A neurodevelopmental disorder caused by a dysfunctional CACNA1A allele

Q3 Neuroscience eNeurologicalSci Pub Date : 2023-06-01 DOI:10.1016/j.ensci.2023.100456

Audra A. Kramer , Daniel F. Bennett , Kristin W. Barañano , Roger A. Bannister

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Abstract

P/Q-type Ca²⁺ flux into nerve terminals via Ca_V2.1 channels is essential for neurotransmitter release at neuromuscular junctions and nearly all central synapses. Mutations in CACNA1A, the gene encoding Ca_V2.1, cause a spectrum of pediatric neurological disorders. We have identified a patient harboring an autosomal-dominant de novo frameshift-causing nucleotide duplication in CACNA1A (c.5018dupG). The duplicated guanine precipitated 43 residues of altered amino acid sequence beginning with a glutamine to serine substitution in Ca_V2.1 at position 1674 ending with a premature stop codon (Ca_V2.1 p.Gln1674Serfs*43). The patient presented with episodic downbeat vertical nystagmus, hypotonia, ataxia, developmental delay and febrile seizures. In patch-clamp experiments, no Ba²⁺ current was observed in tsA-201 cells expressing Ca_V2.1 p.Gln1674Serfs*43 with β₄ and α₂δ-1 auxiliary subunits. The ablation of divalent flux in response to depolarization was likely attributable to the inability of Ca_V2.1 p.Gln1674Serfs*43 to form a complete channel pore. Our results suggest that the pathology resulting from this frameshift-inducing nucleotide duplication is a consequence of an effective haploinsufficiency.

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一种由功能失调的CACNA1A等位基因引起的神经发育障碍

P/Q型Ca2+通过CaV2.1通道进入神经末梢对神经肌肉接头和几乎所有中枢突触的神经递质释放至关重要。编码CaV2.1的CACNA1A基因的突变导致一系列儿童神经系统疾病。我们发现一名患者携带常染色体显性从头移码，导致CACNA1A中的核苷酸重复（c.5018dupG）。重复的鸟嘌呤沉淀了43个氨基酸序列改变的残基，从CaV2.1中1674位的谷氨酰胺到丝氨酸取代开始，以过早终止密码子结束（CaV2.1 p.Gln1674Serfs*43）垂直性眼球震颤、肌张力减退、共济失调、发育迟缓和高热惊厥。在膜片钳实验中，在表达具有β4和α2δ-1辅助亚基的CaV2.1 p.Gln1674Serfs*43的tsA-201细胞中未观察到Ba2+电流。响应去极化的二价通量的消融可能归因于CaV2.1 p.Gln1674Serfs*43不能形成完整的通道孔。我们的结果表明，这种由移码诱导的核苷酸重复引起的病理学是有效单倍充足的结果。

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来源期刊

eNeurologicalSci Neuroscience-Neurology

CiteScore

3.50

自引率

0.00%

发文量

审稿时长

62 days

期刊介绍： eNeurologicalSci provides a medium for the prompt publication of original articles in neurology and neuroscience from around the world. eNS places special emphasis on articles that: 1) provide guidance to clinicians around the world (Best Practices, Global Neurology); 2) report cutting-edge science related to neurology (Basic and Translational Sciences); 3) educate readers about relevant and practical clinical outcomes in neurology (Outcomes Research); and 4) summarize or editorialize the current state of the literature (Reviews, Commentaries, and Editorials). eNS accepts most types of manuscripts for consideration including original research papers, short communications, reviews, book reviews, letters to the Editor, opinions and editorials. Topics considered will be from neurology-related fields that are of interest to practicing physicians around the world. Examples include neuromuscular diseases, demyelination, atrophies, dementia, neoplasms, infections, epilepsies, disturbances of consciousness, stroke and cerebral circulation, growth and development, plasticity and intermediary metabolism. The fields covered may include neuroanatomy, neurochemistry, neuroendocrinology, neuroepidemiology, neurogenetics, neuroimmunology, neuroophthalmology, neuropathology, neuropharmacology, neurophysiology, neuropsychology, neuroradiology, neurosurgery, neurooncology, neurotoxicology, restorative neurology, and tropical neurology.