AI Article Synopsis

  • - The study investigates how blue light, especially its wavelengths, causes damage to proteins in living mammalian cells, potentially leading to cell dysfunction and aging.
  • - Researchers used a specialized chemical probe to identify proteins that get oxidized when exposed to blue light, finding that cell surface proteins, particularly integrins, are particularly vulnerable.
  • - The damaged integrin protein ITGB1 was found to be non-functional in helping cells stick together and grow, indicating that blue-light exposure may significantly impair cellular function.

Article Abstract

Visible light, particularly in the blue region of the spectrum, can cause cell dysfunction through the generation of singlet oxygen, contributing to cellular aging and age-related pathologies. Although photooxidation of nucleic acids, lipids, and amino acids has been extensively studied, the magnitude and span of blue-light-induced protein damages within proteome remain largely unknown. Herein we present a chemoproteomic approach to mapping blue-light-damaged proteins in live mammalian cells by exploiting a nucleophilic alkyne chemical probe. A gene ontology enrichment analysis revealed that cell surface proteins are more readily oxidized than other susceptible sets of proteins, including mitochondrial proteins. In particular, the integrin family of cell surface receptors (ITGs) was highly ranked in the mammalian cells tested, including human corneal endothelial cells. The blue-light-oxidized ITGB1 protein was functionally inactive in promoting cell adhesion and proliferation, suggesting that the photodamage of integrins contributes to the blue-light-induced cell dysfunction. Further application of our method to various cells and tissues should lead to a comprehensive analysis of light-sensitive proteins.

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Source
http://dx.doi.org/10.1021/jacs.2c07180DOI Listing

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