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To investigate the effects of metformin on pancreatic β-cell function and its possible mechanism, high fat diet-induced type 2 diabetic C57BL/6J mice were divided into two groups according to fasting blood glucose (FBG), glucose decreasing rate at 40 min of insulin tolerance test, triglycerides (TG), cholesterol (CHO) and body weight (BW). The C57 mice were gavaged with water or metformin for 58 days. β-Cell function was evaluated by oral glucose tolerance test and hyperglycemic clamp. Genes and proteins related to pancreas proliferation, lipid metabolism and endoplasmic reticulum stress were investigated. Compared with the model group, metformin group exhibited a reduction in the body weight (PPPPPPdx-1, Pβ (Lxr-β, PPPP<0.05) were also down-regulated. These results suggest that metformin could improve the insulin secretion function of type 2 diabetic C57BL/6J mice. The mechanism of the action may rely on its improvement of pancreas cell proliferation, lipid metabolism and amelioration of endoplasmic reticulum stress.
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Objective To study the regulatory effects of miR-21 on breast cancer cell line proliferation and invasion as well as the downstream target genes. Methods Breast cancer cell lines MCF-7 were cultured and transfected with miR-21 mimics and the corresponding negative control mimics (NC mimics), and then MTS kits were used to detect cell viability. Transwell experiment was used to detect cell invasion ability, and fluorescence quantitative PCR was used to detect the expression of proliferation and invasion-related genes in cells. Results 24 h after transfection of miR-21 mimics and NC mimics, cell OD value and the number of invasive cells of miR-21 group were significantly higher than those of NC group, and mRNA contents of PDCD-4, FasL, PTEN, RhoB, Maspin, TIMP3 and RECK in cells were significantly lower than those of NC group. Conclusion miR-21 can promote the proliferation and invasion of breast cancer cell lines, and its downstream target genes include PDCD-4, FasL, PTEN, RhoB, Maspin, TIMP3 and RECK.
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OBJECTIVE@#To study the regulatory effects of miR-21 on breast cancer cell line proliferation and invasion as well as the downstream target genes.@*METHODS@#Breast cancer cell lines MCF-7 were cultured and transfected with miR-21 mimics and the corresponding negative control mimics (NC mimics), and then MTS kits were used to detect cell viability. Transwell experiment was used to detect cell invasion ability, and fluorescence quantitative PCR was used to detect the expression of proliferation and invasion-related genes in cells.@*RESULTS@#24 h after transfection of miR-21 mimics and NC mimics, cell OD value and the number of invasive cells of miR-21 group were significantly higher than those of NC group, and mRNA contents of PDCD-4, FasL, PTEN, RhoB, Maspin, TIMP3 and RECK in cells were significantly lower than those of NC group.@*CONCLUSION@#miR-21 can promote the proliferation and invasion of breast cancer cell lines, and its downstream target genes include PDCD-4, FasL, PTEN, RhoB, Maspin, TIMP3 and RECK.
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<p><b>OBJECTIVE</b>To investigate whether plasma from patients with systemic lupus erythematosus (SLE) inhibits the suppressive effects of mesenchymal stem cells (MSCs) on lupus B lymphocytes.</p><p><b>METHODS</b>MSCs isolated and expanded from the bone marrow of healthy donors were co-cultured with B cells purified from the peripheral blood of SLE patients in the presence of fetal bovine serum or pooled plasma from SLE patients, and the proliferation and maturation of the B lymphocytes were analyzed.</p><p><b>RESULTS</b>s Co-culture with normal MSCs obviously inhibited the proliferation of lupus B cells and suppressed the maturation of B lymphocytes, which showed lowered expressions of CD27 and CD38. The pooled plasma from SLE patients significantly inhibited the suppressive effects of normal MSCs on B cell proliferation and maturation.</p><p><b>CONCLUSION</b>Plasma from SLE patients negatively modulates the effects of normal MSCs in suppressing lupus B cell proliferation and maturation to affect the therapeutic effect of MSC transplantation for treatment of SLE. Double filtration plasmapheresis may therefore prove beneficial to enhance the therapeutic effects of MSC transplantation for SLE.</p>