对rab特异性HOPS亚基的动态定位跟踪揭示了它们与Ypt7和液泡的独特相互作用。

Cellular logistics Pub Date : 2014-05-12 eCollection Date: 2014-01-01 DOI:10.4161/cl.29191
Kathrin Auffarth, Henning Arlt, Jens Lachmann, Margarita Cabrera, Christian Ungermann
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引用次数: 13

摘要

内体和液泡的融合依赖于两种同源系链复合物CORVET和HOPS。HOPS通过两个不同的亚基Vps39和Vps41结合活化的Rab GTPase Ypt7。为了了解Vps41和Vps39在系扣过程中的参与和可能的极性,我们采用了体内方法。为此,我们利用激活内体上Ypt7的Mon1-Ccz1 GEF复合物,建立了配体诱导的质膜再定位。在此过程中,我们采用轻微过表达来比较hops特异性Vps41和Vps39亚基的移动性。我们的数据表明,两种HOPS亚基在rab特异性相互作用中存在不对称性:Vps39更紧密地与液泡结合,并将整个液泡重新定位到质膜上,而Vps41表现得像更具流动性的亚基。这是由于它们与Rab结合的特异性,因为两种亚基在ypt7∆细胞中的迁移率相似。相比之下,如果内源性标记,两个HOPS亚基的流动性都要低得多,这表明整个HOPS复合物在体内与液泡紧密结合。当我们对CORVET的rabb特异性亚基Vps8进行跟踪研究时,也获得了类似的结果。我们的数据提供了在体内的证据,证明在HOPS中有明显的Rab特异性,这可能解释了它在系聚过程中的功能,并表明这些系聚复合物在细胞内的流动性比之前预期的要低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Tracking of the dynamic localization of the Rab-specific HOPS subunits reveal their distinct interaction with Ypt7 and vacuoles.

Tracking of the dynamic localization of the Rab-specific HOPS subunits reveal their distinct interaction with Ypt7 and vacuoles.

Tracking of the dynamic localization of the Rab-specific HOPS subunits reveal their distinct interaction with Ypt7 and vacuoles.

Tracking of the dynamic localization of the Rab-specific HOPS subunits reveal their distinct interaction with Ypt7 and vacuoles.

Endosomal and vacuole fusion depends on the two homologous tethering complexes CORVET and HOPS. HOPS binds the activated Rab GTPase Ypt7 via two distinct subunits, Vps39 and Vps41. To understand the participation and possible polarity of Vps41 and Vps39 during tethering, we used an in vivo approach. For this, we established the ligand-induced relocalization to the plasma membrane, using the Mon1-Ccz1 GEF complex that activates Ypt7 on endosomes. We then employed slight overexpression to compare the mobility of the HOPS-specific Vps41 and Vps39 subunits during this process. Our data indicate an asymmetry in the Rab-specific interaction of the two HOPS subunits: Vps39 is more tightly bound to the vacuole, and relocalizes the entire vacuole to the plasma membrane, whereas Vps41 behaved like the more mobile subunit. This is due to their specific Rab binding, as the mobility of both subunits was similar in ypt7∆ cells. In contrast, both HOPS subunits were far less mobile if tagged endogenously, suggesting that the entire HOPS complex is tightly bound to the vacuole in vivo. Similar results were obtained for the endosomal association of CORVET, when we followed its Rab-specific subunit Vps8. Our data provide in vivo evidence for distinct Rab specificity within HOPS, which may explain its function during tethering, and indicate that these tethering complexes are less mobile within the cell than previously anticipated.

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