影响Cav3.1通道细胞内门控的新的从头CACNA1G变体的特征拓宽了SCA42ND中神经发育表型的范围。

The characterization of new de novo CACNA1G variants affecting the intracellular gate of Cav3.1 channel broadens the spectrum of neurodevelopmental phenotypes in SCA42ND.

作者信息

Qebibo Leila, Davakan Amaël, Nesson-Dauphin Mathilde, Boulali Najlae, Siquier-Pernet Karine, Afenjar Alexandra, Amiel Jeanne, Bartholdi Deborah, Barth Magalie, Blondiaux Eléonore, Cristian Ingrid, Frazier Zoe, Goldenberg Alice, Good Jean-Marc, Salussolia Catherine Lourdes, Sahin Mustafa, McCullagh Helen, McDonald Kimberly, McRae Anne, Morrison Jennifer, Pinner Jason, Shinawi Marwan, Toutain Annick, Vyhnálková Emílie, Wheeler Patricia G, Wilnai Yael, Hausman-Kedem Moran, Coolen Marion, Cantagrel Vincent, Burglen Lydie, Lory Philippe

机构信息

Pediatric Neurogenetics Laboratory, Department of Genetics, Armand-Trousseau Hospital, AP-HP. Sorbonne Université, Paris, France; Reference Center for Cerebellar Malformations and Congenital Diseases, Armand-Trousseau Hospital, APHP. Sorbonne Université, Paris, France; Université Paris Cité, INSERM UMR1163, Imagine Institute, Developmental Brain Disorders Laboratory, Paris, France.

IGF, Université de Montpellier, CNRS, INSERM, Montpellier, France; LabEx "Ion Channel Science and Therapeutics," Montpellier, France.

出版信息

Genet Med. 2025 Mar;27(3):101337. doi: 10.1016/j.gim.2024.101337. Epub 2024 Dec 20.

DOI:10.1016/j.gim.2024.101337

PMID:39674904

Abstract

PURPOSE

Missense de novo variants in CACNA1G, which encodes the Cav3.1 T-type calcium channel, have been associated with a severe, early-onset form of cerebellar disorder with neurodevelopmental deficits (SCA42ND). We explored a large series of pediatric cases carrying heterozygous variants in CACNA1G to further characterize genotype-phenotype correlations in SCA42ND.

METHODS

We describe 19 patients with congenital CACNA1G-variants, including 6 new heterozygotes of the recurrent SCA42ND variants, p.(Ala961Thr) and p.(Met1531Val), and 8 unreported variants, including 7 missense variants, mainly de novo. We carried out genetic and structural analyses of all variants. Patch-clamp recordings were performed to measure their channel activity.

RESULTS

We provide a consolidated clinical description for the patients carrying p.(Ala961Thr) and p.(Met1531Val). The new variants associated with the more severe phenotypes are found in the Cav3.1 channel intracellular gate. Calcium currents of these Cav3.1 variants showed slow inactivation and deactivation kinetics and an increase in window current, supporting a gain of channel activity. On the contrary, the p.(Met197Arg) variant (IS4-S5 loop) resulted in a loss of channel activity.

CONCLUSION

This detailed description of several de novo missense pathogenic variants in CACNA1G, including 13 previously reported cases, supports a clinical spectrum of congenital CACNA1G syndrome beyond spinocerebellar ataxia.

摘要

目的

编码Cav3.1 T型钙通道的CACNA1G基因中的错义新生变异与一种伴有神经发育缺陷的严重早发性小脑疾病（SCA42ND）相关。我们研究了一系列携带CACNA1G杂合变异的儿科病例，以进一步明确SCA42ND中的基因型-表型相关性。

方法

我们描述了19例先天性CACNA1G变异患者，包括6例复发性SCA42ND变异p.(Ala961Thr)和p.(Met1531Val)的新杂合子，以及8例未报告的变异，包括7个错义变异，主要为新生变异。我们对所有变异进行了基因和结构分析。采用膜片钳记录来测量其通道活性。

结果

我们对携带p.(Ala961Thr)和p.(Met1531Val)的患者进行了综合临床描述。与更严重表型相关的新变异存在于Cav3.1通道的细胞内门控区域。这些Cav3.1变异体的钙电流表现出缓慢的失活和去激活动力学，以及窗电流增加，支持通道活性增强。相反，p.(Met197Arg)变异（IS4-S5环）导致通道活性丧失。