ObjectiveTo evaluate the therapeutic effect of transplantation of mesenchymal stem cells(MSCs) through the spleen for acute live failure in rat, and to observe migration of transplanted MSCs in vivo. MethodsOne male SD rat was sacrificed to collect MSCs, and MSCs were isolated, expanded, and purified by density gradient centrifugation combined with adhere culture method. The surface antigen expressions of MSCs in the fourth generation were detected by immunohistochemistry method. Twenty-four female rats were given D-galactosamine and tumor necrosis factor α(TNF-α) to establish models of acute liver failure, and then divided into experimental group and blank control group, each group enrolled 12 rats. MSCs of male rat were transplanted into the spleen of female acute liver failure rats in experimental group at 24 hours after model establishment, but rats of blank control group were injected saline(0.5 mL). After the MSCs transplantation, blood samples of rats in 2 groups were got to test levels of serum alanine aminotransferase (ALT), total bilirubin(TBIL), and albumin(ALB). PCR method was used to determine the expression of sex determining region Y gene(SRY gene), and HE staining was used to observe the pathological change of liver tissues of rats in 2 groups. ResultsThe MSCs of the fourth generation expressed CD44 and CD29, but didn't express CD34. There were 5(41.7%) and 3 rats(25.0%) survived at 72 hours, in 1 week and 2 weeks after MSCs transplantation in experimental group and blank control group, respectively, and the survival rate was higher in experimental group(P<0.05). The expression of SRY mRNA was detected in rats of experimental group, as well as the damage of liver tissues in rats of experimental group improved. Compared with blank control group, the levels of ALT and TBIL were lower in experimental group at all time points after MSCs transplantation(P<0.05), but in 1 week and 2 weeks after MSCs transplantation, the levels of ALB in experimental group were higher(P<0.05). ConclusionMSCs can migrate to liver tissue, settle down, and exert the function of replacing hepatocyte after it has been transplanted into the spleen.
ObjectiveThe optimal target of deep brain stimulation (DBS) for treating intractable epilepsy is still undefined. Cumulative studies suggest that the mediodorsal thalamic nucleus (MD) is involved in seizure activity, the purpose of this study was to investigate the effect of high frequency stimulation in MD on pentylenetetrazole (PTZ)-induced seizures in rats. MethodsThe experimental rats (Male Sprague-Dawley rats 280-350 g) were all provided by Experimental Animal Center, Zhejiang Academy of Medical Science, Hangzhou, China. The rats were given unilateral or bilateral stimulation of the MD at 100 Hz (HFS group) and sham stimulation, others were given unilateral stimulation of the MD at 1 Hz (LFS group). EEGs in the cortex and seizure behavior were recorded with the Neuroscan system at the same time. ResultsNeither LFS nor HFS of the MD changed the latency to the first spikes or EEG manifestations for stage 3 and stage 5 seizures; animals receiving unilateral or bilateral HFS of the MD decreased the number of stage 5 EEG seizure synchronized with the convulsive episodes; LFS and sham stimulation showed multiple periods of continuous spikes which accompanied stage 5 or stage 4 seizures. HFS of unilateral or bilateral MD, but not LFS, decreased the seizure stage, the number of clonic movement episodes, and the duration of acute PTZ-induced seizures. The average latency to onset of myoclonic jerks did not differ among groups. Unilateral and bilateral HFS of the MD had a similar antiepileptic effect. ConclusionHFS of the MD may be of value as a new antiepileptic approach for patients with generalized epilepsy, besides, the seizure model, should be fully considered in clinical application.
ObjectiveTo investigate the anti-apoptotic ability of synovium-derived mesenchymal stem cells (SMSCs) by comparing the apoptosis induced by tumor necrosis factor α (TNF-α) between SMSCs and bone marrow mesenchymal stem cells (BMSCs). MethodSMSCs and BMSCs were isolated with tissue adhering and density gradient centrifugation respectively, and cells at passages 3-5 were used in further experiments. After immunophenotype identification and differentiation induction, cells were divided into 4 groups. In the experimental groups, apoptosis of SMSCs and BMSCs were induced by 20 ng/mL TNF-α and 10 μg/mL cycloheximide, and cells were cultured in normal culture medium in the control groups. Cellular morphology were observed by inverted phase contrast microscope. After apoptosis induction for 24 hours, cell viability was determined by cell counting kit 8 assay and apoptotic index was detected by flow cytometer. Moreover, the level of Cleaved Caspase-8, 3 were determined by Western blot. ResultsBoth SMSCs and BMSCs accorded with the definition criteria of MSCs according to results of immunophenotype identification and differentiation induction. After apoptosis induction, cells became shrinking and partially floated and cellular morphologies became worse than those in the control groups. After apoptosis induction for 24 hours, cell viabilities of SMSCs and BMSCs in the control groups were both 100%, and no apoptotic cells were observed. However, cell viabilities of SMSCs and BMSCs in the experimental groups were 60.13%±8.63% and 46.55%±10.54% respectively, which were both significantly lower than those in the control groups (P<0.05) , and cell viability in the SMSCs experimental group was significantly higher than that in the BMSCs experimental group (t=3.152, P=0.006) . The apoptotic index was 36.54%±8.63% in the SMSCs experimental group and was 53.77%±11.52% in the BMSCs experimental group, both were significantly higher than the control groups (1.12%±0.24% and 1.35%±0.31%) (P<0.05) . What's more, it was significantly lower in SMSCs experimental group than that in BMSCs experimental group (t=3.785, P=0.001) . Moreover, no expression of Cleaved Caspase-8, 3 was detected in the control groups. But the levels of Cleaved Caspase-8, 3 were significantly enhanced in the experimental groups and they were lower in SMSCs than in BMSCs (t=13.870, P=0.000; t=7.309, P=0.000) . ConclusionsTNF-α induced apoptosis is lower in SMSCs than in BMSCs, which means that SMSCs may have stronger anti-apoptosis ability than BMSCs.