Evidence of inter‐ and intra‐keloid heterogeneity through analysis of dermal fibroblasts: A new insight in deciphering keloid physiopathology

瘢痕疙瘩 网状真皮 真皮 成纤维细胞 真皮乳头状 病理 增生性瘢痕 疤痕 网状结缔组织 伤口愈合 人口 生物 医学 细胞培养 免疫学 遗传学 环境卫生
作者
Kévin Serror,Lauren Ferrero,Françoise Boismal,M. Sintès,Manuel Théry,Benoît Vianay,Émilie Henry,David Gentien,Pierre de la Grange,David Boccara,Maurice Mimoun,Jean‐David Bouaziz,Armand Benssussan,Laurence Michel
出处
期刊:Experimental Dermatology [Wiley]
卷期号:32 (7): 1096-1107 被引量:13
标识
DOI:10.1111/exd.14817
摘要

Keloid scars are hypertrophic and proliferating pathological scars extending beyond the initial lesion and without tendency to regression. Usually, keloids are considered and treated as a single entity but clinical observations suggest heterogeneity in keloid morphologies with distinction of superficial/extensive and nodular entities. Within a keloid, heterogeneity could also be detected between superficial and deep dermis or centre and periphery. Focusing on fibroblasts as main actors of keloid formation, we aimed at evaluating intra- and inter-keloid fibroblast heterogeneity by analysing their gene expression and functional capacities (proliferation, migration, traction forces), in order to improve our understanding of keloid pathogenesis. Fibroblasts were obtained from centre, periphery, papillary and reticular dermis from extensive or nodular keloids and were compared to control fibroblasts from healthy skin. Transcriptional profiling of fibroblasts identified a total of 834 differentially expressed genes between nodular and extensive keloids. Quantification of ECM-associated gene expression by RT-qPCR brought evidence that central reticular fibroblasts of nodular keloids are the population which synthesize higher levels of mature collagens, TGFβ, HIF1α and αSMA as compared to control skin, suggesting that this central deep region is the nucleus of ECM production with a centrifuge extension in keloids. Although no significant variations were found for basal proliferation, migration of peripheral fibroblasts from extensive keloids was higher than that of central ones and from nodular cells. Moreover, these peripheral fibroblasts from extensive keloids exhibited higher traction forces than central cells, control fibroblasts and nodular ones. Altogether, studying fibroblast features demonstrate keloid heterogeneity, leading to a better understanding of keloid pathophysiology and treatment adaptation.
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