Formation of protein aggregates in the aging eye lens has been shown to correlate with progressive accumulation of specific low-molecular weight (LMW) peptides derived from crystallins. Prominent among the LMW fragments is αA66-80, a peptide derived from αA-crystallin and present at higher concentrations in the water-insoluble nuclear fractions of the aging lens. The αA66-80 peptide has amyloid-like properties and preferentially insolubilizes α-crystallin from soluble lens fractions. However, the specific interactions and mechanisms by which the peptide induces α-crystallin aggregation have not been delineated. To gain insight into the mechanisms of peptide-induced aggregation, we investigated the interactions of the peptide with α-crystallin by various biochemical approaches. The peptide weakens α-crystallin chaperone ability and drastically promotes α-crystallin aggregation via the formation of insoluble peptide-protein complexes through transient intermediates. 4,4'-Dianilino-1,1'-binaphthyl-5,5'-disulfonic acid studies suggest that the peptide induces changes in the hydrophobicity of α-crystallin that could trigger the formation and growth of aggregates. The peptide-α-crystallin aggregates were found to be resistant to dissociation by high ionic strengths, whereas guanidinium hydrochloride and urea were effective dissociating agents. We conclude that the αA66-80 peptide forms a hydrophobically driven, stable complex with α-crystallin and reduces its solubility. Using isotope-labeled chemical cross-linking and mass spectrometry, we show that the peptide binds to multiple sites, including the chaperone site, the C-terminal extension, and subunit interaction sites in αB-crystallin, which may explain the antichaperone property of the peptide and the consequential age-related accumulation of aggregated proteins. Thus, the α-crystallin-derived peptide could play a role in the pathogenesis of cataract formation in the aging lens.

译文

已显示老化眼晶状体中蛋白质聚集体的形成与衍生自晶体蛋白的特定低分子量 (LMW) 肽的逐渐积累相关。LMW片段中最突出的是 αA66-80,这是一种衍生自 α a-晶体蛋白的肽,以较高浓度存在于老化晶状体的水不溶性核部分中。Αa66-80肽具有类似淀粉样蛋白的特性,并且优先使可溶性晶状体部分中的 α-晶体蛋白不溶解。然而,尚未描述肽诱导 α-晶体蛋白聚集的特定相互作用和机制。为了深入了解肽诱导聚集的机制,我们通过各种生化方法研究了肽与 α-晶体蛋白的相互作用。该肽通过瞬时中间体形成不溶性肽-蛋白质复合物,削弱 α-晶体蛋白伴侣的能力,并极大地促进 α-晶体蛋白聚集。4,4 '-Dianilino-1,1'-binaphthyl-5,5 '-二磺酸研究表明,该肽诱导 α-晶体蛋白疏水性的变化,这可能触发聚集体的形成和生长。发现肽-α-晶体蛋白聚集体可耐因高离子强度而解离,而盐酸胍和尿素是有效的解离剂。我们得出的结论是,αA66-80肽与 α-晶体蛋白形成疏水驱动的稳定复合物,并降低其溶解度。使用同位素标记的化学交联和质谱,我们显示该肽与多个位点结合,包括伴侣位点,C末端延伸和 α b-晶体蛋白中的亚基相互作用位点,这可以解释肽的抗伴侣特性以及随之而来的与年龄相关的聚集蛋白的积累。因此,α-晶状体蛋白衍生肽可能在衰老晶状体中白内障形成的发病机理中起作用。

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