy greatly contributes to not only cell homeostasis but also the prevention of various diseases. Because macroautophagy proceeds through multi-step reactions, researchers often face a persistent question of how macroautophagic activity can be measured correctly. To make a straightforward determination of macroautophagic activity, diverse monitoring assays have been developed. Direct measurement of lysosome-dependent degradation of radioisotopically labeled cell proteins has long been applied. Meanwhile, indirect monitoring procedures have been developed. In these assays, autophagosome marker proteins, microtubule-associated proteins 1A/1B light chain 3B-II (LC3B-II) and gamma-aminobutyric acid receptor-associated protein-II (GABARAP-II) have been analyzed and the validity of the assays strongly depends on appropriate assessment of the fluctuation of LC3-II and/or GABARAP-II levels in the presence or absence of lysosomal inhibitors. This article describes these monitoring methods, paying special attention to the principles and characteristics of each procedure. 相似文献
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《Autophagy》2013,9(11):1682-1683
Autophagosome formation is a complex cellular process, which requires major membrane rearrangements leading to the creation of a relatively large double-membrane vesicle that directs its contents to the lysosome for degradation. Although various membrane compartments have been identified as sources for autophagosomal membranes, the molecular mechanism underlying these membrane trafficking steps remains elusive. To address this question we performed a systematic analysis testing all known Tre-2/Bub2/Cdc16 (TBC) domain-containing proteins for their ability to inhibit autophagosome formation by disrupting a specific membrane trafficking step. TBC proteins are thought to act as inhibitors of Rab GTPases, which regulate membrane trafficking events. Up to 11 TBC proteins inhibit autophagy when overexpressed and one of these, TBC1D14, acts at an early stage during autophagosome formation and is involved in regulating recycling endosomal traffic. We found that the early acting autophagy proteins ATG9 and ULK1 localize to transferrin receptor (TFR)-positive recycling endosomes (RE), which are tubulated by excess TBC1D14 leading to an inhibition of autophagosome formation. Finally, transferrin (TF)-containing recycling endosomal membranes can be incorporated into newly forming autophagosomes, although it is likely that most of the autophagosome membrane is subsequently acquired from other sources. 相似文献
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Y Yuan A J Tang A B Castoreno S-Y Kuo Q Wang P Kuballa R Xavier A F Shamji S L Schreiber B K Wagner 《Cell death & disease》2013,4(6):e690
The histone methyltransferase G9a is overexpressed in a variety of cancer types, including pancreatic adenocarcinoma, and promotes tumor invasiveness and metastasis. We recently reported the discovery of BRD4770, a small-molecule inhibitor of G9a that induces senescence in PANC-1 cells. We observed that the cytotoxic effects of BRD4770 were dependent on genetic background, with cell lines lacking functional p53 being relatively resistant to compound treatment. To understand the mechanism of genetic selectivity, we used two complementary screening approaches to identify enhancers of BRD4770. The natural product and putative BH3 mimetic gossypol enhanced the cytotoxicity of BRD4770 in a synergistic manner in p53-mutant PANC-1 cells but not in immortalized non-tumorigenic pancreatic cells. The combination of gossypol and BRD4770 increased LC3-II levels and the autophagosome number in PANC-1 cells, and the compound combination appears to act in a BNIP3 (B-cell lymphoma 2 19-kDa interacting protein)-dependent manner, suggesting that these compounds act together to induce autophagy-related cell death in pancreatic cancer cells. 相似文献
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Jian-Kang Chen 《Autophagy》2013,9(6):923-924
The mammalian homolog of yeast Vps34 (PIK3C3/VPS34) is implicated in the regulation of autophagy, and recent studies have suggested that autophagy is a key mechanism in maintaining the integrity of renal glomerular podocytes. To date, however, the role of PIK3C3 in podocytes has remained unknown. We generated a line of podocyte-specific Pik3c3-knockout (Pik3c3pdKO/mVps34pdKO) mice and demonstrated an indispensable role for PIK3C3 in the regulation of intracellular vesicle trafficking and processing to protect the normal cellular metabolism, structure and function of podocytes. 相似文献