Objective To explore the glycation of basic fibroblast grow th factor( bFGF) in diabetic skin.Methods The abdom inal full-thickness skin tissues from 58 patients( 29 diabetic and 29 non-diabetic) aged 40 to69 years an...Objective To explore the glycation of basic fibroblast grow th factor( bFGF) in diabetic skin.Methods The abdom inal full-thickness skin tissues from 58 patients( 29 diabetic and 29 non-diabetic) aged 40 to69 years and granulation tissues from 15 patients( 8 diabetic and 7 non-diabetic) aged 50 to 59 were analyzed.The proportion of advanced glycation end products( AGEs)-b FG F intotal b FGF was measured with co-immunoprecipitation and the histological characteristics of wound skin were detected with hem atoxylin and eosin staining. The cell viability, apoptosis, and angiogenesis of human derm al m icrovascular endothelial cells( HDMECs) after exposure to AG Es-b FG For bFGF were measured with cell counting kit-8, flow cytom etry,and tube form ation assay, respectively. Results The proportion of AG Es-b FG F in total b FG F showed agedependent increaseboth in diabetic and non-diabetic skin. As com pared with non-diabetic skin, the constituent ratio in diabetic skin increased significantly in the equal age-group, and the same result could be obtained in granulation tissues from patients aged 50 to 59. The proportion of AG Es-b FG F in diabetic granulation was low er than that in diabetic skin from patients aged 50 to 59. H istological analysis show ed few er vessels in diabetic skin wound. In vitro, the viability and vascularization of H D M EC s were promoted by b FG F and inhibited after exposure to AGEs-bFGF for 7d. Conclusion The present study indicates that one cause for im paired wound healing in diabetic skin could be the glycated b FG F and its changed angiogenic function.展开更多
基金National Natural Science Foundation of China(81071568,81272111)National Science and Technology Support Plan(2012BAI11B00)
文摘Objective To explore the glycation of basic fibroblast grow th factor( bFGF) in diabetic skin.Methods The abdom inal full-thickness skin tissues from 58 patients( 29 diabetic and 29 non-diabetic) aged 40 to69 years and granulation tissues from 15 patients( 8 diabetic and 7 non-diabetic) aged 50 to 59 were analyzed.The proportion of advanced glycation end products( AGEs)-b FG F intotal b FGF was measured with co-immunoprecipitation and the histological characteristics of wound skin were detected with hem atoxylin and eosin staining. The cell viability, apoptosis, and angiogenesis of human derm al m icrovascular endothelial cells( HDMECs) after exposure to AG Es-b FG For bFGF were measured with cell counting kit-8, flow cytom etry,and tube form ation assay, respectively. Results The proportion of AG Es-b FG F in total b FG F showed agedependent increaseboth in diabetic and non-diabetic skin. As com pared with non-diabetic skin, the constituent ratio in diabetic skin increased significantly in the equal age-group, and the same result could be obtained in granulation tissues from patients aged 50 to 59. The proportion of AG Es-b FG F in diabetic granulation was low er than that in diabetic skin from patients aged 50 to 59. H istological analysis show ed few er vessels in diabetic skin wound. In vitro, the viability and vascularization of H D M EC s were promoted by b FG F and inhibited after exposure to AGEs-bFGF for 7d. Conclusion The present study indicates that one cause for im paired wound healing in diabetic skin could be the glycated b FG F and its changed angiogenic function.
