Phenotypes and characteristics of human skin-derived precursors / 中国组织工程研究

ABSTRACT

BACKGROUND:Human skin-derived precursors can be cultured for a long term in vitro, and differentiated into neurons, glial cel s, smooth muscle cel s, Schwann cel s and cel s with peripheral neurons phenotype. OBJECTIVE:To investigate the culture conditions and multiple differentiation capacity of multipotential stem cel s from human skin, especial y the potentials of differentiating into neurons and osteoblasts. METHODS:Human skin-derived precursor cel s were cultured with trypsin digestion method, and identified with immunocytochemistry. Cel s at passages 3-4 were induced to differentiate into neurons and osteoblasts, and underwent von Kossa staining protocol for calcium, chondrocyte induction, toluidine blue staining, immunohistochemical staining and Sudan black staining. The expression of nestin, vimentin,βIII-tubulin, S100 and col agen II in the human skin-derived precursors was detected. RESULTS AND CONCLUSION:The human skin-derived precursor cel s cultured with trypsin digestion method could proliferate and form suspending spheres, and nestin positive cel s were detected at any time point of the culture. Al the cultured cel s expressed vimentin, and some adherent cel s expressedβIII-tubulin. Human skin-derived precursor cel s were induced with Salvia miltiorrhiza to differentiate into neuron-like cel s, and expressed marker of nerve cel s. Skin-derived precursors could be induced to differentiate into osteoblasts and von Kossa staining displayed black calcified nodules in the culture dish. Skin-derived precursors could also be induced to differentiate into chondrocytes, and toluidine blue staining was strongly positive, and some cel s expressed col agen II, which suggested that, the differentiated cel s contained chondrocytes. Experimental findings indicate that, skin contains multipotential stem cel s that are capable of differentiating into osteoblasts, chondrocytes, Schwann cel s and oligodendrocytes.