In vivo studies showed that dendritic cell (DC) dysfunction occurred in tumor microenvironment. As tumors were composed of many kinds of cells, the direct effects of tumor cells on immature DCs (imDCs) are needed for further studies in vitro. In the present study, bone marrow-derived imDCs were incubated with lymphoma, hepatoma and menaloma cells in vitro and surface molecules in imDCs were determined by flow cytometry. Then, imDCs incubated with tumor cells or control imDCs were further pulsed with tumor lysates and then incubated with splenocytes to perform mixed lymphocyte reaction. The DC-dependent tumor antigen-specific T cell proliferation, and IL-12 secretion were determined by flow cytometry, and enzyme-linked immunosorbent assay respectively.
Bone marrow mesenchymal stem cells (BMSCs) can treat osteoporosis. Whether GNAS affects BMSCs osteogenic differentiation under high glucose condition is unknown. Rat BMSCs were isolated and randomly divided into control group, high glucose group and GNAS group. The BMSCs were transfected
with GNAS plasmid in high glucose environment followed by analysis of GNAS expression by Real time PCR and Western blot, BMSCs proliferation by MTT assay, Caspase 3 activity, ALP activity, formation of calcified nodules by alizarin red staining, OC and BMP-2 expression by Real time PCR and
expression of ERK/P38 signaling pathway protein by Western blot. In high glucose environment, GNAS expression was significantly decreased, cell proliferation was inhibited, Caspase 3 activity was increased, along with decreased ALP activity, calcified nodules formation and expression of OC,
BMP-2, p-ERK1/2 and p-P38 (P < 0.05). GNAS plasmid transfected into high glucose environment BMSCs can significantly promote GNAS expression and cell proliferation, decrease Caspase 3 activity, increase p-ERK1/2 and p-P38 expression, ALP activity and calcified nodules formation as
well as increase OC and BMP-2 expression (P < 0.05). GNAS1 expression is decreased in BMSCs cells in a high glucose environment. Overexpression of GNAS1 can inhibit the apoptosis of BMSCs by regulating the ERK/P38 signaling pathway, promote its proliferation and differentiation into
osteogenic direction.
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