Abstract
Collagen has been widely shown to promote osteogenesis of bone marrow mesenchymal stromal cells (BM-MSCs). Due to the invasive procedure of obtaining BM-MSCs, MSCs from other tissues have emerged as a promising alternative for regenerative therapy. MSCs originated from different sources, exhibiting different differentiation potentials. Therefore, the applicability of collagen type I (COL), combining with amniotic membrane (AM)-MSCs was examined through proliferation and differentiation assays together with the expression of surface markers and genes associated with stemness and differentiation under basal or induction conditions. No increase in cell growth was observed because AM-MSCs might be directed toward spontaneous osteogenesis. This was evidenced by the calcium deposition and elevated expression of osteogenic genes when AM-MSCs were cultured in collagen plate with basal media. Under the osteogenic condition, reciprocal expression of OCN and CEBPA suggested a shift toward adipogenesis. Surprisingly, adipogenic genes were not elevated upon adipogenic induction, although oil droplets deposition was observed. In conclusion, our findings demonstrated that collagen causes spontaneous osteogenesis in AM-MSCs. However, the presence of exogenous inductors could shift the direction of adipo-osteogenic gene regulatory network modulated by collagen.
Highlights
Mesenchymal stromal cells (MSCs) have been traditionally isolated from the bone marrow
Due to its invasive and painful procedure for the donor, MSCs derived from adult tissues such as adipose, amniotic membrane (AM), umbilical cord (UC) have been used as alternative sources for tissue engineering and regenerative medicine
We further investigated whether collagen influences lineage commitment of AM-MSCs in the presence of exogenous inductors or without
Summary
Mesenchymal stromal cells (MSCs) have been traditionally isolated from the bone marrow. Due to its invasive and painful procedure for the donor, MSCs derived from adult tissues such as adipose, amniotic membrane (AM), umbilical cord (UC) have been used as alternative sources for tissue engineering and regenerative medicine. Besides that, they have less ethical constraints, more accessible and low immunogenicity [1]. Collagen type 1, a protein abundantly found in the extracellular matrix has been broadly shown to promote proliferation, survival, adhesion and osteogenesis in bone marrow MSCs [5,6]. The effects of collagen on other MSCs such as AM-MSCs are not well studied
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