Peiyi Liang scite author profile

To date, the transdermal delivery study mainly focused on the drug delivery systems' design and efficacy evaluation. Few studies reported the structure− affinity relationship of the drug with the skin, further revealing the action sites of the drugs for enhanced permeation. Flavonoids attained a considerable interest in transdermal administration. The aim is to develop a systematic approach to evaluate the substructures that were favorable for flavonoid delivery into the skin and understand how these action sites interacted with lipids and bound to multidrug resistance protein 1 (MRP1) for enhanced transdermal delivery. First, we investigated the permeation properties of various flavonoids on the porcine skin or rat skin. We found that 4′-OH (hydroxyl group on the carbon 4′ position) rather than 7-OH on the flavonoids was the key group for flavonoid permeation and retention, while 4′-OCH 3 and −CH 2 �CH 2 − CH−(CH 3 ) 2 were unfavorable for drug delivery. 4′-OH could decrease flavonoids' lipophilicity to an appropriate log P and polarizability for better transdermal drug delivery. In the stratum corneum, flavonoids used 4′-OH as a hand to specifically grab the C�O group of the ceramide NS (Cer), which increased the miscibility of flavonoids and Cer and then disturbed the lipid arrangement of Cer, thereby facilitating their penetration. Subsequently, we constructed overexpressed MRP1 HaCaT/MRP1 cells by permanent transfection of human MRP1 cDNA in wild HaCaT cells. In the dermis, we observed that 4′-OH, 7-OH, and 6-OCH 3 substructures were involved in H-bond formation within MRP1, which increased the flavonoid affinity with MRP1 and flavonoid efflux transport. Moreover, the expression of MRP1 was significantly enhanced after the treatment of flavonoids on the rat skin. Collectively, 4′-OH served as the action site for increased lipid disruption and enhanced affinity for MRP1, which facilitate the transdermal delivery of flavonoids, providing valuable guidelines for molecular modification and drug design of flavonoids.

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ATP-Responsive Multifunctional Supramolecular Polymer as a Nonviral Vector for Boosting Cholesterol Removal from Lipid-Laden Macrophages

Jiang

Wang

Liang

et al. 2021

ACS Biomater. Sci. Eng.

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Specific delivery of NCEH1 plasmid is a promising approach to boost the cholesterol removal from lipid-laden macrophages for antiatherosclerosis. Polyethylenimine (PEI) is one of the most efficient gene carriers among nonviral vectors. However, the high transfection activity of PEI is always accompanied by profound cytotoxicity. To tackle the paradox between transfection efficiency and safety, we constructed a novel ATP-responsive multifunctional supramolecular polymer by cross-linking functionalized low-molecular-weight PEI via a boronic ester bond for NCEH1 plasmid delivery. The supramolecular polymer could condense NCEH1 plasmids to form stable nanosized polyplexes when the w/w ratios of the polymer and gene were higher than 2. ATP-triggered degradation of the polymer and pDNA release were characterized by a series of studies, including 1H NMR, 31P NMR, XPS, agarose gel electrophoresis, and ethidium bromide exclusion tests. In addition, the changes in particle size and morphology were observed in the presence of ATP. Interestingly, the supramolecular polymer showed broad spectrum antioxidant activities by measuring the elimination rates of different reactive oxygen species. In addition, the supramolecular polymer displayed a high buffering capability and good cytocompatibility as demonstrated by the results of the buffering capacity, a hemolysis assay, and a cytotoxicity test. Importantly, it was revealed that the supramolecular polymer/NCEH1 plasmid polyplex formulated at a w/w ratio of 20 was most effective in enhancing cholesterol removal from lipid-laden macrophages and reducing the accumulation of lipid droplets as evidenced by transfection study, cholesterol efflux assay, and oil red O staining studies. Collectively, the ATP-responsive multifunctional supramolecular polymer holds great potential for safe and efficient gene delivery for antiatherosclerosis.

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Influence of the pK_a value on the antioxidant activity of licorice flavonoids under solvent‐mediated effects

Wang

Shen

et al. 2023

Archiv der Pharmazie

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Licorice flavonoids (LCFs) have been widely used in food care and medical treatment due to their significant antioxidant activities. However, the molecular mechanism of their antioxidant activity remains unclear. Therefore, network pharmacology, ADMET, density functional theory (DFT), molecular docking, and molecular dynamics (MD) simulation were employed to explore the molecular mechanism of the antioxidant effects of LCF. The network pharmacology and ADMET studies showed that the active molecules of kumatakenin (pK a = 6.18), licoflavonol (pK a = 6.86), and topazolin (pK a = 6.21) in LCF are key antioxidant components and have good biosafety. Molecular docking and MD simulation studies demonstrated that active molecules interacted with amino acid residues in target proteins to form stable protein-ligand complexes and exert their antioxidant effects. DFT studies showed that the antioxidant activity of LCF could be significantly modulated under the solvent-mediated effect. In addition, based on the derivation of the Henderson-Hasselbalch and van't Hoff formulas, the functional relationships between the reaction-free energy (ΔG) of LCF and the pH and pK a values were established. The results showed that active molecules with larger pK a values will be more conducive to the improvement of their antioxidant activity under solventmediated effects. In conclusion, this study found that increasing the pK a value of LCF would be an effective strategy to improve their antioxidant activity under the effect of solvent mediation. The pK a value of an LCF will be a direct standard to evaluate its solvent-mediated antioxidant activity. This study will provide theoretical guidance for the development of natural antioxidants.

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Exploring the molecular mechanisms of isoliquiritin extraction using choline chloride-citric acid deep eutectic solvents

Wang

Liang

et al. 2023

Sustainable Chemistry and Pharmacy

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Peiyi Liang

Incentive contract design for embedded low-carbon service supply chain under information asymmetry of carbon abatement efficiency

4′-OH as the Action Site of Lipids and MRP1 for Enhanced Transdermal Delivery of Flavonoids

ATP-Responsive Multifunctional Supramolecular Polymer as a Nonviral Vector for Boosting Cholesterol Removal from Lipid-Laden Macrophages

Influence of the pK_a value on the antioxidant activity of licorice flavonoids under solvent‐mediated effects

Exploring the molecular mechanisms of isoliquiritin extraction using choline chloride-citric acid deep eutectic solvents

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Peiyi Liang

Incentive contract design for embedded low-carbon service supply chain under information asymmetry of carbon abatement efficiency

4′-OH as the Action Site of Lipids and MRP1 for Enhanced Transdermal Delivery of Flavonoids

ATP-Responsive Multifunctional Supramolecular Polymer as a Nonviral Vector for Boosting Cholesterol Removal from Lipid-Laden Macrophages

Influence of the pKa value on the antioxidant activity of licorice flavonoids under solvent‐mediated effects

Exploring the molecular mechanisms of isoliquiritin extraction using choline chloride-citric acid deep eutectic solvents

Contact Info

Product

Resources

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Influence of the pK_a value on the antioxidant activity of licorice flavonoids under solvent‐mediated effects