TRAPPC10 的双等位基因突变导致人类和小鼠的小头 TRAPP 病。

Biallelic variants in TRAPPC10 cause a microcephalic TRAPPopathy disorder in humans and mice.

机构信息

RILD Wellcome Wolfson Medical Research Centre, RD&E (Wonford) NHS Foundation Trust, University of Exeter Medical School, Exeter, United Kingdom.

Peninsula Clinical Genetics Service, Royal Devon & Exeter Hospital (Heavitree), Exeter, United Kingdom.

出版信息

PLoS Genet. 2022 Mar 17;18(3):e1010114. doi: 10.1371/journal.pgen.1010114. eCollection 2022 Mar.

DOI:10.1371/journal.pgen.1010114

PMID:35298461

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8963566/

Abstract

The highly evolutionarily conserved transport protein particle (TRAPP) complexes (TRAPP II and III) perform fundamental roles in subcellular trafficking pathways. Here we identified biallelic variants in TRAPPC10, a component of the TRAPP II complex, in individuals with a severe microcephalic neurodevelopmental disorder. Molecular studies revealed a weakened interaction between mutant TRAPPC10 and its putative adaptor protein TRAPPC2L. Studies of patient lymphoblastoid cells revealed an absence of TRAPPC10 alongside a concomitant absence of TRAPPC9, another key TRAPP II complex component associated with a clinically overlapping neurodevelopmental disorder. The TRAPPC9/10 reduction phenotype was recapitulated in TRAPPC10-/- knockout cells, which also displayed a membrane trafficking defect. Notably, both the reduction in TRAPPC9 levels and the trafficking defect in these cells could be rescued by wild type but not mutant TRAPPC10 gene constructs. Moreover, studies of Trappc10-/- knockout mice revealed neuroanatomical brain defects and microcephaly, paralleling findings seen in the human condition as well as in a Trappc9-/- mouse model. Together these studies confirm autosomal recessive TRAPPC10 variants as a cause of human disease and define TRAPP-mediated pathomolecular outcomes of importance to TRAPPC9 and TRAPPC10 mediated neurodevelopmental disorders in humans and mice.

摘要

高度进化保守的转运蛋白颗粒（TRAPP）复合物（TRAPP II 和 III）在细胞内物质运输途径中发挥着基本作用。在这里，我们在具有严重的小头神经发育障碍的个体中鉴定出 TRAPPC10 的双等位基因变异，TRAPPC10 是 TRAPP II 复合物的一个组成部分。分子研究显示突变型 TRAPPC10 与其假定的衔接蛋白 TRAPPC2L 之间的相互作用减弱。对患者淋巴母细胞的研究显示，TRAPPC10 缺失的同时，另一个与临床重叠的神经发育障碍相关的关键 TRAPP II 复合物组成部分 TRAPPC9 也缺失。TRAPPC10-/- 基因敲除细胞中也出现了 TRAPPC9/10 减少表型，同时还显示出膜运输缺陷。值得注意的是，TRAPPC9 水平降低和这些细胞中的运输缺陷都可以通过野生型而非突变型 TRAPPC10 基因构建来挽救。此外，对 Trappc10-/- 基因敲除小鼠的研究揭示了神经解剖学上的大脑缺陷和小头症，与人类疾病以及 Trappc9-/- 小鼠模型中观察到的结果相平行。这些研究共同证实了常染色体隐性遗传的 TRAPPC10 变体是人类疾病的原因，并定义了 TRAPP 介导的病理分子结果，这些结果对人类和小鼠的 TRAPPC9 和 TRAPPC10 介导的神经发育障碍具有重要意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/be2c/8963566/a48ab30b65a0/pgen.1010114.g001.jpg

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TRAPPC10 的双等位基因突变导致人类和小鼠的小头 TRAPP 病。

Biallelic variants in TRAPPC10 cause a microcephalic TRAPPopathy disorder in humans and mice.

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