人γS-晶状体蛋白及其易聚集的G18V变体中的多种聚集途径。

Multiple Aggregation Pathways in Human γS-Crystallin and Its Aggregation-Prone G18V Variant.

作者信息

Roskamp Kyle W, Montelongo David M, Anorma Chelsea D, Bandak Diana N, Chua Janine A, Malecha Kurtis T, Martin Rachel W

机构信息

Department of Chemistry, University of California, Irvine, Irvine, California, United States.

Department of Molecular Biology and Biochemistry, University of California, Irvine, Irvine, California, United States.

出版信息

Invest Ophthalmol Vis Sci. 2017 Apr 1;58(4):2397-2405. doi: 10.1167/iovs.16-20621.

DOI:10.1167/iovs.16-20621

PMID:28444328

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5407245/

Abstract

PURPOSE

Cataract results from the formation of light-scattering precipitates due to point mutations or accumulated damage in the structural crystallins of the eye lens. Although excised cataracts are predominantly amorphous, in vitro studies show that crystallins are capable of adopting a variety of morphologies depending on the preparation method. Here we characterize thermal, pH-dependent, and UV-irradiated aggregates from wild-type human γS-crystallin (γS-WT) and its aggregation-prone variant, γS-G18V.

METHODS

Aggregates of γS-WT and γS-G18V were prepared under acidic, neutral, and basic pH conditions and held at 25°C or 37°C for 48 hours. UV-induced aggregates were produced by irradiation with a 355-nm laser. Aggregation and fibril formation were monitored via turbidity and thioflavin T (ThT) assays. Aggregates were characterized using intrinsic aromatic fluorescence, powder x-ray diffraction, and mass spectrometry.

RESULTS

γS-crystallin aggregates displayed different characteristics depending on the preparation method. γS-G18V produced a larger amount of detectable aggregates than did γS-WT and at less-extreme conditions. Aggregates formed under basic and acidic conditions yielded elevated ThT fluorescence; however, aggregates formed at low pH did not produce strongly turbid solutions. UV-induced aggregates produced highly turbid solutions but displayed only moderate ThT fluorescence. X-ray diffraction confirms amyloid character in low-pH samples and UV-irradiated samples, although the relative amounts vary.

CONCLUSIONS

γS-G18V demonstrates increased aggregation propensity compared to γS-WT when treated with heat, acid, or UV light. The resulting aggregates differ in their ThT fluorescence and turbidity, suggesting that at least two different aggregation pathways are accessible to both proteins under the conditions tested.

摘要

目的

白内障是由于眼睛晶状体结构晶状体蛋白中的点突变或累积损伤导致光散射沉淀物形成所致。尽管切除的白内障主要是无定形的，但体外研究表明，晶状体蛋白能够根据制备方法呈现多种形态。在此，我们对野生型人γS-晶状体蛋白（γS-WT）及其易于聚集的变体γS-G18V的热诱导、pH依赖性和紫外线照射诱导的聚集体进行了表征。

方法

在酸性、中性和碱性pH条件下制备γS-WT和γS-G18V的聚集体，并在25°C或37°C下保持48小时。通过355 nm激光照射产生紫外线诱导的聚集体。通过浊度和硫黄素T（ThT）测定法监测聚集和纤维形成。使用固有芳香族荧光、粉末X射线衍射和质谱对聚集体进行表征。

结果

γS-晶状体蛋白聚集体根据制备方法表现出不同的特征。γS-G18V在比γS-WT更不极端的条件下产生了大量可检测的聚集体。在碱性和酸性条件下形成的聚集体产生了升高的ThT荧光；然而，在低pH下形成的聚集体没有产生强烈浑浊的溶液。紫外线诱导的聚集体产生了高度浑浊的溶液，但仅显示出中等程度的ThT荧光。X射线衍射证实了低pH样品和紫外线照射样品中的淀粉样特征，尽管相对含量有所不同。

结论

与γS-WT相比，γS-G18V在受热、酸或紫外线处理时表现出更高的聚集倾向。所得聚集体在ThT荧光和浊度方面存在差异，这表明在测试条件下，两种蛋白质至少可通过两种不同的聚集途径形成聚集体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/45a5/5407245/73d44da8026e/i1552-5783-58-4-2397-f01.jpg

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人γS-晶状体蛋白及其易聚集的G18V变体中的多种聚集途径。

Multiple Aggregation Pathways in Human γS-Crystallin and Its Aggregation-Prone G18V Variant.

作者信息

Roskamp Kyle W, Montelongo David M, Anorma Chelsea D, Bandak Diana N, Chua Janine A, Malecha Kurtis T, Martin Rachel W

机构信息

Department of Chemistry, University of California, Irvine, Irvine, California, United States.

Department of Molecular Biology and Biochemistry, University of California, Irvine, Irvine, California, United States.