与科波克白内障相关的人γS-晶状体蛋白突变体D26G的结构分析

Structural analysis of the mutant protein D26G of human γS-crystallin, associated with Coppock cataract.

作者信息

Karri Srinivasu, Kasetti Ramesh Babu, Vendra Venkata Pulla Rao, Chandani Sushil, Balasubramanian Dorairajan

机构信息

Prof. Brien Holden Eye Research Centre, Hyderabad Eye Research Foundation, L. V. Prasad Eye Institute, Hyderabad, India.

出版信息

Mol Vis. 2013 Jun 5;19:1231-7. Print 2013.

PMID:23761725

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3675056/

Abstract

PURPOSE

To analyze the protein structural features responsible for the aggregation properties of the mutant protein D26G human γS-crystallin (HGSC) associated with congenital Coppock-type cataract.

METHODS

cDNAs of wild-type (WT) and D26G mutant HGSC were cloned and expressed in BL21 (DE3) pLysS cells and the proteins isolated and purified. Their secondary and tertiary structural features, aggregation tendencies, and structural stabilities were compared using spectroscopic (circular dichroism, intrinsic and extrinsic fluorescence), molecular modeling, and dynamics methods.

RESULTS

No difference was observed between the conformational (secondary and tertiary structural) features and aggregation properties between the WT and D26G proteins. The mutant, however, was structurally less stable; it denatured at a slightly lower concentration of the added chemical denaturant (at 2.05 M guanidinium chloride, cf. 2.20 M for the WT) and at a slightly lower temperature (at 70.8 °C, cf. 72.0 °C for the WT). The mutant also self-aggregated more readily (it turned turbid upon standing; at 65 °C, it started precipitating beyond 200 s, while the WT did not, even after 900 s). Molecular modeling showed that the Asp26-Arg84 contact (and the related Arg84-Asn54 interaction) was disturbed in the mutant, making the latter less compact around the mutation site.

CONCLUSIONS

The cataract-associated mutant D26G of HGSC is remarkably close to the WT molecule in structural features, with only a microenvironmental change in the packing around the mutation site. This alteration appears sufficient to promote self-aggregation, resulting in peripheral cataract.

摘要

目的

分析与先天性科波克型白内障相关的突变蛋白D26G人γS-晶状体蛋白（HGSC）聚集特性的蛋白质结构特征。

方法

克隆野生型（WT）和D26G突变型HGSC的cDNA，并在BL21（DE3）pLysS细胞中表达，然后分离和纯化蛋白质。使用光谱法（圆二色性、内在和外在荧光）、分子建模和动力学方法比较它们的二级和三级结构特征、聚集倾向和结构稳定性。

结果

WT和D26G蛋白在构象（二级和三级结构）特征及聚集特性方面未观察到差异。然而，突变体在结构上不太稳定；在添加的化学变性剂浓度略低时（在2.05 M氯化胍时变性，而WT在2.20 M时变性）以及温度略低时（在70.8°C时变性，而WT在72.0°C时变性）就会变性。突变体也更容易自我聚集（静置时变浑浊；在65°C时，200 s后开始沉淀，而WT即使在900 s后也没有沉淀）。分子建模显示，突变体中Asp26-Arg84接触（以及相关的Arg84-Asn54相互作用）受到干扰，使得突变体在突变位点周围的结构不那么紧密。

结论

HGSC的白内障相关突变体D26G在结构特征上与WT分子非常接近，仅在突变位点周围的堆积存在微环境变化。这种改变似乎足以促进自我聚集，导致周边性白内障。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fca3/3675056/2c631f75616c/mv-v19-1231-f1.jpg

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与科波克白内障相关的人γS-晶状体蛋白突变体D26G的结构分析

Structural analysis of the mutant protein D26G of human γS-crystallin, associated with Coppock cataract.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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