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Objective To investigate the influence of Fasudil on oxidative stress in patients with early-stage diabetic nephropathy. Methods 48 patients with earl-stage diabetic nephopathy were randomly divided into control group treated with Alpha-lipoic acid and treametn group with Fasudil. All patients were under strict control of blood glucose. Changes in the levels of serum cysc, urinal mALB and 8-OHdG were observed after two weeks treatment were compared between the two groups. Results Compared to pre-treatment, the content of serum cysc, urinal mALB and 8-OHdG were significantly decreased in both groups after treatment. There was no significant difference in the content of urine mAlb , CTGF and MCP-1 between the two groups before and after treatment (P > 0.05). Conclusion Fasudil may protect kidney through a mechanism by which the level of 8-OHdG in kidney is decreased and oxidative stress is alleviated.
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OBJECTIVE: To investigate the effects of human cerebrospinal fluid (CSF) during development phase on migration and differentiation of fetal brain neural stem cells (NSCs).METHODS: Fetal brain cells of gestational age of 16 weeks that were frozen in liquid nitrogen were obtained, resuscitated and incubated in DMEM/F12 medium containing epithium growth factor (EGF), basic fibroblast growth factor (bFGF), B27 and N2. The neurospheres cultured for 14 days were obtained. CSF was absorbed from the subarachnoid cavity and brain ventricle in the embryonic group. CSF was collected by lumbar puncture or ventricular puncture in the child group. The neurospheres cultured for 14 days were transplanted into the pure CSF in an incubator containing 5% CO_2 at 37 ℃. Cellular migration and growth of neurospheres in CSF were observed. Effects of CSF on neural cell differentiation were identified by immunofluorescence. RESULTS: Neural stem cells in the form of neurospheres derived from fetal brain were inoculated into the pure CSF, and cell migration were commonly observed besides few of neurospheres in child CSF culture at 6 hours following culture. Surrounding cells of neurospheres extended processes, forming cell cord that became cell webs after extension. Compared with the embryonic group, positive rate of glial fibrillary acidic protein was significantly increased in the children group (P < 0.01), but positive rates of nerve fiber and nestin were significantly decreased (P < 0.01). In addition, galactocerebroside-positive cells were only found in 3 baby CSF cultures. CONCLUSION: There existed significant affections on both migration and differentiation of human neural stem cells when cultured in pure CSF with different developmental phase, suggesting that CSF is one of major niche factors for central neural system development.
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Objective To investigate the influence of fasudil on the epithelialmesenchymal transdifferentiation of renal tubular epithelial cells in diabetic rats and to explore the mechanism. Methods Wistar mts were randomly divided into three groups:control,diabetes and fasudil-treatment.All the rots were sacrificed after three months of feeding with or without fasudil.Pathological changes of the glomeruli and renal interstitium were studied by periodic acidSchiff'S staining and Masson staining,respectively.Expression of ROCKI,α-SMA,E-cadherin and the distribution of β-catenin was examined by immunohistochemistry.Changes in the MYPT1 phosphorylation profile and α-SMA,E-cadherin and membrane β-catenin expression were detected bv Western blot.Changes in the levels of ROCKI,E-cadherin and total β-eatenin mRNA expression were analyzed by real-time PCR. Results Fasudil treatment notably attenuated renal interstitial fibrosis in diabetic rats.Compared to the control rats.diabetic rats showed an elevated phosphorylation of MYFF1(P<0.01),increased expression of α-SMA(P<0.01),decreased expression of E-cadherin and membrane β-catenin(P<0.01,respectively)and increased expression of ROCKI,total β-catenin mRNA(P<0.01,respectively),decreased expression of E-cadherin mRNA(P<0.01 ). Fasudil treatment for diabetic rats attenuated MYPT1 phosphorylation (P<0.01), decreased α-SMA expression (P<0.01), increased E-cadherin and membrane (β-catenin expression (P<0.01, respectively), and reduced ROCKI, total β-catenin mRNA expression (P <0.01, respectively), increased expression of E-cadherin mRNA (P<0.01). Conclusions Fasudil may reduce the epithelial-mesenchymal transdifferentiation and renal interstitial fibrosis in diabetic rats through the inhibition of ROCK activity. Such effect further facilitates the recovery of the cell-cell adhesion among renal tubular epithelial cells and the formation of adhesion complex.
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AIM: Site-specific functional neurons of brains were with different cellular morphology. It has not been fully understood whether the grafted neural stem cells could differentiate into the site-specific neurons. This experiment is to investigate the neuronal differentiation of the neural stem cells derived from a human fetal brain after transplanted into young rats' brains, to study the possibility of cell-replacement therapy for children's brain disorders with neural stem cells. METHODS: Experiments were performed at the Cell Laboratory of Naval General Hospital from April to July 2007. ①Human fetal brain tissues of 16 week gestation were provided by Department of Gynaecology and Obstetrics of Naval Hospital. Pregnant woman and family members signed an informed consent. Experimental intervention was approved by Hospital Ethical Committee. Fourteen clean brood young SD rats aged 10 days, irrespective of gender, were provided by Experimental Animal Center of Medical College of Peking University. Animal intervention met the animal ethical standards. ②The neural stem cell spheres were derived from the fetal brain tissues of 16 week gestation. The differentiation multipotency of the neurosphere was identified when cultured in a child's cerebrospinal fluid (CSF). The neurospheres cultured in vitro for 14 days were injected into the lateral ventricles of young rats of 10 days old. The rats were respectively killed at days 4, 7 and 14 after transplantation. The special immuno-fluorescent assays were performed using anti-human neurofilament (anti-hNF) to show the location and morphology of graft neurons. RESULTS: ①The typical floating neurospheres were obtained, with the potency to differentiate into neurons, astrocytes and oligodendrocytes. ②The neuronal differentiation of grafts was detected with the mixture of three monoclonal antibodies against human neurofilament. Four days after transplantation, the immune response positive cells lied within the granule cell layer of cerebral cortex were shown in the shape of granule cells, or within the pyramid cell layer in the shape of pyramid cells with long processes, and the interneuron-like cells also were seen. The Purkinje cells arranging in a monolayer were detected in the cerebellum. Compared the results at different time points, the location of grafts were the same. The graft cells were less and the processes were longer over time. CONCLUSION: The in vitro cultured neurosphere cells can migrate into brain tissues and differentiate into site-specific neurons in shape after transplanting into the lateral ventricles of young rats. It is suggested that the host brain tissue microenvironment played an important role in guiding the graft differentiation into neurons. The results have an important significance for understanding cell replacement of developing brain disorders.