Effect of photoaging on the degradation of advanced glycation end products by human dermal fibroblasts
10.3760/cma.j.issn.0412-4030.2018.04.004
- VernacularTitle:光老化对皮肤成纤维细胞降解晚期糖基化终末产物的影响
- Author:
Xinya XU
1
;
Yue ZHENG
;
Qingfang XU
;
Yuying LI
;
Yunfen HUANG
;
Zijian GONG
;
Chun LU
;
Wei LAI
Author Information
1. 中山大学附属第三医院皮肤科
- Keywords:
Fibroblasts;
Skin aging;
Cell aging;
Glycosylation
- From:
Chinese Journal of Dermatology
2018;51(4):260-264
- CountryChina
- Language:Chinese
-
Abstract:
Objective To evaluate the effect of photoaging on the degradation of advanced glycation end products (AGEs) by human dermal fibroblasts.Methods Some cultured human dermal fibroblasts were subjected to repetitive ultraviolet A (UVA) radiation (UVA radiation group) to establish a photoaging cell model,which was then evaluated by cell counting kit 8 (CCK-8) assay,senescenceassociated β-galactosidase staining and detection of apoptosis rate.Moreover,fibroblasts receiving no treatment served as control group.Some other primary fibroblasts were divided into 4 groups:photoaged group receiving UVA radiation,non-photoaged group receiving no treatment,AGE-treated photoaged group treated with UVA radiation followed by the treatment with 200 mg/L AGE-bovine serum albumin (BSA),and AGE-treated non-photoaged group treated with 200 mg/L AGE-BSA alone.After the treatment with AGE-BSA for 4-72 hours,flow cytometry was performed to determine the fluorescence intensity of AGE-BSA in fibroblasts of the above groups.After 8-hour treatment with AGE-BSA,confocal laser scanning microscopy was performed to localize and semiquantitatively detect AGE-BSA in fibroblasts,and enzymelinked immunosorbent assay (ELISA) was conducted to detect AGE-BSA levels in fibroblasts,as well as changes in the intracellular AGE-BSA level within 24 hours after the removal of AGE-BSA.Results Compared with the control group,the UVA radiation group showed significantly decreased cellular proliferative activity (t =7.559,P < 0.05),but significantly increased apoptosis rate and percentage of β-galactosidase-positive fibroblasts (t =14.075,43.524 respectively,both P < 0.05).Flow cytometry revealed that the average fluorescence intensities of AGE-BSA after 4-,8-,16-,24-,48-and 72-hour treatment with AGE-BSA were significantly higher in the AGE-treated photoaged group (293.00 ± 8.19,359.67 ± 11.59,347.00 ± 12.29,338.00 ± 12.77,334.67 ± 14.22 and 336.30 ± 10.21,respectively) than in the photoaged group (all P < 0.05),as well as in the AGE-treated non-photoaged group (222.33 ± 8.74,276.33 ± 6.11,256.33 ± 5.51,243.00 ± 10.15,236.33 ± 1.53 and 240.33 ± 1.52,respectively) than in the non-photoaged group (all P < 0.05).Moreover,the average fluorescence intensities of AGE-BSA at different time points were all significantly higher in the AGE-treated photoaged group than in the AGE-treated non-photoaged group (all P < 0.05).Confocal laser scanning microscopy showed that AGE-BSA was mainly localized in lysosomes after endocytic uptake into the fibroblasts,and the AGE-treated photoaged group showed significantly increased fluorescence intensity of AGE-BSA compared with the AGE-treated non-photoaged group (P < 0.05).ELISA revealed that the intracellular AGE level in the AGE-treated non-photoaged group at 24 hours after the removal of AGE-BSA was decreased by (14.6 ± 1.2)% compared with that before the removal,and the degradation rate of AGE-BSA was significantly higher in the AGE-treated non-photoaged group than in the AGE-treated photoaged group (7.6% ± 1.4%,t =6.604,P < 0.05).Conclusion The internalized AGE-degradating ability decreases in photoaged fibroblasts,which may induce the accumulation of AGEs in photoaged skin.
