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. 2024 Sep 16;10(9):596.
doi: 10.3390/gels10090596.

Curcumin-Loaded Liposomes in Gel Protect the Skin of Mice against Oxidative Stress from Photodamage Induced by UV Irradiation

Yongli Zhang  1 Bin Sun  1 Lu Wang  1 Wang Shen  1 Si Shen  1 Xiaoman Cheng  1 Xuan Liu  1 Hongmei Xia  1
Affiliations

Curcumin-Loaded Liposomes in Gel Protect the Skin of Mice against Oxidative Stress from Photodamage Induced by UV Irradiation

Yongli Zhang et al. Gels. .

Abstract

Prolonged exposure to ultraviolet (UV) irradiation can cause oxidative stress in the skin, accompanied by rapid immunosuppressive effects, resulting in a peroxidation reaction throughout the body. Curcumin (Cur), as the bioactive compound of turmeric, is a natural polyphenol with potent antioxidant properties but is often overlooked due to its poor solubility and low bioavailability. In this study, curcumin-loaded liposomes in a sodium alginate gel complex preparation were designed to improve the bioavailability of curcumin and to study its preventive effect on photodamage. Cur-loaded liposomes (Cur-L), Cur-loaded gel (Cur-G) based on an alginate matrix, and curcumin-loaded liposomes in gel (Cur-LG) were prepared, and their antioxidant effects and drug diffusion abilities were evaluated. The antioxidant capacity of Cur, Cur-L, Cur-G, and Cur-LG was also studied in a mouse model of photodamage. Cur had the highest antioxidant activity at about 4 mg/mL. Cur-LG at this concentration showed antioxidant effects during 1,1-diphenyl-2-trinitrophenylhydrazine (DPPH) and H2O2 experiments. During the UV light damage test, Cur-LG demonstrated the ability to effectively neutralize free radicals generated as a result of lipid peroxidation in the skin, serum, and liver, thereby enhancing the overall activity of superoxide dismutase (SOD). In conclusion, using Cur-LG may protect against epidermal and cellular abnormalities induced by UV irradiation.

Keywords: antioxidant; curcumin; liposomes in gel; photodamage.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

Figure 1
Figure 1
Scavenging capacity on H2O2 and DPPH. (A) Clearance of H2O2 by curcumin solution with different concentrations; (B) the scavenging ability of Cur, Cur-L, Cur-G, and Cur-LG on H2O2; (C) the relationship between curcumin solution and DPPH scavenging rate. (D) The scavenging ability of Cur, Cur-L, Cur-G, and Cur-LG on DPPH; * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001, # p < 0.05.
Figure 2
Figure 2
Release rates of Cur, Cur-L, Cur-G, and Cur-LG across dialysis membranes.
Figure 3
Figure 3
Cur/Cur-L/Cur-G/Cur-LG prevented macroscopic skin changes in mice induced by UV radiation. (A) The changes on the back skin surface of mice and subcutaneous tissue maps after eight weeks UV radiation; (B) observation of subcutaneous blood vessels of mice at the eighth week; (C) visual scoring of mouse dorsal surface skin. * p < 0.05, *** p < 0.001, # p < 0.05, ## p < 0.01.
Figure 4
Figure 4
(A) Spleen index; (B) inhibitory rate of different samples on MDA production in skin; (C) inhibitory rate of different samples on MDA production in liver; (D) inhibition rate of Cur/Cur-L/Cur-G/Cur-LG on MDA generation in LDL; (E) total vitality of SOD in the skin. * p < 0.05, ** p < 0.01, *** p < 0.001, # p < 0.05, ## p < 0.01, ### p < 0.001.
Figure 5
Figure 5
(A) The relationship between Cur-LG stability and pH; (B) under alkaline pH or the action of catalytic enzymes such as cyclooxygenase and lipoxygenase, curcumin can undergo intramolecular cyclization of phenoxy radical intermediates generated by autoxidation or free radical mediation.
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