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AAA ATP酶NSF和p97在分泌途径中的不同作用。

Distinct roles for the AAA ATPases NSF and p97 in the secretory pathway.

作者信息

Dalal Seema, Rosser Meredith F N, Cyr Douglas M, Hanson Phyllis I

机构信息

Washington University School of Medicine, Department of Cell Biology and Physiology, St. Louis, Missouri 63110, USA.

出版信息

Mol Biol Cell. 2004 Feb;15(2):637-48. doi: 10.1091/mbc.e03-02-0097. Epub 2003 Nov 14.

DOI:10.1091/mbc.e03-02-0097
PMID:14617820
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC329284/
Abstract

NSF and p97 are related AAA proteins implicated in membrane trafficking and organelle biogenesis. p97 is also involved in pathways that lead to ubiquitin-dependent proteolysis, including ER-associated degradation (ERAD). In this study, we have used dominant interfering ATP-hydrolysis deficient mutants (NSF(E329Q) and p97(E578Q)) to compare the function of these AAA proteins in the secretory pathway of mammalian cells. Expressing NSF(E329Q) promotes disassembly of Golgi stacks into dispersed vesicular structures. It also rapidly inhibits glycosaminoglycan sulfation, reflecting disruption of intra-Golgi transport. In contrast, expressing p97(E578Q) does not affect Golgi structure or function; glycosaminoglycans are normally sulfated and secreted, as is the VSV-G ts045 protein. Instead, expression of p97(E578Q) causes ubiquitinated proteins to accumulate on ER membranes and slows degradation of the ERAD substrate cystic-fibrosis transmembrane-conductance regulator. In addition, expression of p97(E578Q) eventually causes the ER to swell. More specific assessment of effects of p97(E578Q) on organelle assembly shows that the Golgi apparatus disperses and reassembles normally after treatment with brefeldin A and during mitosis. These findings demonstrate that ATP-hydrolysis-dependent activities of NSF and p97 in the cell are not equivalent and suggest that only NSF is directly involved in regulating membrane fusion.

摘要

NSF和p97是相关的AAA蛋白,参与膜运输和细胞器生物发生。p97也参与导致泛素依赖性蛋白水解的途径,包括内质网相关降解(ERAD)。在本研究中,我们使用了显性干扰的ATP水解缺陷突变体(NSF(E329Q)和p97(E578Q))来比较这些AAA蛋白在哺乳动物细胞分泌途径中的功能。表达NSF(E329Q)会促使高尔基体堆叠体解体为分散的囊泡结构。它还会迅速抑制糖胺聚糖硫酸化,这反映了高尔基体内部运输的中断。相比之下,表达p97(E578Q)不会影响高尔基体的结构或功能;糖胺聚糖正常硫酸化并分泌,水泡性口炎病毒糖蛋白(VSV-G)ts045也是如此。相反,p97(E578Q)的表达会导致泛素化蛋白在内质网膜上积累,并减缓ERAD底物囊性纤维化跨膜传导调节因子的降解。此外,p97(E578Q)的表达最终会导致内质网肿胀。对p97(E578Q)对细胞器组装影响的更具体评估表明,在用布雷菲德菌素A处理后以及有丝分裂期间,高尔基体正常分散并重新组装。这些发现表明,细胞中NSF和p97的ATP水解依赖性活性并不等同,并表明只有NSF直接参与调节膜融合。

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