TAT-1是一种磷脂酰丝氨酸翻转酶,影响蜕皮并调控秀丽隐杆线虫表皮的膜运输

Shae M Milne, Philip T T Edeen, David S Fay
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摘要

膜运输是蛋白质和其他大分子在细胞内移动和分布所需的一个保守过程。秀丽隐杆线虫 NIMA 相关激酶 NEKL-2(人类 NEK8/9)和 NEKL-3(人类 NEK6/7)是膜运输的保守调节因子,是完成蜕皮所必需的。我们使用遗传方法鉴定了抑制与 nekl 相关的蜕皮缺陷的 tat-1 功能减弱突变。tat-1 编码哺乳动物 ATP8A1/2 的线虫直向同源物,它是一种磷脂酰丝氨酸(PS)翻转酶,可促进 PS 向脂膜双层的胞浆小叶的不对称分布。TAT-1的正确定位需要一种保守的伴侣蛋白CHAT-1(人CDC50),抑制CHAT-1可有效抑制nekl缺陷。通过使用 PS 传感器,我们发现 TAT-1 是 PS 在顶端内体正常定位所必需的,而 TAT-1 的缺失会导致内体形态异常。与此相一致的是,TAT-1定位于早期内体和以RME-1标记的循环内体,RME-1是人EPS15同源(EH)结构域含蛋白EHD1的线虫直向同源物。RME-1正常定位到顶端内体需要TAT-1、PS生物合成和PS结合蛋白RFIP-2(人RAB11-FIP2)。抑制 RFIP-2 或 RME-1 能部分抑制 nekl 的蜕皮缺陷,这与抑制 PS 的生物合成是一致的。利用辅助素诱导的脱粒子系统,我们发现缺失NEKL-2或NEKL-3会导致RME-1定位缺陷,而在缺失NEKL-3的细胞中,减少TAT-1的功能可部分恢复RME-1的定位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
TAT-1, a phosphatidylserine flippase, affects molting and regulates membrane trafficking in the epidermis of C. elegans
Membrane trafficking is a conserved process required for the movement and distribution of proteins and other macromolecules within cells. The Caenorhabditis elegans NIMA-related kinases NEKL-2 (human NEK8/9) and NEKL-3 (human NEK6/7) are conserved regulators of membrane trafficking and are required for the completion of molting. We used a genetic approach to identify reduction-of-function mutations in tat-1 that suppress nekl-associated molting defects. tat-1 encodes the C. elegans ortholog of mammalian ATP8A1/2, a phosphatidylserine (PS) flippase that promotes the asymmetric distribution of PS to the cytosolic leaflet of lipid membrane bilayers. CHAT-1 (human CDC50), a conserved chaperone, was required for the correct localization of TAT-1, and chat-1 inhibition strongly suppressed nekl defects. Using a PS sensor, we found that TAT-1 was required for the normal localization of PS at apical endosomes and that loss of TAT-1 led to aberrant endosomal morphologies. Consistent with this, TAT-1 localized to early endosomes and to recycling endosomes marked with RME-1, the C. elegans ortholog of the human EPS15 homology (EH) domain-containing protein, EHD1. TAT-1, PS biosynthesis, and the PS-binding protein RFIP-2 (human RAB11-FIP2) were all required for the normal localization of RME-1 to apical endosomes. Consistent with these proteins functioning together, inhibition of RFIP-2 or RME-1 led to the partial suppression of nekl molting defects, as did the inhibition of PS biosynthesis. Using the auxin-inducible degron system, we found that depletion of NEKL-2 or NEKL-3 led to defects in RME-1 localization and that a reduction in TAT-1 function partially restored RME-1 localization in NEKL-3-depleted cells.
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