Objective Melanoblasts are the cell source of regeneration for pigment restoration.The ability to differentiate into mature melanocytes is the essential feature of melanoblasts in depigmentation diseases.Cold atmosphe...Objective Melanoblasts are the cell source of regeneration for pigment restoration.The ability to differentiate into mature melanocytes is the essential feature of melanoblasts in depigmentation diseases.Cold atmospheric plasma is an ionized gas with near-room temperature and highly reactive species that has been shown to induce stem cell differentiation.The aim of the study was to explore the effect of cold atmospheric plasma on the differentiation of melanoblast progenitor cells.Methods In this study,melanoblasts were exposed to the plasma jet and the cell morphology was observed.The cell cycle and cell proliferation were detected.Furthermore,the cell immunofluorescence and the detection of melanin particle and nitric oxide were carried out to investigate the differentiation of melanoblast progenitor cells.Results Cells that were treated with the plasma had longer and more synaptic structures,and the G1 phase of cell cycle was prolonged in the treated group.More melanin synthesis-related proteins and melanin particles were produced after plasma treatment.Nitric oxide was one of the active components generated by the plasma jet,and the nitric oxide content in the cell culture medium of the treated group increased.Conclusion These results indicate that an increase in nitric oxide production caused by a plasma jet can promote cell differentiation.The application of plasma provides an innovative strategy for the treatment of depigmentation diseases.展开更多
Melanoblasts originating from neural crest cells can migrate through the mesenchyme of the developed embryo and give rise to melanocytes.Unlike the melanocytes that are confined to the integument in other vertebrates,...Melanoblasts originating from neural crest cells can migrate through the mesenchyme of the developed embryo and give rise to melanocytes.Unlike the melanocytes that are confined to the integument in other vertebrates,melanocytes in Silky Fowl can reach the ventral regions of the embryos owing to differences in gene expression in the process of melanoblasts migration.In this study,we used microarray profiling to identify differences in gene expression between White Leghorn and Silky Fowl.Differential expression of 2517 microarray probes(P<0.01,Fold Change>2)was observed in Silky Fowl compared to White Leghorn.After filtration by cluster analysis,functional annotation and pathway analysis,eight differentially expressed genes were identified to be closely related to the development of melanocytes.Moreover,differences in expression of immune genes were also detected between Silky Fowl and White Leghorn.The differentially expressed genes associated with melanocyte development were verified by q-PCR,and results were highly consistent with the microarray data.The genes with significantly altered expression involved in melanoblast migration and development suggested that different microenvironments resulted in the abnormal melanoblast migration in Silky Fowl,although there were no big differences in melanoblast development between these two breeds.The candidate genes discovered in this study are beneficial to understand the molecular mechanism of hyperpigmentation in Silky Fowl.展开更多
文摘Objective Melanoblasts are the cell source of regeneration for pigment restoration.The ability to differentiate into mature melanocytes is the essential feature of melanoblasts in depigmentation diseases.Cold atmospheric plasma is an ionized gas with near-room temperature and highly reactive species that has been shown to induce stem cell differentiation.The aim of the study was to explore the effect of cold atmospheric plasma on the differentiation of melanoblast progenitor cells.Methods In this study,melanoblasts were exposed to the plasma jet and the cell morphology was observed.The cell cycle and cell proliferation were detected.Furthermore,the cell immunofluorescence and the detection of melanin particle and nitric oxide were carried out to investigate the differentiation of melanoblast progenitor cells.Results Cells that were treated with the plasma had longer and more synaptic structures,and the G1 phase of cell cycle was prolonged in the treated group.More melanin synthesis-related proteins and melanin particles were produced after plasma treatment.Nitric oxide was one of the active components generated by the plasma jet,and the nitric oxide content in the cell culture medium of the treated group increased.Conclusion These results indicate that an increase in nitric oxide production caused by a plasma jet can promote cell differentiation.The application of plasma provides an innovative strategy for the treatment of depigmentation diseases.
基金supported by Natural Science Foundation of China(31472082,30771535)the National High-tech R&D Program of China(2013AA102501).
文摘Melanoblasts originating from neural crest cells can migrate through the mesenchyme of the developed embryo and give rise to melanocytes.Unlike the melanocytes that are confined to the integument in other vertebrates,melanocytes in Silky Fowl can reach the ventral regions of the embryos owing to differences in gene expression in the process of melanoblasts migration.In this study,we used microarray profiling to identify differences in gene expression between White Leghorn and Silky Fowl.Differential expression of 2517 microarray probes(P<0.01,Fold Change>2)was observed in Silky Fowl compared to White Leghorn.After filtration by cluster analysis,functional annotation and pathway analysis,eight differentially expressed genes were identified to be closely related to the development of melanocytes.Moreover,differences in expression of immune genes were also detected between Silky Fowl and White Leghorn.The differentially expressed genes associated with melanocyte development were verified by q-PCR,and results were highly consistent with the microarray data.The genes with significantly altered expression involved in melanoblast migration and development suggested that different microenvironments resulted in the abnormal melanoblast migration in Silky Fowl,although there were no big differences in melanoblast development between these two breeds.The candidate genes discovered in this study are beneficial to understand the molecular mechanism of hyperpigmentation in Silky Fowl.
