Sec18 与系留/SM 复合物 HOPS 结合,使 Qc-SNARE 参与膜融合。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-05-01 Epub Date: 2024-03-27 DOI:10.1091/mbc.E24-02-0060
Amy Orr, William Wickner
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引用次数: 0

摘要

膜融合受 Rab GTP 酶、其系留效应物(如 HOPS)、每个融合伙伴上的 SNARE 蛋白、催化 SNARE 组装的 SM 蛋白、Sec17(SNAP)和 Sec18(NSF)的调控。虽然高浓度的 HOPS 可以在没有 Sec18 的情况下支持融合,但我们现在报告说,在较低的 HOPS 水平下,融合会急剧下降,此时 Sec18 与 HOPS 的直接结合会恢复融合。这种依赖于 Sec18 的融合需要腺嘌呤核苷酸,但既不需要 ATP 水解,也不需要 Sec17。Sec18 可增强 HOPS 对 Qc-SNARE 的识别。在 HOPS 水平较高的情况下,Qc 的融合 Km 为几 nM。无论是降低 HOPS 水平,还是用合成系链代替 HOPS,Qc 的 Km 都会显著增加到几百 nM。稀释 HOPS 后,Sec18 会将 Qc 的 Km 值恢复到低 nM。相比之下,HOPS 浓度和 Sec18 对 Qb-SNARE 的识别没有影响。正如 Qc 是融合所必需的,但不是反式 SNARE 初步组装所必需的一样,通过限制 HOPS 而不使用 Sec18 来削弱 Qc 的识别能力,仍可允许大量反式 SNARE 组装。因此,除了已知的Sec18拆解SNARE复合物、寡聚Sec17以进行膜结合以及允许Sec17在没有完全SNARE拉链的情况下驱动融合的功能外,我们还报告了第四种Sec18功能,即Sec18与HOPS的结合不依赖于Sec17,以增强Qc-SNARE的功能性接合。
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Sec18 binds the tethering/SM complex HOPS to engage the Qc-SNARE for membrane fusion.

Membrane fusion is regulated by Rab GTPases, their tethering effectors such as HOPS, SNARE proteins on each fusion partner, SM proteins to catalyze SNARE assembly, Sec17 (SNAP), and Sec18 (NSF). Though concentrated HOPS can support fusion without Sec18, we now report that fusion falls off sharply at lower HOPS levels, where direct Sec18 binding to HOPS restores fusion. This Sec18-dependent fusion needs adenine nucleotide but neither ATP hydrolysis nor Sec17. Sec18 enhances HOPS recognition of the Qc-SNARE. With high levels of HOPS, Qc has a Km for fusion of a few nM. Either lower HOPS levels, or substitution of a synthetic tether for HOPS, strikingly increases the Km for Qc to several hundred nM. With dilute HOPS, Sec18 returns the Km for Qc to low nM. In contrast, HOPS concentration and Sec18 have no effect on Qb-SNARE recognition. Just as Qc is required for fusion but not for the initial assembly of SNAREs in trans, impaired Qc recognition by limiting HOPS without Sec18 still allows substantial trans-SNARE assembly. Thus, in addition to the known Sec18 functions of disassembling SNARE complexes, oligomerizing Sec17 for membrane association, and allowing Sec17 to drive fusion without complete SNARE zippering, we report a fourth Sec18 function, the Sec17-independent binding of Sec18 to HOPS to enhance functional Qc-SNARE engagement.

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7.20
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4.30%
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567
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