视网膜疾病中的鸟苷酸环化酶及其相关激活蛋白。

Guanylate cyclases and associated activator proteins in retinal disease.

机构信息

UCL Institute of Ophthalmology, 11-43 Bath Street, London EC1V 9EL, UK.

出版信息

Mol Cell Biochem. 2010 Jan;334(1-2):157-68. doi: 10.1007/s11010-009-0331-y. Epub 2009 Nov 26.

PMID:19941038

Abstract

Two isoforms of guanylate cyclase, GC1 and GC2 encoded by GUCY2D and GUCY2F, are responsible for the replenishment of cGMP in photoreceptors after exposure to light. Both are required for the normal kinetics of photoreceptor sensitivity and recovery, although disease mutations are restricted to GUCY2D. Recessive mutations in this gene cause the severe early-onset blinding disorder Leber congenital amaurosis whereas dominant mutations result in a later onset less severe cone-rod dystrophy. Cyclase activity is regulated by Ca(2+) which binds to the GC-associated proteins, GCAP1 and GCAP2 encoded by GUCA1A and GUCA1B, respectively. No recessive mutations in either of these genes have been reported. Dominant missense mutations are largely confined to the Ca(2+)-binding EF hands of the proteins. In a similar fashion to the disease mechanism for the dominant GUCY2D mutations, these mutations generally alter the sensitivity of the cyclase to inhibition as Ca(2+) levels rise following a light flash.

摘要

两种鸟苷酸环化酶同工型，GC1 和 GC2，由 GUCY2D 和 GUCY2F 编码，负责在感光细胞暴露于光后补充 cGMP。两者对于感光细胞敏感性和恢复的正常动力学都是必需的，尽管疾病突变仅限于 GUCY2D。该基因的隐性突变导致严重的早发性致盲性疾病先天性黑蒙 Leber，而显性突变导致较晚发病且不太严重的锥-杆营养不良。环化酶活性受 Ca2+调节，Ca2+结合到 GC 相关蛋白，即分别由 GUCA1A 和 GUCA1B 编码的 GCAP1 和 GCAP2。这两个基因中没有报道隐性突变。显性错义突变主要局限于蛋白的 Ca2+结合 EF 手。以与显性 GUCY2D 突变的疾病机制相似的方式，这些突变通常会改变环化酶对抑制的敏感性，因为在光闪后 Ca2+水平升高。

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视网膜疾病中的鸟苷酸环化酶及其相关激活蛋白。

Guanylate cyclases and associated activator proteins in retinal disease.

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