含 Rab11a 循环系统内磷脂酰丝氨酸定位的不同模式。

Cellular logistics Pub Date : 2014-04-03 eCollection Date: 2014-01-01 DOI:10.4161/cl.28680
Nicholas W Baetz, James R Goldenring
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引用次数: 0

摘要

Rab11 GTPases 和 Rab11 家族互作蛋白(Rab11-FIPs)定义了慢循环途径中完整而又不同的区室。尽管过去的研究表明磷脂酰丝氨酸(PS)是再循环膜不可或缺的组成部分,但人们对这些区室的脂质含量了解较少。我们试图找出在含有 Rab 和 Rab11-FIP 的膜中 PS 存在的关键差异。我们使用活细胞荧光显微镜和结构照明显微镜来确定之前发表的 LactC2 PS 探针是否与各种 Rab GTPases 和 Rab11-FIPs 显示出不同的重叠模式。在 HeLa 细胞中共同表达时,观察到 LactC2 探针与 Rab GTP 酶之间存在选择性重叠。Rab11-FIP1 蛋白与 LactC2 始终沿外周和皮层周围重叠。通过证明其他 Rab11-FIP(FIP2、FIP3 和 FIP5)表现出与含有 LactC2 的区室的选择性结合,进一步证实了 Rab11-FIP1 与 LactC2 结合的特异性。Rab11-FIPs 与 LactC2 的活细胞双重表达研究表明,PS 富集在依赖 Rab11a 的循环系统的管状区室中。此外,我们还发现,从 Rab11-FIPs 中移除 C2 结构域会诱导 LactC2 探针在细胞周区聚集,这表明抑制通过循环系统的运输会影响 PS 在细胞内的分布。最后,我们使用结构照明显微镜证实了这些发现,表明重叠的荧光信号位于相同的膜上。这些结果表明,Rab GTP酶和Rab11-FIPs与含PS的循环系统膜域有不同的关联。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Distinct patterns of phosphatidylserine localization within the Rab11a-containing recycling system.

Distinct patterns of phosphatidylserine localization within the Rab11a-containing recycling system.

Distinct patterns of phosphatidylserine localization within the Rab11a-containing recycling system.

Distinct patterns of phosphatidylserine localization within the Rab11a-containing recycling system.

The Rab11 GTPases and Rab11 family-interacting proteins (Rab11-FIPs) define integrated yet distinct compartments within the slow recycling pathway. The lipid content of these compartments is less well understood, although past studies have indicated phosphatidylserine (PS) is an integral component of recycling membranes. We sought to identify key differences in the presence of PS within Rab and Rab11-FIP containing membranes. We used live cell fluorescence microscopy and structured illumination microscopy to determine whether the previously published LactC2 probe for PS displays differential patterns of overlap with various Rab GTPases and Rab11-FIPs. Selective overlap was observed between the LactC2 probe and Rab GTPases when co-expressed in HeLa cells. Rab11-FIP1 proteins consistently overlapped with LactC2 along peripheral and pericentriolar compartments. The specificity of Rab11-FIP1 association with LactC2 was further confirmed by demonstrating that additional Rab11-FIPs (FIP2, FIP3, and FIP5) exhibited selective association with LactC2 containing compartments. Live cell dual expression studies of Rab11-FIPs with LactC2 indicated that PS is enriched along tubular compartments of the Rab11a-dependent recycling system. Additionally, we found that the removal of C2 domains from the Rab11-FIPs induced an accumulation of LactC2 probe in the pericentriolar region, suggesting that inhibition of trafficking through the recycling system can influence the distribution of PS within cells. Finally, we confirmed these findings using structured illumination microscopy suggesting that the overlapping fluorescent signals were on the same membranes. These results suggest distinct associations of Rab GTPases and Rab11-FIPs with PS-containing recycling system membrane domains.

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