Objective To investigate the effects of transcranial magnetic stimulation(TMS)combined with human umbilical cord mesen-chymal stem cells(hUC-MSCs)on ferroptosis following spinal cord injury(SCI)in rats.Methods Allen percussion was used to estab-lish the SCI model.A total of 60 SD rats were randomly divided into sham,SCI,TMS,hUC-MSC,and TMS+hUC-MSC groups,with 12 rats in each group.Motor function was evaluated using the Basso-Beattie-Bresnahan(BBB)score.Spinal cord tissues were sampled and stained with hematoxylin and eosin(HE)as well as Nissl to observe tissue damage as well as the changes in neurons and Nissl bodies,respectively.The colorimetric method was used to detect the contents of ferrous ions(Fe2+)and reduced glutathione(GSH).Transmission electron microscopy was applied to observe the ultrastructure of the mitochondria.Western blotting was performed to detect the expres-sion levels of SLC7A11,GPX4,and ACSL4.Results The SCI group had lower BBB scores,higher Fe2+and ACSL4 protein expression levels,and lower GSH,SLC7A11,and GPX4 protein expression levels than the sham group(P<0.05).The mitochondrial cristae reduced with membrane shrinkage,neuronal damage was severe,and Nissl bodies were absent in the SCI group.The TMS,hUC-MSC,and TMS+hUC-MSC groups had higher BBB scores,lower Fe2+and ACSL4 protein expression levels,and higher GSH,SLC7A11,and GPX4 protein expression levels than the SCI group(P<0.05).The mitochondrial cristae increased with an intact membrane structure,the pathological damage was attenuated,neuronal morphology was restored,and Nissl bodies were clearly visible in TMS,hUC-MSC,and TMS+hUC-MSC groups.Conclusion TMS combined with hUC-MSC inhibits ferroptosis through activating the SLC7A11/GSH/GPX4 pathway,alleviates secondary injury after SCI,and promotes functional recovery and neural remodeling in rats.

Objective To investigate the effects of transcranial magnetic stimulation(TMS)combined with human umbilical cord mesen-chymal stem cells(hUC-MSCs)on ferroptosis following spinal cord injury(SCI)in rats.Methods Allen percussion was used to estab-lish the SCI model.A total of 60 SD rats were randomly divided into sham,SCI,TMS,hUC-MSC,and TMS+hUC-MSC groups,with 12 rats in each group.Motor function was evaluated using the Basso-Beattie-Bresnahan(BBB)score.Spinal cord tissues were sampled and stained with hematoxylin and eosin(HE)as well as Nissl to observe tissue damage as well as the changes in neurons and Nissl bodies,respectively.The colorimetric method was used to detect the contents of ferrous ions(Fe2+)and reduced glutathione(GSH).Transmission electron microscopy was applied to observe the ultrastructure of the mitochondria.Western blotting was performed to detect the expres-sion levels of SLC7A11,GPX4,and ACSL4.Results The SCI group had lower BBB scores,higher Fe2+and ACSL4 protein expression levels,and lower GSH,SLC7A11,and GPX4 protein expression levels than the sham group(P<0.05).The mitochondrial cristae reduced with membrane shrinkage,neuronal damage was severe,and Nissl bodies were absent in the SCI group.The TMS,hUC-MSC,and TMS+hUC-MSC groups had higher BBB scores,lower Fe2+and ACSL4 protein expression levels,and higher GSH,SLC7A11,and GPX4 protein expression levels than the SCI group(P<0.05).The mitochondrial cristae increased with an intact membrane structure,the pathological damage was attenuated,neuronal morphology was restored,and Nissl bodies were clearly visible in TMS,hUC-MSC,and TMS+hUC-MSC groups.Conclusion TMS combined with hUC-MSC inhibits ferroptosis through activating the SLC7A11/GSH/GPX4 pathway,alleviates secondary injury after SCI,and promotes functional recovery and neural remodeling in rats.

Objective To develop a suitable medium and optimize culture time for the primary osteoblast culture from suckling mouse,so to provide an improved experimental protocol for primary osteoblast culture in vitro.Meth-ods Primary osteoblasts were collected from skull of CD1 suckling mouse by interrupted enzyme digestion.The pu-rified osteoblasts were harvested by differential centrifugation.The incubation time,concentration of fetal bovine se-rum(FBS),β-glycerophosphate sodium and dexamethasone were tested and optimized.The change of osteoblast maturation marker was examined by Western blot(WB)and immunofluorescence staining(IF).The osteogenic ac-tivity was determined by alkaline phosphatase staining,alizarin red staining and ultrastructure.Results Primary osteoblast were obtained from sucleling mouse skull bone by interrupted enzyme digestion for proliferation and trans-generational expansion.The expression of osteoblast maturation markers was parallel to the time of induction culture and the concentration of FBS.Mature osteoblasts were obtained by culturing the cells with 10％ FBS for 14 days.The differentiation of primary osteoblasts was induced by different concentrations of β-glycerophosphate and dexam-ethasone.The results showed that the expression of osteoblast maturation markers was higher under the culture con-ditions of 10 mmol/L β-glycerophosphate and 5 nmol/L dexamethasone(P<0.01),and the staining of alkaline phosphatase and alizarin red was obvious,and the osteogenic activity was better too.Conclusions Primary osteo-blasts isolated from the skull of suckling CD1 mice cultured in induction medium containing 10％fetal bovine ser-um,10 mmol/L β-glycerophosphate sodium and 5 nmol/L dexamethasone for 14 days show good osteogenic activity and are suitable for in vitro experimental studies.

The etiology of central nervous system(CNS)diseases is complex and mostly unknown,and patients are often left with sequelae and poor prognosis.Recently,ferroptosis has emerged as a unique oxidative stress-induced cell death pathway and is important in various CNS diseases.It is an important mode of neuronal cell death.This article summarizes the molecular mechanism of ferroptosis,research progress of ferroptosis in CNS diseases,and application of ferroptosis inhibitors in CNS diseases to provide new targets and clini-cal references for CNS disease treatment.

[ ABSTRACT] AIM: To investigate the expression and significance of Leucine-rich repeat-containing G-protein-coupled receptor 5 (Lgr5) in chronic superficial gastritis.METHODS:The Wistar rats (n=30) were randomly divided into blank group, model group and control group.The Wistar rat model of chronic superficial gastritis was established by in-tragastric administration of 0.02%ammonia and long-term irregular diet.All rats were sacrificed, and gastric tissues were harvested and stained with hematoxylin and eosin.The expression of Lgr5 at mRNA and protein levels was analyzed by re-verse transcriptional polymerase chain reaction, Western blotting and immunohistochemistry.RESULTS:Lgr5 was mainly expressed in the cell membrane and cytoplasm.Lgr5 showed high expression in model group compared with blank group and control group.No obvious difference between blank group and control group was observed.CONCLUSION:Persistent in-flammation leads to increased expression of Lgr5.Lgr5 may be a proinflammatory tumor promoting factor.

This study sought to probe into the mechanism of spontaneous contraction of portal vein. The morphological and electrophysiological characteristics of the freshly isolated interstitial cells (ICs) of rabbit portal vein were investigated by using immunohistochemical and conventional whole-cell patch clamp techniques. The isolated interstitial cells exhibited stellate-shaped or spindle-shaped bodies with a variable number of thin processes projecting from cell bodies, and these cells were noted to be c-Kit immunopositive. Under conventional whole-cell patch clamp configuration, the membrane potential was held at -60 mV, the spontaneous rhythmic inward currents were recorded in ICs, and the frequencies of which were similar to those of spontaneous contraction of portal vein. The inward currents were insensitive to nicardipine (an L-type calcium channel blocker) but could be abolished by gadolinium (a non-selective cation channel blocker). The results suggested that the spontaneous rhythmic inward currents recorded in freshly isolated ICs may be pacemaker currents which elicit the spontaneous contraction of portal vein.
Action Potentials ; Animals ; Electrophysiology ; Female ; Interstitial Cells of Cajal ; physiology ; Male ; Muscle, Smooth, Vascular ; physiology ; Periodicity ; Portal Vein ; cytology ; physiology ; Rabbits ; Transient Receptor Potential Channels ; metabolism

AIM: To investigate the role of cellular paracrine in the mechanism of cardiomyocyte hypertrophy induced by stretch. METHODS: [ 3H]-leu incorporation into cultured cardiomyocytes was measured when stimulated by conditioned-media of myocardial fibroblast and microvascular endothelial cell after stretch. RESULTS: [ 3H]-leu incorporation rate were both elevated significantly stimulated by conditioned-media of myocardial fibroblast and microvascular endothelial cell. And angiotensin II and endothelin of conditioned-media of myocardial fibroblast and microvascular endothelial cell were also elevated significantly. And [ 3H]-leu incorporation rate were inhibited significantly when the specific angiotensin II and endothelin receptor antagonist losartan(1 ?mol/L) and BQ123(1 ?mol/L) were added. [ 3H]-leu incorporation rate were inhibited over 80% when losartan(1 ?mol/L) and BQ123(1 ?mol/L) were added together. CONCLUSION: The activation of myocardial fibroblast and microvascular endothelial cell endocrine stimulated by stretch play a role through paracrine in the pathogenesis of pressure-overload heart hypertrophy.