具有 Rho 突变的临床前常染色体显性遗传性视网膜色素变性基因敲入模型中的神经退行性变机制。

Mechanisms of neurodegeneration in a preclinical autosomal dominant retinitis pigmentosa knock-in model with a Rho mutation.

机构信息

Neurobiología y Neurofisiología, Facultad de Medicina y Odontología, Universidad Católica de Valencia San Vicente Mártir, Valencia, Spain.

Jonas Children's Vision Care and Bernard & Shirlee Brown Glaucoma Laboratory, Departments of Ophthalmology, Pathology, and Cell Biology, Columbia University, New York, NY, 10032, USA.

出版信息

Cell Mol Life Sci. 2019 Sep;76(18):3657-3665. doi: 10.1007/s00018-019-03090-9. Epub 2019 Apr 11.

DOI:10.1007/s00018-019-03090-9

PMID:30976840

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7144803/

Abstract

D190N, a missense mutation in rhodopsin, causes photoreceptor degeneration in patients with autosomal dominant retinitis pigmentosa (adRP). Two competing hypotheses have been developed to explain why D190N rod photoreceptors degenerate: (a) defective rhodopsin trafficking prevents proteins from correctly exiting the endoplasmic reticulum, leading to their accumulation, with deleterious effects or (b) elevated mutant rhodopsin expression and unabated signaling causes excitotoxicity. A knock-in D190N mouse model was engineered to delineate the mechanism of pathogenesis. Wild type (wt) and mutant rhodopsin appeared correctly localized in rod outer segments of D190N heterozygotes. Moreover, the rhodopsin glycosylation state in the mutants appeared similar to that in wt mice. Thus, it seems plausible that the injurious effect of the heterozygous mutation is not related to mistrafficking of the protein, but rather from constitutive rhodopsin activity and a greater propensity for chromophore isomerization even in the absence of light.

摘要

D190N 是视蛋白中的一种错义突变，可导致常染色体显性遗传视网膜色素变性（adRP）患者的光感受器变性。已经提出了两种竞争性假说来解释为什么 D190N 视杆细胞会退化：（a）有缺陷的视蛋白运输阻止蛋白质正确离开内质网，导致其积累，从而产生有害影响，或（b）升高的突变视蛋白表达和持续的信号传导引起兴奋性毒性。设计了一种 D190N 敲入小鼠模型来阐明发病机制。野生型（wt）和突变型视蛋白在 D190N 杂合子的杆状外节中正确定位。此外，突变体中的视蛋白糖基化状态似乎与 wt 小鼠相似。因此，似乎合理的是，杂合突变的有害影响与蛋白质的错误运输无关，而是与组成型视蛋白活性以及在没有光的情况下视黄醛异构化的更大倾向有关。

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