AIM: Postnatal mesenchymal stem cell (MSC)-like cells have previously been isolated and ex vivo-expanded from healthy gingival tissues. The aim of this research was to isolate and characterize MSC-like cells from inflamed gingival tissues and determine whether they retain the characteristics of MSC-like cells from healthy gingival tissues. MATERIALS & METHODS: Fifteen clonal lines of MSC-like cells from three healthy gingival tissues (GMSC-H) and fifteen from three inflamed gingival tissues (GMSC-I) were generated. Bulk-cultured cell lines from healthy and inflamed gingival tissues were also established. In vitro and in vivo characterization studies of GMSC-Is were performed relative to GMSC-Hs. RESULTS: The incidence of clonogenic colony forming units-fibroblast was comparable between healthy and inflamed gingival tissues. GMSC-H and GMSC-I clones expressed MSC-associated markers CD44, CD73, CD90, CD105 and CD166. While the population doubling capacity of GMSC-Is was reduced compared with GMSC-Hs, both populations displayed a similar capacity to undergo osteogenic, adipogenic and chondrogenic differentiation in vitro. Following subcutaneous implantation in NOD/SCID mice, both GMSC-Hs and GMSC-Is formed dense connective tissue-like structures in vivo resembling natural gingival tissue. CONCLUSION: MSC-like populations exist within inflamed gingival tissue that are functionally equivalent to MSC-like cells derived from healthy gingival tissue. Given the relative abundance of inflamed gingival tissue and ease of accessibility, MSC-like cells from inflamed gingival tissues represent a newly identified population of postnatal stem cells with immense potential in tissue engineering applications.
AIM: Postnatal mesenchymal stem cell (MSC)-like cells have previously been isolated and ex vivo-expanded from healthy gingival tissues. The aim of this research was to isolate and characterize MSC-like cells from inflamed gingival tissues and determine whether they retain the characteristics of MSC-like cells from healthy gingival tissues. MATERIALS & METHODS: Fifteen clonal lines of MSC-like cells from three healthy gingival tissues (GMSC-H) and fifteen from three inflamed gingival tissues (GMSC-I) were generated. Bulk-cultured cell lines from healthy and inflamed gingival tissues were also established. In vitro and in vivo characterization studies of GMSC-Is were performed relative to GMSC-Hs. RESULTS: The incidence of clonogenic colony forming units-fibroblast was comparable between healthy and inflamed gingival tissues. GMSC-H and GMSC-I clones expressed MSC-associated markers CD44, CD73, CD90, CD105 and CD166. While the population doubling capacity of GMSC-Is was reduced compared with GMSC-Hs, both populations displayed a similar capacity to undergo osteogenic, adipogenic and chondrogenic differentiation in vitro. Following subcutaneous implantation in NOD/SCIDmice, both GMSC-Hs and GMSC-Is formed dense connective tissue-like structures in vivo resembling natural gingival tissue. CONCLUSION: MSC-like populations exist within inflamed gingival tissue that are functionally equivalent to MSC-like cells derived from healthy gingival tissue. Given the relative abundance of inflamed gingival tissue and ease of accessibility, MSC-like cells from inflamed gingival tissues represent a newly identified population of postnatal stem cells with immense potential in tissue engineering applications.
Authors: Phuc Van Pham; Nga Yen Tran; Nhan Lu-Chinh Phan; Ngoc Bich Vu; Ngoc Kim Phan Journal: In Vitro Cell Dev Biol Anim Date: 2015-10-20 Impact factor: 2.416