Synergistic Inhibiting Effect of Phytochemicals in IRheum palmatum/I on Tyrosinase Based on Metabolomics and Isobologram Analyses

Synergistic Inhibiting Effect of Phytochemicals in IRheum palmatum/I on Tyrosinase Based on Metabolomics and Isobologram Analyses

Tyrosinase (TYR) plays a key role in the enzymatic reaction that is responsible for a range of unwanted discoloration effects, such as food browning and skin hyperpigmentation. TYR inhibitors could, therefore, be candidates for skin care products that aim to repair pigmentation problems. In this stu...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Vol. 28; no. 3
Main Authors: Xiong, Yin, Kim, Hye Kyong, Özer, Övgü Çelikler, van Duijn, Bert, Korthout, Henrie A. A. J, Zi, Lihong, Cai, Ang
Format: Journal Article
Language:English
Published: MDPI AG 01-01-2023
Subjects:
Analysis
Metabolomics
Phytochemicals
Properties
Rhubarb
Tyrosine
Netherlands
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Summary:Tyrosinase (TYR) plays a key role in the enzymatic reaction that is responsible for a range of unwanted discoloration effects, such as food browning and skin hyperpigmentation. TYR inhibitors could, therefore, be candidates for skin care products that aim to repair pigmentation problems. In this study, we used a metabolomics approach combined with the isobologram analysis to identify anti-TYR compounds within natural resources, and evaluate their possible synergism with each other. Rheum palmatum was determined to be a model plant for observing the effect, of which seven extracts with diverse phytochemicals were prepared by way of pressurized solvent extraction. Each Rheum palmatum extract (RPE) was profiled using nuclear magnetic resonance spectroscopy and its activity of tyrosinase inhibition was evaluated. According to the orthogonal partial least square analysis used to correlate phytochemicals in RPE with the corresponding activity, the goodness of fit of the model (R[sub.2] = 0.838) and its predictive ability (Q[sub.2] = 0.711) were high. Gallic acid and catechin were identified as the active compounds most relevant to the anti-TYR effect of RPE. Subsequently, the activity of gallic acid and catechin were evaluated individually, and when combined in various ratios by using isobologram analysis. The results showed that gallic acid and catechin in the molar ratios of 9:5 and 9:1 exhibited a synergistic inhibition on TYR, with a combination index lower than 0.77, suggesting that certain combinations of these compounds may prove effective for use in cosmetic, pharmaceutical, and food industries.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules28030944