A novel cataract-causing mutation Ile82Met of γA crystallin trends to aggregate with unfolding intermediate.

Cataract is the most common pathogenic ophthalmic disease leading to blindness in children worldwide. Genetic disorder is the leading cause of congenital cataract, among which crystallin mutations have a high incidence. There are few reports on γA-crystallin, one critical member of crystallin superfamilies. In this study, we identified a novel pathogenic mutation (Ile82Met) in γA-crystallin from a three-generation Chinese family with cataract, and investigated the potential molecular mechanism in detail. To elucidate the pathogenic mechanism of I82M mutant, spectroscopic and solubility experiments were performed to determine the difference between the purified γA-crystallin wild type (WT) and I82M mutant under both physiological conditions and environmental stresses (UV irradiation, thermal denaturation or chemical denaturation). The I82M mutant did not affect the secondary/tertiary structure of monomeric γA-crystallin under physiological status, but decreased protein stability and increased aggregatory potency under the stressful treatment. Surprisingly, the chemical denaturation caused I82M to switch from the two-state unfolding of γA-crystallin to three-state unfolding involving an unfolding intermediate. This study expands the genetic variation map of cataract, and provides novel insights into the pathomechanism, in particular, filling in a gap in the understanding of γA-crystallin mutants causing cataract. Copyright © 2022 Elsevier B.V. All rights reserved.

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Wanyue Xu, Jingjie Xu, Caiping Shi, Jing Wu, Huaxia Wang, Wei Wu, Xiangjun Chen, Lidan Hu. A novel cataract-causing mutation Ile82Met of γA crystallin trends to aggregate with unfolding intermediate. International journal of biological macromolecules. 2022 Jun 30;211:357-367

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PMID: 35513103

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