期刊
INTERNATIONAL JOURNAL OF COSMETIC SCIENCE
卷 44, 期 1, 页码 82-90出版社
WILEY
DOI: 10.1111/ics.12756
关键词
chemical analysis; hair treatment; redox proteomics; spectroscopy
资金
- Procter and Gamble
The study utilized high-resolution mass spectrometry to analyze redox proteomic profiling in human hair, revealing an increase in redox-related modifications with higher levels of thermal and alkaline insults. Site-specific modifications within proteins, particularly an increase in cysteic acid modifications, were observed in samples subjected to more extreme insults. This information could potentially be used to develop strategies for mitigating or repairing hair protein damage caused by environmental or hair treatment-related insults.
Objective Human hair is regularly subjected to chemical and physical insults, such as heat, UV-irradiation and alkaline hair care products. These insults result in molecular modifications at the hair protein level that underpin mechanical and sensory property changes in the fibres. These changes can manifest itself in reduced hair quality and performance attributes observable to the consumer. In this work, changes in protein modification as a result of heat and alkaline treatments are determined. Methods Redox proteomic profiling using high-resolution mass spectrometry was applied to map and evaluate amino acid residue modifications in human hair exposed to a combination of thermal treatments and alkali exposure with the aim to understand the underlying chemical processes. Results Our results show that an increase in redox-related modifications is associated with exposure to higher levels of hydrothermal and alkaline insult. Post-translational modification profiling at the protein primary structural level delivered some further insights into the site-specificity of these modifications, with a clear increase in the number of cysteic acid modifications noticed in samples subjected to more extreme insults. Conclusion Pinpointing modification sides within proteins and the hair shaft proteome can be used as a basis for employing mitigation or repair strategies of hair protein damage caused by environmental or hair treatment-related insults.
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