与CNGA3相关的全色盲患者变体的结构-功能分析在致病性判定中补充了临床基因组学。

Structure-function analysis of CNGA3-associated achromatopsia patient variants complements clinical genomics in pathogenicity determination.

作者信息

Rasmussen Ditte K, Sun Young Joo, Franco Joel A, Kumar Aarushi, Vu Jennifer T, Bassuk Alexander G, Mahajan Vinit B

机构信息

Molecular Surgery Laboratory, Stanford University, Palo Alto, CA, USA.

Department of Ophthalmology, Byers Eye Institute, Stanford University, Palo Alto, CA, 94304, USA.

出版信息

Orphanet J Rare Dis. 2025 May 30;20(1):261. doi: 10.1186/s13023-025-03792-3.

DOI:10.1186/s13023-025-03792-3

PMID:40448196

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12125802/

Abstract

BACKGROUND

Achromatopsia is an autosomal recessive genetic disease, and 95% of achromatopsia patients carry pathogenic mutations in the CNGA3 and CNGB3 genes. Once translated, these genes function together by forming a cone photoreceptor CNG channel protein complex.

RESULTS

There are 150 CNGA3 missense variants reported in achromatopsia patients, but the pathogenicity of 103 variants remains unknown due to inconclusive genetic information. Here, we present clinical features of a novel CNGA3 variant in an achromatopsia patient and demonstrate its pathogenicity by a three-dimensional (3D) proteoform-based structure-function analysis. We first identified six proteotypic groups using 47 pathogenic missense variants with distinctive functional consequences by mapping their spatial proximity in a 3D protein structure. This meta-analysis was further applied to 103 missense variants of unknown significance (VUS) found in patients with achromatopsia. Strikingly, 86.4% of VUS had similar/identical functional consequence to nearby pathogenic variants, which suggested their likely pathogenicity and potential molecular pathology. The distinct proteotypic consequence of CNGA3 mutants shown in our analysis strongly supported the notion that gene supplementation may be the most widely applicable therapeutic option for CNGA3-associated achromatopsia patients.

CONCLUSION

Thus, proteoform-based analysis can be a valuable approach for assessing novel variants and complement clinical genomics in its utilization.

摘要

背景

全色盲是一种常染色体隐性遗传病，95%的全色盲患者在CNGA3和CNGB3基因中携带致病突变。这些基因一旦翻译，会通过形成视锥光感受器环核苷酸门控通道蛋白复合物共同发挥作用。

结果

在全色盲患者中报道了150种CNGA3错义变体，但由于遗传信息不确定，103种变体的致病性仍未知。在此，我们展示了一名全色盲患者中一种新型CNGA3变体的临床特征，并通过基于三维（3D）蛋白质异构体的结构功能分析证明了其致病性。我们首先使用47种具有独特功能后果的致病错义变体，通过在3D蛋白质结构中绘制它们的空间邻近性，确定了六个蛋白质型组。这种荟萃分析进一步应用于在全色盲患者中发现的103种意义未明的错义变体（VUS）。引人注目的是，86.4%的VUS与附近的致病变体具有相似/相同的功能后果，这表明它们可能具有致病性和潜在的分子病理学。我们分析中显示的CNGA3突变体独特的蛋白质型后果有力地支持了基因补充可能是CNGA3相关全色盲患者最广泛适用的治疗选择这一观点。

结论

因此，基于蛋白质异构体的分析可以成为评估新变体的有价值方法，并在其应用中补充临床基因组学。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5315/12125802/11528cb4a766/13023_2025_3792_Fig1_HTML.jpg

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本文引用的文献

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Hum Mutat. 2022 Jul;43(7):832-858. doi: 10.1002/humu.24371. Epub 2022 Apr 14.

Structure of the human cone photoreceptor cyclic nucleotide-gated channel.人眼视锥细胞环核苷酸门控通道的结构。

Nat Struct Mol Biol. 2022 Jan;29(1):40-46. doi: 10.1038/s41594-021-00699-y. Epub 2021 Dec 30.

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Int J Mol Sci. 2021 Nov 28;22(23):12879. doi: 10.3390/ijms222312879.

Achromatopsia: Genetics and Gene Therapy.色盲：遗传学与基因治疗。

Mol Diagn Ther. 2022 Jan;26(1):51-59. doi: 10.1007/s40291-021-00565-z. Epub 2021 Dec 3.

Three-year results of phase I retinal gene therapy trial for CNGA3-mutated achromatopsia: results of a non randomised controlled trial.CNGA3 突变性无色素性视网膜炎的 I 期视网膜基因治疗试验的 3 年结果：一项非随机对照试验的结果。

Br J Ophthalmol. 2022 Nov;106(11):1567-1572. doi: 10.1136/bjophthalmol-2021-319067. Epub 2021 May 18.

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与CNGA3相关的全色盲患者变体的结构-功能分析在致病性判定中补充了临床基因组学。

Structure-function analysis of CNGA3-associated achromatopsia patient variants complements clinical genomics in pathogenicity determination.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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