神经发育疾病的机制、初级纤毛和内体都集中在 BLOC-1 和 BORC 复合物上。

Neurodevelopmental disease mechanisms, primary cilia, and endosomes converge on the BLOC-1 and BORC complexes.

机构信息

Department of Cell Biology, Emory University, Atlanta, Georgia, 30322.

Program in Molecular Medicine, University of Massachusetts Medical School, Biotech II, Worcester, Massachusetts, 01605.

出版信息

Dev Neurobiol. 2018 Mar;78(3):311-330. doi: 10.1002/dneu.22542. Epub 2017 Oct 13.

DOI:10.1002/dneu.22542

PMID:28986965

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5816705/

Abstract

The biogenesis of lysosome-related organelles complex-1 (BLOC-1) and the bloc-one-related complex (BORC) are the cytosolic protein complexes required for specialized membrane protein traffic along the endocytic route and the spatial distribution of endosome-derived compartments, respectively. BLOC-1 and BORC complex subunits and components of their interactomes have been associated with the risk and/or pathomechanisms of neurodevelopmental disorders. Thus, cellular processes requiring BLOC-1 and BORC interactomes have the potential to offer novel insight into mechanisms underlying behavioral defects. We focus on interactions between BLOC-1 or BORC subunits with the actin and microtubule cytoskeleton, membrane tethers, and SNAREs. These interactions highlight requirements for BLOC-1 and BORC in membrane movement by motors, control of actin polymerization, and targeting of membrane proteins to specialized cellular domains such as the nerve terminal and the primary cilium. We propose that the endosome-primary cilia pathway is an underappreciated hub in the genesis and mechanisms of neurodevelopmental disorders. © 2017 Wiley Periodicals, Inc. Develop Neurobiol 78: 311-330, 2018.

摘要

溶酶体相关细胞器复合物 1（BLOC-1）和 BLOC-1 相关复合物（BORC）的生物发生是沿内体途径专门进行膜蛋白运输和内体衍生隔室的空间分布所必需的细胞质蛋白复合物。BLOC-1 和 BORC 复合物亚基及其相互作用组的成分与神经发育障碍的风险和/或发病机制有关。因此，需要 BLOC-1 和 BORC 相互作用组的细胞过程有可能为行为缺陷的潜在机制提供新的见解。我们专注于 BLOC-1 或 BORC 亚基与肌动蛋白和微管细胞骨架、膜系绳和 SNAREs 之间的相互作用。这些相互作用突出了 BLOC-1 和 BORC 在马达驱动的膜运动、肌动蛋白聚合的控制以及将膜蛋白靶向专门的细胞区域（如神经末梢和初级纤毛）中的作用。我们提出内体-初级纤毛途径是神经发育障碍的发生和机制中的一个未被充分认识的中心。©2017Wiley Periodicals，Inc.发育神经生物学 78：311-330，2018 年。

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