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基底外侧分拣信号调节上皮细胞中异源单羧酸转运体的组织特异性极性。

Basolateral sorting signals regulating tissue-specific polarity of heteromeric monocarboxylate transporters in epithelia.

机构信息

Department of Pathology, Anatomy and Cell Biology, Thomas Jefferson University, Philadelphia, PA 19107, USA.

出版信息

Traffic. 2011 Apr;12(4):483-98. doi: 10.1111/j.1600-0854.2010.01155.x. Epub 2011 Feb 1.

DOI:10.1111/j.1600-0854.2010.01155.x
PMID:21199217
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3132080/
Abstract

Many solute transporters are heterodimers composed of non-glycosylated catalytic and glycosylated accessory subunits. These transporters are specifically polarized to the apical or basolateral membranes of epithelia, but this polarity may vary to fulfill tissue-specific functions. To date, the mechanisms regulating the tissue-specific polarity of heteromeric transporters remain largely unknown. Here, we investigated the sorting signals that determine the polarity of three members of the proton-coupled monocarboxylate transporter (MCT) family, MCT1, MCT3 and MCT4, and their accessory subunit CD147. We show that MCT3 and MCT4 harbor strong redundant basolateral sorting signals (BLSS) in their C-terminal cytoplasmic tails that can direct fusion proteins with the apical marker p75 to the basolateral membrane. In contrast, MCT1 lacks a BLSS and its polarity is dictated by CD147, which contains a weak BLSS that can direct Tac, but not p75 to the basolateral membrane. Knockdown experiments in MDCK cells indicated that basolateral sorting of MCTs was clathrin-dependent but clathrin adaptor AP1B-independent. Our results explain the consistently basolateral localization of MCT3 and MCT4 and the variable localization of MCT1 in different epithelia. They introduce a new paradigm for the sorting of heterodimeric transporters in which a hierarchy of apical and BLSS in the catalytic and/or accessory subunits regulates their tissue-specific polarity.

摘要

许多溶质转运体是由非糖基化催化亚基和糖基化辅助亚基组成的异二聚体。这些转运体特异性地极化到上皮的顶侧或基底外侧膜,但这种极性可能会发生变化以满足组织特异性功能。迄今为止,调节异源二聚体转运体组织特异性极性的机制在很大程度上仍不清楚。在这里,我们研究了决定质子偶联单羧酸转运体 (MCT) 家族的三个成员 MCT1、MCT3 和 MCT4 及其辅助亚基 CD147 极性的分选信号。我们表明,MCT3 和 MCT4 在其 C 端胞质尾部具有很强的冗余基底外侧分选信号 (BLSS),这些信号可以将带有顶侧标记物 p75 的融合蛋白引导到基底外侧膜。相比之下,MCT1 缺乏 BLSS,其极性由 CD147 决定,CD147 含有一个弱的 BLSS,可以将 Tac 而不是 p75 引导到基底外侧膜。在 MDCK 细胞中的敲低实验表明,MCT 的基底外侧分选是网格蛋白依赖性的,但与网格蛋白衔接蛋白 AP1B 无关。我们的结果解释了 MCT3 和 MCT4 一致的基底外侧定位以及不同上皮细胞中 MCT1 的可变定位。它们为异源二聚体转运体的分选引入了一个新的范例,其中催化亚基和/或辅助亚基中的顶端和 BLSS 层次结构调节它们的组织特异性极性。

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