一种模拟视网膜中c.2451insC突变效应的Cacna2d4新剪接异构体：新的分子和电生理见解。

A New Splicing Isoform of Cacna2d4 Mimicking the Effects of c.2451insC Mutation in the Retina: Novel Molecular and Electrophysiological Insights.

作者信息

Bacchi Niccolò, Messina Andrea, Burtscher Verena, Dassi Erik, Provenzano Giovanni, Bozzi Yuri, Demontis Gian Carlo, Koschak Alexandra, Denti Michela A, Casarosa Simona

机构信息

Centre for Integrative Biology (CIBIO), University of Trento, Trento, Italy.

Medical University of Vienna, Center for Physiology and Pharmacology, Department of Neurophysiology and Pharmacology, Vienna, Austria.

出版信息

Invest Ophthalmol Vis Sci. 2015 Jul;56(8):4846-56. doi: 10.1167/iovs.15-16410.

DOI:10.1167/iovs.15-16410

PMID:26218913

Abstract

PURPOSE

Mutations in CACNA2D4 exon 25 cause photoreceptor dysfunction in humans (c.2406C→A mutation) and mice (c.2451insC mutation). We investigated the feasibility of an exon-skipping therapeutic approach by evaluating the splicing patterns and functional role of targeted exons.

METHODS

Splicing of the targeted α2δ4 (CACNA2D4) exons in presence and absence of the mutation was assessed by RT-PCR in vivo on mouse retinae and in vitro in HEK293T cells using splicing-reporter minigenes. Whole-cell patch-clamp recordings were performed to evaluate the impact of different Cacna2d4 variants on the biophysical properties of Cav1.4 L-type calcium channels (CACNA1F).

RESULTS

Splicing analysis revealed the presence of a previously unknown splicing isoform of α2δ4 in the retina that truncates the gene open reading frame (ORF) in a similar way as the c.2451insC mutation. This isoform originates from alternative splicing of exon 25 (E25) with a new exon (E25b). Moreover, the c.2451insC mutation has an effect on splicing and increases the proportion of transcripts including E25b. Our electrophysiological analyses showed that only full-length α2δ4 was able to increase Cav1.4/β3-mediated currents while all other α2δ4 variants did not mediate such effect.

CONCLUSIONS

The designed exon-skipping strategy is not applicable because the resulting skipped α2δ4 are nonfunctional. α2δ4 E25b splicing variant is normally present in mouse retina and mimics the effect of c.2451insC mutation. Since this variant does not promote significant Cav1.4-mediated calcium current, it could possibly mediate a different function, unrelated to modulation of calcium channel properties at the photoreceptor terminals.

摘要

目的

CACNA2D4基因第25外显子的突变会导致人类（c.2406C→A突变）和小鼠（c.2451insC突变）的光感受器功能障碍。我们通过评估靶向外显子的剪接模式和功能作用，研究了外显子跳跃治疗方法的可行性。

方法

在存在和不存在突变的情况下，使用剪接报告基因微型基因，通过体内对小鼠视网膜进行逆转录聚合酶链反应（RT-PCR）以及体外在人胚肾293T细胞（HEK293T）中评估靶向α2δ4（CACNA2D4）外显子的剪接情况。进行全细胞膜片钳记录以评估不同Cacna2d4变体对Cav1.4 L型钙通道（CACNA1F）生物物理特性的影响。

结果

剪接分析揭示了视网膜中存在一种先前未知的α2δ4剪接异构体，其截断基因开放阅读框（ORF）的方式与c.2451insC突变类似。这种异构体源自第25外显子（E25）与一个新外显子（E25b）的可变剪接。此外，c.2451insC突变对剪接有影响，并增加了包含E25b的转录本比例。我们的电生理分析表明，只有全长α2δ4能够增加Cav1.4/β3介导的电流，而所有其他α2δ4变体均未介导这种效应。

结论

所设计的外显子跳跃策略不适用，因为产生的跳跃α2δ4无功能。α2δ4 E25b剪接变体正常存在于小鼠视网膜中，并模拟了c.2451insC突变的效应。由于该变体不会促进显著的Cav1.4介导的钙电流，它可能介导了一种与光感受器终端钙通道特性调节无关的不同功能。

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一种模拟视网膜中c.2451insC突变效应的Cacna2d4新剪接异构体：新的分子和电生理见解。

A New Splicing Isoform of Cacna2d4 Mimicking the Effects of c.2451insC Mutation in the Retina: Novel Molecular and Electrophysiological Insights.

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METHODS

RESULTS

CONCLUSIONS

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结果

结论

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