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导致常染色体显性视锥细胞营养不良的GCAP1基因新突变(E155G)的鉴定及其功能后果

Identification and functional consequences of a new mutation (E155G) in the gene for GCAP1 that causes autosomal dominant cone dystrophy.

作者信息

Wilkie S E, Li Y, Deery E C, Newbold R J, Garibaldi D, Bateman J B, Zhang H, Lin W, Zack D J, Bhattacharya S S, Warren M J, Hunt D M, Zhang K

机构信息

Division of Molecular Genetics, Institute of Ophthalmology, University College London, London EC1V 9EL, United Kingdom.

出版信息

Am J Hum Genet. 2001 Sep;69(3):471-80. doi: 10.1086/323265. Epub 2001 Jul 31.

DOI:10.1086/323265
PMID:11484154
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1235478/
Abstract

Mutations in the gene for guanylate cyclase-activating protein-1 (GCAP1) (GUCA1A) have been associated with autosomal dominant cone dystrophy (COD3). In the present study, a severe disease phenotype in a large white family was initially shown to map to chromosome 6p21.1, the location of GUCA1A. Subsequent single-stranded conformation polymorphism analysis and direct sequencing revealed an A464G transition, causing an E155G substitution within the EF4 domain of GCAP1. Modeling of the protein structure shows that the mutation eliminates a bidentate amino acid side chain essential for Ca2+ binding. This represents the first disease-associated mutation in GCAP1, or any neuron-specific calcium-binding protein within an EF-hand domain, that directly coordinates Ca2+. The functional consequences of this substitution were investigated in an in vitro assay of retinal guanylate cyclase activation. The mutant protein activates the cyclase at low Ca2+ concentrations but fails to inactivate at high Ca2+ concentrations. The overall effect of this would be the constitutive activation of guanylate cyclase in photoreceptors, even at the high Ca2+ concentrations of the dark-adapted state, which may explain the dominant disease phenotype.

摘要

鸟苷酸环化酶激活蛋白-1(GCAP1)(GUCA1A)基因的突变与常染色体显性锥体营养不良(COD3)有关。在本研究中,一个大型白人家庭中的严重疾病表型最初被定位到6号染色体p21.1,即GUCA1A的位置。随后的单链构象多态性分析和直接测序揭示了一个A464G转换,导致GCAP1的EF4结构域内发生E155G替代。蛋白质结构建模表明,该突变消除了对Ca2+结合至关重要的双齿氨基酸侧链。这代表了GCAP1或EF手结构域内任何神经元特异性钙结合蛋白中第一个与疾病相关的直接配位Ca2+的突变。在视网膜鸟苷酸环化酶激活的体外试验中研究了这种替代的功能后果。突变蛋白在低Ca2+浓度下激活环化酶,但在高Ca2+浓度下不能失活。即使在暗适应状态的高Ca2+浓度下,这一现象的总体效应也将是光感受器中鸟苷酸环化酶的组成性激活,这可能解释了显性疾病表型。

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