Dominantly acting variants in ATP6V1C1 and ATP6V1B2 cause a multisystem phenotypic spectrum by altering lysosomal and/or autophagosome function.

IF 3.3 Q2 GENETICS & HEREDITY HGG Advances Pub Date : 2024-10-10 Epub Date: 2024-08-29 DOI:10.1016/j.xhgg.2024.100349
Giovanna Carpentieri, Serena Cecchetti, Gianfranco Bocchinfuso, Francesca Clementina Radio, Chiara Leoni, Roberta Onesimo, Paolo Calligari, Agostina Pietrantoni, Andrea Ciolfi, Marco Ferilli, Cristina Calderan, Gerarda Cappuccio, Simone Martinelli, Elena Messina, Viviana Caputo, Ulrike Hüffmeier, Cyril Mignot, Stéphane Auvin, Yline Capri, Charles Marques Lourenco, Bianca E Russell, Ahna Neustad, Nicola Brunetti Pierri, Boris Keren, André Reis, Julie S Cohen, Alexis Heidlebaugh, Clay Smith, Christian T Thiel, Leonardo Salviati, Giuseppe Zampino, Philippe M Campeau, Lorenzo Stella, Marco Tartaglia, Elisabetta Flex
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Abstract

The vacuolar H+-ATPase (V-ATPase) is a functionally conserved multimeric complex localized at the membranes of many organelles where its proton-pumping action is required for proper lumen acidification. The V-ATPase complex is composed of several subunits, some of which have been linked to human disease. We and others previously reported pathogenic dominantly acting variants in ATP6V1B2, the gene encoding the V1B2 subunit, as underlying a clinically variable phenotypic spectrum including dominant deafness-onychodystrophy (DDOD) syndrome, Zimmermann-Laband syndrome (ZLS), and deafness, onychodystrophy, osteodystrophy, intellectual disability, and seizures (DOORS) syndrome. Here, we report on an individual with features fitting DOORS syndrome caused by dysregulated ATP6V1C1 function, expand the clinical features associated with ATP6V1B2 pathogenic variants, and provide evidence that these ATP6V1C1/ATP6V1B2 amino acid substitutions result in a gain-of-function mechanism upregulating V-ATPase function that drives increased lysosomal acidification. We demonstrate a disruptive effect of these ATP6V1B2/ATP6V1C1 variants on lysosomal morphology, localization, and function, resulting in a defective autophagic flux and accumulation of lysosomal substrates. We also show that the upregulated V-ATPase function affects cilium biogenesis, further documenting pleiotropy. This work identifies ATP6V1C1 as a new gene associated with a neurodevelopmental phenotype resembling DOORS syndrome, documents the occurrence of a phenotypic continuum between ZLS, and DDOD and DOORS syndromes, and classify these conditions as lysosomal disorders.

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液泡 ATPase 亚基的显性变异会损害溶酶体/自噬溶酶体的功能,导致一种具有神经认知障碍和多种先天性畸形的多系统疾病。
液泡 H+-ATPase(V-ATPase)是一种功能上保守的多聚复合物,定位于许多细胞器的膜上,其质子泵作用是适当的腔体酸化所必需的。V-ATPase 复合物由多个亚基组成,其中一些亚基与人类疾病有关。我们和其他人以前曾报道过编码 V1B2 亚基的 ATP6V1B2 基因中的致病显性变异是临床上可变表型谱的基础,包括显性耳聋-趾骨营养不良(DDOD)综合征、齐默尔曼-拉班综合征和耳聋、趾骨营养不良、骨营养不良、智障和癫痫发作(DOORS)综合征。在这里,我们报告了一个因 ATP6V1C1 功能失调而导致的具有 DOORS 综合征特征的个体,扩展了与 ATP6V1B2 致病变异相关的临床特征,并提供证据证明这些 ATP6V1C1/ATP6V1B2 氨基酸置换导致了一种功能增益机制,上调了 V-ATP 酶的功能,从而推动溶酶体酸化的增加。我们证明了这些 ATP6V1B2/ATP6V1C1 变体对溶酶体形态、定位和功能的破坏性影响,导致自噬通量的缺陷和溶酶体底物的积累。我们还发现,上调的 V-ATPase 功能会影响纤毛的生物发生,进一步证实了多效应性。这项研究发现 ATP6V1C1 是一个与类似 DOORS 综合征的神经发育表型相关的新基因,记录了 ZLS、DDOD 和 DOORS 综合征之间的表型连续性,并将这些病症归类为溶酶体疾病。
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来源期刊
HGG Advances
HGG Advances Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
4.30
自引率
4.50%
发文量
69
审稿时长
14 weeks
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