The importance of the fourth Greek key motif of human γD-crystallin in maintaining lens transparency-the tale told by the tail.

IF 1.8 3区医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular Vision Pub Date : 2024-02-16 eCollection Date: 2024-01-01

VenkataPullaRao Vendra, Madhupreetha Thangapandian

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引用次数: 0

Abstract

Purpose: Congenital cataract affects 1-15 per 10,000 newborns worldwide, and 20,000-40,000 children are born every year with developmental bilateral cataracts. Mutations in the crystallin genes are known to cause congenital cataracts. Crystallins, proteins present in the eye lens, are made up of four Greek key motifs separated into two domains. Greek key motifs play an important role in compact folding to provide the necessary refractive index and transparency. The present study was designed to understand the importance of the fourth Greek key motif in maintaining lens transparency by choosing a naturally reported Y134X mutant human γD- crystallin in a Danish infant and its relationship to lens opacification and cataract.

Methods: Human γD-crystallin complementary DNA (cDNA) was cloned into the pET-21a vector, and the Y134X mutant clone was generated by site-directed mutagenesis. Wild-type and mutant proteins were overexpressed in the BL21 DE3 pLysS cells of E. coli. Wild-type protein was purified from the soluble fraction using the ion exchange and gel filtration chromatography methods. Mutant protein was predominantly found in insoluble fraction and purified from inclusion bodies. The structure, stability, aggregational, and amyloid fibril formation properties of the mutant were compared to those of the wild type using the fluorescence and circular dichroism spectroscopy methods.

Results: Loss of the fourth Greek key motif in human γD-crystallin affects the backbone conformation, alters the tryptophan micro-environment, and exposes a nonpolar hydrophobic core to the surface. Mutant is less stable and opens its Greek key motifs earlier with a concentration midpoint (C_M) of unfolding curve of 1.5 M compared to the wild type human γD-crystallin (C_M: 2.5 M). Mutant is capable of forming self-aggregates immediately in response to heating at 48.6 °C.

Conclusions: Loss of 39 amino acids in the fourth Greek key motif of human γD-crystallin affects the secondary and tertiary structures and exposes the hydrophobic residues to the solvent. These changes make the molecule less stable, resulting in the formation of light-scattering particles, which explains the importance of the fourth Greek key in the underlying mechanism of opacification and cataract.

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人类γD-结晶素的第四个希腊关键图案在维持晶状体透明度方面的重要性--尾巴讲述的故事。

目的：全世界每 10,000 名新生儿中就有 1-15 名患有先天性白内障，每年有 20,000-40,000 名新生儿患有发育性双侧白内障。已知晶体蛋白基因突变可导致先天性白内障。晶状体蛋白是存在于眼球晶状体中的蛋白质，由分为两个结构域的四个希腊关键基序组成。希腊键图案在紧凑折叠过程中发挥着重要作用，以提供必要的折射率和透明度。本研究旨在通过选择自然报道的丹麦婴儿人γD-结晶素 Y134X 突变体及其与晶状体不透明和白内障的关系，了解第四个希腊关键图案在维持晶状体透明度方面的重要性。野生型蛋白和突变型蛋白在大肠杆菌 BL21 DE3 pLysS 细胞中过表达。使用离子交换和凝胶过滤色谱法从可溶性部分纯化野生型蛋白。突变体蛋白质主要存在于不溶部分，并从包涵体中纯化出来。利用荧光和圆二色性光谱法比较了突变体与野生型的结构、稳定性、聚集性和淀粉样纤维形成特性：结果：人类γD-结晶素中第四个希腊关键基团的缺失影响了其骨架构象，改变了色氨酸的微环境，并使非极性疏水核心暴露于表面。与野生型人类γ-D-结晶素（CM：2.5 M）相比，突变体的稳定性较差，并且更早打开希腊关键图案，其展开曲线的浓度中点（CM）为 1.5 M。突变体在 48.6 °C加热时能立即形成自聚集体：人类γD-结晶素第四个希腊关键基序中 39 个氨基酸的缺失影响了二级和三级结构，并使疏水残基暴露在溶剂中。这些变化降低了分子的稳定性，导致光散射颗粒的形成，从而解释了第四个希腊键在白内障的基本机制中的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular Vision 生物-生化与分子生物学

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Molecular Vision is a peer-reviewed journal dedicated to the dissemination of research results in molecular biology, cell biology, and the genetics of the visual system (ocular and cortical). Molecular Vision publishes articles presenting original research that has not previously been published and comprehensive articles reviewing the current status of a particular field or topic. Submissions to Molecular Vision are subjected to rigorous peer review. Molecular Vision does NOT publish preprints. For authors, Molecular Vision provides a rapid means of communicating important results. Access to Molecular Vision is free and unrestricted, allowing the widest possible audience for your article. Digital publishing allows you to use color images freely (and without fees). Additionally, you may publish animations, sounds, or other supplementary information that clarifies or supports your article. Each of the authors of an article may also list an electronic mail address (which will be updated upon request) to give interested readers easy access to authors.