内质网嵌入的UBE2J1/RNF26泛素化复合物对溶酶体途径进行时空控制。

The ER-embedded UBE2J1/RNF26 ubiquitylation complex exerts spatiotemporal control over the endolysosomal pathway.

作者信息

Cremer Tom, Jongsma Marlieke L M, Trulsson Fredrik, Vertegaal Alfred C O, Neefjes Jacques, Berlin Ilana

机构信息

Department of Cell and Chemical Biology, Leiden University Medical Center (LUMC), Einthovenweg 20, 2300RC Leiden, the Netherlands.

出版信息

Cell Rep. 2021 Jan 19;34(3):108659. doi: 10.1016/j.celrep.2020.108659.

DOI:10.1016/j.celrep.2020.108659

PMID:33472082

Abstract

The endolysosomal system fulfills a wide variety of cellular functions, many of which are modulated through interactions with other organelles. In particular, the ER exerts spatiotemporal constraints on the organization and motility of endosomes and lysosomes. We have recently described the ER transmembrane E3 ubiquitin ligase RNF26 as a regulator of endolysosomal perinuclear positioning and transport dynamics. Here, we report that the ubiquitin conjugating enzyme UBE2J1, also anchored in the ER membrane, partners with RNF26 in this context, and that the cellular activity of the resulting E2/E3 pair is localized in a perinuclear ER subdomain and supported by transmembrane interactions. Through modification of SQSTM1/p62 on lysine 435, the ER-embedded UBE2J1/RNF26 ubiquitylation complex recruits endosomal adaptors to immobilize their cognate vesicles in the perinuclear region of the cell. The resulting spatiotemporal compartmentalization promotes the trafficking of activated EGFR to lysosomes and facilitates the termination of EGF-induced AKT signaling.

摘要

内溶酶体系统执行多种细胞功能，其中许多功能通过与其他细胞器的相互作用来调节。特别是，内质网对内涵体和溶酶体的组织和运动施加时空限制。我们最近将内质网跨膜E3泛素连接酶RNF26描述为内溶酶体核周定位和运输动力学的调节剂。在此，我们报告同样锚定在内质网膜上的泛素结合酶UBE2J1在这种情况下与RNF26合作，并且由此产生的E2/E3对的细胞活性定位于核周内质网亚结构域并由跨膜相互作用支持。通过对SQSTM1/p62赖氨酸435位点的修饰，内质网嵌入的UBE2J1/RNF26泛素化复合物募集内涵体衔接子，以将其同源囊泡固定在细胞的核周区域。由此产生的时空分隔促进活化的表皮生长因子受体（EGFR）向溶酶体的运输，并促进表皮生长因子（EGF）诱导的AKT信号传导的终止。

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内质网嵌入的UBE2J1/RNF26泛素化复合物对溶酶体途径进行时空控制。

The ER-embedded UBE2J1/RNF26 ubiquitylation complex exerts spatiotemporal control over the endolysosomal pathway.

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