Class C ABC transporters and Saccharomyces cerevisiae vacuole fusion.

Cellular logistics Pub Date : 2014-07-03 eCollection Date: 2014-07-01 DOI:10.4161/21592780.2014.943588
Terry L Sasser, Rutilio A Fratti
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引用次数: 8

Abstract

Membrane fusion is carried out by core machinery that is conserved throughout eukaryotes. This is comprised of Rab GTPases and their effectors, and SNARE proteins, which together are sufficient to drive the fusion of reconstituted proteoliposomes. However, an outer layer of factors that are specific to individual trafficking pathways in vivo regulates the spatial and temporal occurrence of fusion. The homotypic fusion of Saccharomyces cerevisiae vacuolar lysosomes utilizes a growing set of factors to regulate the fusion machinery that include members of the ATP binding cassette (ABC) transporter family. Yeast vacuoles have five class C ABC transporters that are known to transport a variety of toxins into the vacuole lumen as part of detoxifying the cell. We have found that ABCC transporters can also regulate vacuole fusion through novel mechanisms. For instance Ybt1 serves as negative regulator of fusion through its effects on vacuolar Ca2+ homeostasis. Additional studies showed that Ycf1 acts as a positive regulator by affecting the efficient recruitment of the SNARE Vam7. Finally, we discuss the potential interface between the translocation of lipids across the membrane bilayer, also known as lipid flipping, and the efficiency of fusion.

Abstract Image

C类ABC转运蛋白与酿酒酵母液泡融合。
膜融合是由整个真核生物保守的核心机制进行的。它由Rab gtp酶及其效应物和SNARE蛋白组成,它们一起足以驱动重组蛋白脂质体的融合。然而,体内个体贩运途径特有的外部因素层调节融合的空间和时间发生。酿酒酵母液泡溶酶体的同型融合利用越来越多的因子来调节融合机制,其中包括ATP结合盒(ABC)转运体家族的成员。酵母液泡有五种C类ABC转运蛋白,它们可以将多种毒素转运到液泡腔中,作为细胞解毒的一部分。我们发现ABCC转运蛋白也可以通过新的机制调节液泡融合。例如,Ybt1通过其对液泡Ca2+稳态的影响作为融合的负调节因子。其他研究表明,Ycf1通过影响SNARE Vam7的有效募集而发挥积极调节作用。最后,我们讨论了跨膜双分子层的脂质易位(也称为脂质翻转)与融合效率之间的潜在界面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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