Biallelic Loss of Molecular Chaperone Molecule AIP Results in a Novel Severe Multisystem Disease Defined by Defective Proteostasis

bioRxiv - Molecular Biology Pub Date : 2024-08-08 DOI:10.1101/2024.08.08.604602

Marta Korbonits, Xian Wang, Sayka Barry, Chung Lim, Oniz Suleyman, Stefano De-Tito, Nazia Begum, Maria Lillina Vignola, Charlotte Hall, Laura Perna, Paul Chapple, Sian Henson, Valle Morales, Katiuscia Bianchi, Vidar Orn Edvardsson, Kristjan Ari Ragnarsson, Viktoria Eir Kristinsdottir, Anne Debeer, Yoeri Sleyp, Rena Zinchenko, Glenn Anderson, Michael Duchen, Kritarth Singh, Chih-Yao Chung, Yu Yuan, Sandip Patel, Ezra Aksoy, Artem O Borovikov, Hans Tomas Bjornsson, Hilde Van Esch, Gabor Czibik, Sharon Tooze, Caroline Helen Brennan, Oliver Haworth

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Abstract

Children born with deleterious biallelic variants of the chaperone aryl hydrocarbon receptor interacting protein (AIP) have a novel pediatric metabolic disease presenting a severe, complex clinical phenotype characterized by failure to develop following birth. Analysis of Aip knockout mouse embryonic fibroblasts and patient-derived dermal fibroblasts revealed that AIP was required to support proteostasis; including proteasome activity, induction of autophagy and lysosome function. aip knockout zebrafish, recapitulated the phenotype of the children; dying at an early stage of development when autophagy is required to adapt to periods of starvation. Our results demonstrate that AIP plays a crucial role in initiating autophagy and maintaining proteostasis in vitro and in vivo.

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分子伴侣分子 AIP 的双叶缺失导致一种由蛋白稳态缺陷定义的新型严重多系统疾病

先天性伴细胞芳基烃受体互作蛋白（AIP）双倍拷贝变体的儿童患有一种新型儿科代谢病，表现出严重、复杂的临床表型，其特点是出生后无法发育。对 Aip 基因敲除小鼠胚胎成纤维细胞和患者真皮成纤维细胞的分析表明，AIP 需要支持蛋白稳态，包括蛋白酶体活性、自噬诱导和溶酶体功能。我们的研究结果表明，AIP 在体外和体内启动自噬和维持蛋白稳态方面起着至关重要的作用。

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bioRxiv - Molecular Biology

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