A novel F30S mutation in γS-crystallin causes autosomal dominant congenital nuclear cataract by increasing susceptibility to stresses

Despite of increasingly accumulated genetic variations of autosomal dominant congenital cataracts (ADCC), the causative genes of many ADCC patients remains unknown. In this research, we identified a novel F30S mutation in gamma S-crystallin from a three-generation Chinese family with ADCC. The patients possessing the F30S mutation exhibited nuclear cataract phenotype. The potential molecular mechanism underlying ADCC by the F30S mutation was investigated by comparing the structural features, stability and aggregatory potency of the mutated protein with the wild type protein. Spectroscopic experiments indicated that the F30S mutation did not affect gamma S-aystallin secondary structure compositions, but modified the microenvironments around aromatic sidechains. Thermal and chemical denaturation studies indicated that the mutation destabilized the protein and increased its aggregatory potency. The mutation altered the two-state unfolding of gamma S-crystallin to a three-state unfolding with the accumulation of an unfolding intermediate. The almost identical values in the changes of Gibbs free energies for transitions from the native state to intermediate and from the intermediate to unfolded state suggested that the mutation probably disrupted the cooperativity between the two domains during unfolding. Our results expand the genetic variation map of ADCC and provide novel insights into the molecular mechanism underlying ADCC caused by mutations in beta/gamma-crystallins. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

A novel F30S mutation in gamma S-crystallin was identified in a Chinese family with ADCC, leading to nuclear cataract phenotype. The mutation destabilized the protein, altered its unfolding process, and disrupted cooperativity between domains during unfolding, providing new insights into the molecular mechanism underlying ADCC caused by mutations in beta/gamma-crystallins.