Peptide Cysteine Thiols Act as Photostabilizer of Avobenzone through Stabilizing the Transition State of Keto‐Enol Tautomerization

Photostabilizers have been used to impart stability to an FDA‐approved chemical UV‐A filter avobenzone against the UV‐A radiations and sunlight. The thiol group of glutathione plays a critical role in imparting the photostabilization activity of glutathione on avobenzone. The current report aims to...

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Veröffentlicht in:	Photochemistry and photobiology 2023-05, Vol.99 (3), p.911-919
Hauptverfasser:	Moi, Smriti, Shekh, Shamasoddin, Reddy, K. Kasi Amarnath, Dhurjad, Pooja, Sonti, Rajesh, Gowd, Konkallu Hanumae
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Sprache:	eng
Schlagworte:	Cosmetics Cysteine Glutathione Mass spectrometry Mass spectroscopy Peptides Solvents Solvents - chemistry Sulfhydryl Compounds Sunlight Sunscreening Agents - chemistry Synthetic peptides Thiols Ultraviolet spectroscopy
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description	Photostabilizers have been used to impart stability to an FDA‐approved chemical UV‐A filter avobenzone against the UV‐A radiations and sunlight. The thiol group of glutathione plays a critical role in imparting the photostabilization activity of glutathione on avobenzone. The current report aims to evaluate the photostabilization activity of multiple thiols containing cysteine peptides on avobenzone. Cysteine‐tripeptide and cysteine‐pentapeptide were chemically synthesized and characterized using mass spectrometry. Synthetic peptides were assessed for their photostabilization activity on the enolic‐form of the avobenzone under natural sunlight using UV spectroscopy in both protic and aprotic solvents. Unlike glutathione, which has pronounced activity in protic solvents, cysteine‐pentapeptide exhibits similar photoprotection activity in both protic and aprotic solvents. Computational calculations using DFT suggest that peptide cysteine thiols may assist in the reversal of the photoketonization process of avobenzone thereby exhibiting the photoprotection activity to the enolic‐form of avobenzone. Peptide cysteine thiols lower the activation energy barrier of keto‐to‐enol tautomerization of avobenzone by 30 kcal mol−1 by assisting the proton shuttle through a six‐membered transition state. The current report emphasizes the applications of peptide thiols in cosmetics and may help in the development of peptides as aesthetic medicines. Peptide cysteine thiols act as photostabilizer of an FDA‐approved chemical UV‐A filter avobenzone as evaluated under natural sunlight. Peptide cysteine thiols may assist the reversal of the photoketonization process by attenuating the activation energy barrier of keto‐to‐enol tautomerization by 30 kcal mol−1. The thiol‐mediated hydrogen transfer through a six‐membered transition state is involved between peptide thiol and keto‐form of avobenzone. The current studies promote the applications of peptide thiols in cosmetics and may help in the development of peptides‐based aesthetic medicines.
doi_str_mv	10.1111/php.13691
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Unlike glutathione, which has pronounced activity in protic solvents, cysteine‐pentapeptide exhibits similar photoprotection activity in both protic and aprotic solvents. Computational calculations using DFT suggest that peptide cysteine thiols may assist in the reversal of the photoketonization process of avobenzone thereby exhibiting the photoprotection activity to the enolic‐form of avobenzone. Peptide cysteine thiols lower the activation energy barrier of keto‐to‐enol tautomerization of avobenzone by 30 kcal mol−1 by assisting the proton shuttle through a six‐membered transition state. The current report emphasizes the applications of peptide thiols in cosmetics and may help in the development of peptides as aesthetic medicines. Peptide cysteine thiols act as photostabilizer of an FDA‐approved chemical UV‐A filter avobenzone as evaluated under natural sunlight. Peptide cysteine thiols may assist the reversal of the photoketonization process by attenuating the activation energy barrier of keto‐to‐enol tautomerization by 30 kcal mol−1. The thiol‐mediated hydrogen transfer through a six‐membered transition state is involved between peptide thiol and keto‐form of avobenzone. 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Synthetic peptides were assessed for their photostabilization activity on the enolic‐form of the avobenzone under natural sunlight using UV spectroscopy in both protic and aprotic solvents. Unlike glutathione, which has pronounced activity in protic solvents, cysteine‐pentapeptide exhibits similar photoprotection activity in both protic and aprotic solvents. Computational calculations using DFT suggest that peptide cysteine thiols may assist in the reversal of the photoketonization process of avobenzone thereby exhibiting the photoprotection activity to the enolic‐form of avobenzone. Peptide cysteine thiols lower the activation energy barrier of keto‐to‐enol tautomerization of avobenzone by 30 kcal mol−1 by assisting the proton shuttle through a six‐membered transition state. The current report emphasizes the applications of peptide thiols in cosmetics and may help in the development of peptides as aesthetic medicines. Peptide cysteine thiols act as photostabilizer of an FDA‐approved chemical UV‐A filter avobenzone as evaluated under natural sunlight. Peptide cysteine thiols may assist the reversal of the photoketonization process by attenuating the activation energy barrier of keto‐to‐enol tautomerization by 30 kcal mol−1. The thiol‐mediated hydrogen transfer through a six‐membered transition state is involved between peptide thiol and keto‐form of avobenzone. 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subjects	Cosmetics Cysteine Glutathione Mass spectrometry Mass spectroscopy Peptides Solvents Solvents - chemistry Sulfhydryl Compounds Sunlight Sunscreening Agents - chemistry Synthetic peptides Thiols Ultraviolet spectroscopy
title	Peptide Cysteine Thiols Act as Photostabilizer of Avobenzone through Stabilizing the Transition State of Keto‐Enol Tautomerization
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