Investigating the function of combining induced rat monocytes-derived bone marrow-haemopoietic stem cell (rat BM-HSCs) with LPS and rat bone marrow-mesenchymal stem cell (rat BM-MSCs) was to analyze the acceleration o...Investigating the function of combining induced rat monocytes-derived bone marrow-haemopoietic stem cell (rat BM-HSCs) with LPS and rat bone marrow-mesenchymal stem cell (rat BM-MSCs) was to analyze the acceleration of homing process mechanism in injured pancreas. Mononucleated stem cells were isolated from aspirated whole rat BM using ficoll and cultured in α-MEM complete growth medium in 10 cm petridish. After two days, adherent cells after washing twice in petridish were added α-MEM growth medium and then mesenchymal cells were characterized using CD105 marker in third passage and labeled PKH26. Then haemopoietic stem cells (HSCs) were isolated with magnetic beads CD34+ and differentiated in vitro, and then induced monocytes with LPS. Animal experiment used 28 male Wistar rats, and divided them into 4 groups. After transplantation combined, both cells between monocyte derived HSc (mHSCs) and rat BM-MSC were analyzed expression of pair box gen 4 (Pax4), pancreatic and duodenal homeobox (Pdx1), C-peptide using immunohistochemistry, then secretion of insulin and C-peptide analyzed using indirect ELISA. Results showed that the expressions of Pax4, Pdx1, C-peptide found in the surface membrane cell of pancreatic cell, and secreted C-peptide and insulin were shown significant (P < 0.05) in transplanted group 2, 3 and 4, but in group 3 were transplanted with combined cells more dominant than non-combined cells. Conclusions suggested that combining of induced monocytes-derived HSCs and rat BM-MSCs has accelerated homing MSCs into injured pancreatic tissue.展开更多
MiRNAs and macrophages play important roles in renal fibrosis.The exosomes secreted by bone marrow mesenchymal stem cells(BM-MSCs)can alleviate renal fibrosis.What is not clear,however,is whether a type of miRNAs in t...MiRNAs and macrophages play important roles in renal fibrosis.The exosomes secreted by bone marrow mesenchymal stem cells(BM-MSCs)can alleviate renal fibrosis.What is not clear,however,is whether a type of miRNAs in the BM-MSCs exosomes can alleviate renal fibrosis by modulating macrophage polarization.First,we take a high-throughput sequencing of miRNAs in exosomes of BM-MSCs from chronic kidney disease(CKD)and normal people.Then we used the UUO mouse model and injected exosomes into the tail vein.The macrophages were stimulated with lipopolysaccharide(LPS).MSC-Exo or exosomes from BM-MSCs transfected with miR-93-5p inhibitor(Inhi-Exo)were added to the culture medium.The macrophages were transfected with miR-93-5p inhibitor or miR-93-5p mimic alone.The expression of miR-93-5p in exosomes of CKD patients was significantly decreased compared with normal people and in the LPS-stimulated macrophages and UUO mice kidneys.After stimulation with LPS,the macrophages polarized toward M1 subtype.MSC-Exo or miR-93-5p mimic promoted macrophages from M1 to M2 subtype.Inhi-Exo or miR-93-5p inhibitor blocked the differentiation from M1 to M2 subtype.Significant fibrotic changes occurred in the kidneys of UUO mice,and M1 macrophages were significantly increased.After injecting exosomes into the tail vein of UUO mice,the degree of renal fibrosis was alleviated,the expression of miR-93-5p in the kidney was significantly increased,and the renal macrophages differentiated from M1 to M2 subtype.These results demonstrated that miR-93-5p in the exosomes derived from BM-MSCs can improve renal fibrosis by inducing macrophage differentiation from M1 to M2 subtype.展开更多
Background:Adult stem cells have a remarkable capacity of differentiating into various cell types necessary for tissue and organ regeneration.Multiple studies have focused on the differentiation potential of mesenchym...Background:Adult stem cells have a remarkable capacity of differentiating into various cell types necessary for tissue and organ regeneration.Multiple studies have focused on the differentiation potential of mesenchymal stem cells(MSCs),however little is known about the molecular characteristics of MSCs and their progenies obtained from donors of different ages.In this study,we analyzed publicly available sequencing data obtained from young(~22-year-old,n=8)and older(~65.5-year-old,n=8)donors of MSCs and their differentiated counterparts:osteocytes,chondrocytes and tenocytes.The raw mRNA and small RNA(non-coding RNA)sequencing data was downloaded from NIH BioProjects and systematically analyzed in order to identify uniquely expressed genes in MSC-derived osteocytes,chondrocytes and tenocytes of younger and older people.Results:We identified many commonly up-and downregulated genes are similar in both groups.However,the young group displayed a greater variety of differentially expressed genes in all analyzed MSC-derived cells.This discrepancy in gene expression profiles between younger and older groups may indicate a greater differentiation potential of MSCs isolated from younger donors.miRNA and mRNA integrated analysis showed key miRNAs that regulate mRNAs in both groups from all differentiated lineages.Conclusions:Our analysis provides additional information to previously reported data for identification of MSC markers of plasticity and engraftment.In addition,our data may shed light upon the molecular mechanisms of age-associated musculoskeletal diseases caused by a decreased capacity of MSCs to regenerate the locomotor system in elderly people.展开更多
This study aimed to assess the effect of hesperetin and/or bone marrow-derived mesenchymal stem cells(BM-MSCs)on disturbed lipid profile,heart and kidney functions,oxidative stress and antioxidant defense system in st...This study aimed to assess the effect of hesperetin and/or bone marrow-derived mesenchymal stem cells(BM-MSCs)on disturbed lipid profile,heart and kidney functions,oxidative stress and antioxidant defense system in streptozotocin(STZ)-induced diabetic rats.Type 1 diabetes mellitus(T1DM)was induced in male Wistar rats by injecting 40 mg/kg body weight(b.w.)STZ dissolved in citrate buffer(pH 4.5).The diabetic rats were treated with hesperetin orally administered at dose 20 mg/kg b.w.,BM-MSCs intravenously injected at a dose of 1 x 106 cells/rat/week and their combination for 6 weeks.The diabetic rats exhibited lipid abnormalities manifested by elevated serum levels of total cholesterol,triglycerides,LDL-cholesterol and VLDL-cholesterol and lowered HDL-cholesterol as well as elevated liver cholesterol and triglycerides content in association with the resultant fasting and postprandial hyperglycemia and insulin deficiency.The heart function biomarkers including CK-MB,AST and LDH activities as well as levels of kidney function parameters,creatinine,and urea,were significantly raised in the serum of diabetic rats.These changes were concomitant with abnormal redox balance represented by elevated lipid peroxidation,decreased glutathione content,and suppressed antioxidant enzyme activities in both heart and kidney of diabetic rats.The previous deleterious alterations were significantly ameliorated after the treatment of diabetic rats with hesperetin and BM-MSCs singly or in combination;the treatment with hesperetin together with BM-MSCs was the most potent.Based on these findings,it can be concluded that the use of hesperetin with BM-MSCs may have more additive therapeutic value than their uses singly in T1DM.In addition,the ameliorative effects of hesperetin and BM-MSCs on lipid profile and heart and kidney functions in diabetic rats may be mediated,at least in part,via their suppressive effects on oxidative stress and ameliorative effects on the antioxidant defense system secondary to improvement in the hyperglycemia and insulin secretory response.展开更多
Mesenchymal stromal cells (MSCs) can be obtained from several sources and the significant differences in their properties make it crucial to investigate the differentiation potential of MSCs from different sources to ...Mesenchymal stromal cells (MSCs) can be obtained from several sources and the significant differences in their properties make it crucial to investigate the differentiation potential of MSCs from different sources to determine the optimal source of MSCs. We investigated if this biological heterogeneity in MSCs from different sources results in different mechanisms for their differentiation. In this study, we compared the gene expression patterns of phenotypically defined MSCs derived from three ontogenically different sources: Embryonic stem cells (hES-MSCs), Fetal limb (Flb-MSCs) and Bone Marrow (BM-MSCs). Differentially expressed genes between differentiated cells and undifferentiated controls were compared across the three MSC sources. We found minimal overlap (5% - 16%) in differentially expressed gene sets among the three sources. Flb-MSCs were similar to BM-MSCs based on differential gene expression patterns. Pathway analysis of the differentially expressed genes using Ingenuity Pathway Analysis (IPA) revealed a large variation in the canonical pathways leading to MSC differentiation. The similar canonical pathways among the three sources were lineage specific. The Flb-MSCs showed maximum overlap of canonical pathways with the BM-MSCs, indicating that the Flb-MSCs are an intermediate source between the less specialised hES-MSC source and the more specialised BM-MSC source. The source specific pathways prove that MSCs from the three ontogenically different sources use different biological pathways to obtain similar differentiation outcomes. Thus our study advocates the understanding of biological pathways to obtain optimal sources of MSCs for various clinical applications.展开更多
This study explored the novel strategy of hypoxic preconditioning of Bone Marrow Mesenchymal Stem Cells (BM-MSCs) before intra vitreal transplantation to improve neuroprotective effects of Retinal Ganglion Cells (RGCs...This study explored the novel strategy of hypoxic preconditioning of Bone Marrow Mesenchymal Stem Cells (BM-MSCs) before intra vitreal transplantation to improve neuroprotective effects of Retinal Ganglion Cells (RGCs) in Acute Glaucoma Models. The methods of this research were isolated mesenchymal stem cells from the bone marrow of adult wild-type Sprague-Dawley (SD) rats. BM-MSCs were cultured under normoxic or hypoxic (1% oxygen for 24 hours) conditions. Normoxic or hypoxic BM-MSCs were transplanted intravitreally 1 week after ocular hypertension induction by acutely increasing IOP to 100 - 120 mmHg for 60 minutes. Rats were killed 4 weeks after transplanted. Apoptosis was examined by tunnel assay and expression Brn3b (Brn3b = RGCs marker) by immunohistochemical analysis of the retina. Results showed that transplantation of hypoxic preconditioning BM-MSCs in acute glaucoma models resulted in a significant apoptosis decreasing (p < 0.05) and an significant increasing in RGCs (p < 0.05), as well as enhanced mor-phologic and functional benefits of stem cell therapy versus normoxic BM-MSCs transplantation. Conclusions: Hypoxic preconditioning enhances the capacity of BM-MSCs transplantation to improve neuroprotective effects of RGCs in Acute Glaucoma Models.展开更多
Objective:To explore the mechanism of acupoint injection of bone marrow mesenchymal stem cells(BM-MSCs) in improving blood flow in the rat with hind limb ischemia.Methods:Twenty-four SD rats were randomly divided into...Objective:To explore the mechanism of acupoint injection of bone marrow mesenchymal stem cells(BM-MSCs) in improving blood flow in the rat with hind limb ischemia.Methods:Twenty-four SD rats were randomly divided into 4 groups:normal control group(n=6),model group(n=6),BM-MSCs acupoint injection group(AI group,n=6) and BM-MSC intramuscular injection group(MI group,n=6).Sanyinjiao(SP 6),Housanli(ST 36),Zhaohai(KI 6),Huantiao(GB 30) and Yanglingquan(GB 34) were selected for the AI group,and five non-acupoints were selected on gastrocnemius and adductor of ischemic hind limbs in the MI group.BM-MSCs were injected to the latter two groups.The rat hind limb ischemia model was established with the method of blocking the femoral artery and its branches.Three weeks after injection of BM-MSCs,in each group,hindlimb adductor and gastrocnemius were taken from the ischemic side.Expressions of vascular endothelial growth factor(VEGF) and transfer growth factor-β1(TGF-β1) in the skeletal muscle were determined with immunohistochemical method,and the small arteries in the skeletal muscle were labeled with α-SMA immunohistochemical staining method,the density of small arteries(number of arterioles /number of muscle fibers) and the number of the blood vessel with VEGF positive expression were calculated.The serum levels of VEGF and nitric oxide(NO) were detected.Results:Compared with the model group,the expression of VEGF and TGF-β1,and the density of small arteries and the number of VEGF-positive blood vessels in the AI group and the MI group significantly increased(both P<0.01).Compared with the MI group,the density of small arteries and the number of VEGF-positive blood vessels in the AI group significantly increased(both P<0.01);Compared with the model group and the normal control group,the serum expression quantity of NO and VEGF in the AI group and the MI group were significantly increased(P<0.01).Conclusions:Acuppoint injection of BM-MSCs secrets more VEGF,TGF-β1 and NO to increase angiogenesis and arteriogenesis,so as to improve blood flow of the rats of hind limb ischemic.展开更多
文摘Investigating the function of combining induced rat monocytes-derived bone marrow-haemopoietic stem cell (rat BM-HSCs) with LPS and rat bone marrow-mesenchymal stem cell (rat BM-MSCs) was to analyze the acceleration of homing process mechanism in injured pancreas. Mononucleated stem cells were isolated from aspirated whole rat BM using ficoll and cultured in α-MEM complete growth medium in 10 cm petridish. After two days, adherent cells after washing twice in petridish were added α-MEM growth medium and then mesenchymal cells were characterized using CD105 marker in third passage and labeled PKH26. Then haemopoietic stem cells (HSCs) were isolated with magnetic beads CD34+ and differentiated in vitro, and then induced monocytes with LPS. Animal experiment used 28 male Wistar rats, and divided them into 4 groups. After transplantation combined, both cells between monocyte derived HSc (mHSCs) and rat BM-MSC were analyzed expression of pair box gen 4 (Pax4), pancreatic and duodenal homeobox (Pdx1), C-peptide using immunohistochemistry, then secretion of insulin and C-peptide analyzed using indirect ELISA. Results showed that the expressions of Pax4, Pdx1, C-peptide found in the surface membrane cell of pancreatic cell, and secreted C-peptide and insulin were shown significant (P < 0.05) in transplanted group 2, 3 and 4, but in group 3 were transplanted with combined cells more dominant than non-combined cells. Conclusions suggested that combining of induced monocytes-derived HSCs and rat BM-MSCs has accelerated homing MSCs into injured pancreatic tissue.
基金This work was supported by Science and Technology Project of Nantong City(MS 22020009).
文摘MiRNAs and macrophages play important roles in renal fibrosis.The exosomes secreted by bone marrow mesenchymal stem cells(BM-MSCs)can alleviate renal fibrosis.What is not clear,however,is whether a type of miRNAs in the BM-MSCs exosomes can alleviate renal fibrosis by modulating macrophage polarization.First,we take a high-throughput sequencing of miRNAs in exosomes of BM-MSCs from chronic kidney disease(CKD)and normal people.Then we used the UUO mouse model and injected exosomes into the tail vein.The macrophages were stimulated with lipopolysaccharide(LPS).MSC-Exo or exosomes from BM-MSCs transfected with miR-93-5p inhibitor(Inhi-Exo)were added to the culture medium.The macrophages were transfected with miR-93-5p inhibitor or miR-93-5p mimic alone.The expression of miR-93-5p in exosomes of CKD patients was significantly decreased compared with normal people and in the LPS-stimulated macrophages and UUO mice kidneys.After stimulation with LPS,the macrophages polarized toward M1 subtype.MSC-Exo or miR-93-5p mimic promoted macrophages from M1 to M2 subtype.Inhi-Exo or miR-93-5p inhibitor blocked the differentiation from M1 to M2 subtype.Significant fibrotic changes occurred in the kidneys of UUO mice,and M1 macrophages were significantly increased.After injecting exosomes into the tail vein of UUO mice,the degree of renal fibrosis was alleviated,the expression of miR-93-5p in the kidney was significantly increased,and the renal macrophages differentiated from M1 to M2 subtype.These results demonstrated that miR-93-5p in the exosomes derived from BM-MSCs can improve renal fibrosis by inducing macrophage differentiation from M1 to M2 subtype.
文摘Background:Adult stem cells have a remarkable capacity of differentiating into various cell types necessary for tissue and organ regeneration.Multiple studies have focused on the differentiation potential of mesenchymal stem cells(MSCs),however little is known about the molecular characteristics of MSCs and their progenies obtained from donors of different ages.In this study,we analyzed publicly available sequencing data obtained from young(~22-year-old,n=8)and older(~65.5-year-old,n=8)donors of MSCs and their differentiated counterparts:osteocytes,chondrocytes and tenocytes.The raw mRNA and small RNA(non-coding RNA)sequencing data was downloaded from NIH BioProjects and systematically analyzed in order to identify uniquely expressed genes in MSC-derived osteocytes,chondrocytes and tenocytes of younger and older people.Results:We identified many commonly up-and downregulated genes are similar in both groups.However,the young group displayed a greater variety of differentially expressed genes in all analyzed MSC-derived cells.This discrepancy in gene expression profiles between younger and older groups may indicate a greater differentiation potential of MSCs isolated from younger donors.miRNA and mRNA integrated analysis showed key miRNAs that regulate mRNAs in both groups from all differentiated lineages.Conclusions:Our analysis provides additional information to previously reported data for identification of MSC markers of plasticity and engraftment.In addition,our data may shed light upon the molecular mechanisms of age-associated musculoskeletal diseases caused by a decreased capacity of MSCs to regenerate the locomotor system in elderly people.
文摘This study aimed to assess the effect of hesperetin and/or bone marrow-derived mesenchymal stem cells(BM-MSCs)on disturbed lipid profile,heart and kidney functions,oxidative stress and antioxidant defense system in streptozotocin(STZ)-induced diabetic rats.Type 1 diabetes mellitus(T1DM)was induced in male Wistar rats by injecting 40 mg/kg body weight(b.w.)STZ dissolved in citrate buffer(pH 4.5).The diabetic rats were treated with hesperetin orally administered at dose 20 mg/kg b.w.,BM-MSCs intravenously injected at a dose of 1 x 106 cells/rat/week and their combination for 6 weeks.The diabetic rats exhibited lipid abnormalities manifested by elevated serum levels of total cholesterol,triglycerides,LDL-cholesterol and VLDL-cholesterol and lowered HDL-cholesterol as well as elevated liver cholesterol and triglycerides content in association with the resultant fasting and postprandial hyperglycemia and insulin deficiency.The heart function biomarkers including CK-MB,AST and LDH activities as well as levels of kidney function parameters,creatinine,and urea,were significantly raised in the serum of diabetic rats.These changes were concomitant with abnormal redox balance represented by elevated lipid peroxidation,decreased glutathione content,and suppressed antioxidant enzyme activities in both heart and kidney of diabetic rats.The previous deleterious alterations were significantly ameliorated after the treatment of diabetic rats with hesperetin and BM-MSCs singly or in combination;the treatment with hesperetin together with BM-MSCs was the most potent.Based on these findings,it can be concluded that the use of hesperetin with BM-MSCs may have more additive therapeutic value than their uses singly in T1DM.In addition,the ameliorative effects of hesperetin and BM-MSCs on lipid profile and heart and kidney functions in diabetic rats may be mediated,at least in part,via their suppressive effects on oxidative stress and ameliorative effects on the antioxidant defense system secondary to improvement in the hyperglycemia and insulin secretory response.
文摘Mesenchymal stromal cells (MSCs) can be obtained from several sources and the significant differences in their properties make it crucial to investigate the differentiation potential of MSCs from different sources to determine the optimal source of MSCs. We investigated if this biological heterogeneity in MSCs from different sources results in different mechanisms for their differentiation. In this study, we compared the gene expression patterns of phenotypically defined MSCs derived from three ontogenically different sources: Embryonic stem cells (hES-MSCs), Fetal limb (Flb-MSCs) and Bone Marrow (BM-MSCs). Differentially expressed genes between differentiated cells and undifferentiated controls were compared across the three MSC sources. We found minimal overlap (5% - 16%) in differentially expressed gene sets among the three sources. Flb-MSCs were similar to BM-MSCs based on differential gene expression patterns. Pathway analysis of the differentially expressed genes using Ingenuity Pathway Analysis (IPA) revealed a large variation in the canonical pathways leading to MSC differentiation. The similar canonical pathways among the three sources were lineage specific. The Flb-MSCs showed maximum overlap of canonical pathways with the BM-MSCs, indicating that the Flb-MSCs are an intermediate source between the less specialised hES-MSC source and the more specialised BM-MSC source. The source specific pathways prove that MSCs from the three ontogenically different sources use different biological pathways to obtain similar differentiation outcomes. Thus our study advocates the understanding of biological pathways to obtain optimal sources of MSCs for various clinical applications.
文摘This study explored the novel strategy of hypoxic preconditioning of Bone Marrow Mesenchymal Stem Cells (BM-MSCs) before intra vitreal transplantation to improve neuroprotective effects of Retinal Ganglion Cells (RGCs) in Acute Glaucoma Models. The methods of this research were isolated mesenchymal stem cells from the bone marrow of adult wild-type Sprague-Dawley (SD) rats. BM-MSCs were cultured under normoxic or hypoxic (1% oxygen for 24 hours) conditions. Normoxic or hypoxic BM-MSCs were transplanted intravitreally 1 week after ocular hypertension induction by acutely increasing IOP to 100 - 120 mmHg for 60 minutes. Rats were killed 4 weeks after transplanted. Apoptosis was examined by tunnel assay and expression Brn3b (Brn3b = RGCs marker) by immunohistochemical analysis of the retina. Results showed that transplantation of hypoxic preconditioning BM-MSCs in acute glaucoma models resulted in a significant apoptosis decreasing (p < 0.05) and an significant increasing in RGCs (p < 0.05), as well as enhanced mor-phologic and functional benefits of stem cell therapy versus normoxic BM-MSCs transplantation. Conclusions: Hypoxic preconditioning enhances the capacity of BM-MSCs transplantation to improve neuroprotective effects of RGCs in Acute Glaucoma Models.
基金supported by the TCM Technology Project of Beijing (No.JJ2007-026)
文摘Objective:To explore the mechanism of acupoint injection of bone marrow mesenchymal stem cells(BM-MSCs) in improving blood flow in the rat with hind limb ischemia.Methods:Twenty-four SD rats were randomly divided into 4 groups:normal control group(n=6),model group(n=6),BM-MSCs acupoint injection group(AI group,n=6) and BM-MSC intramuscular injection group(MI group,n=6).Sanyinjiao(SP 6),Housanli(ST 36),Zhaohai(KI 6),Huantiao(GB 30) and Yanglingquan(GB 34) were selected for the AI group,and five non-acupoints were selected on gastrocnemius and adductor of ischemic hind limbs in the MI group.BM-MSCs were injected to the latter two groups.The rat hind limb ischemia model was established with the method of blocking the femoral artery and its branches.Three weeks after injection of BM-MSCs,in each group,hindlimb adductor and gastrocnemius were taken from the ischemic side.Expressions of vascular endothelial growth factor(VEGF) and transfer growth factor-β1(TGF-β1) in the skeletal muscle were determined with immunohistochemical method,and the small arteries in the skeletal muscle were labeled with α-SMA immunohistochemical staining method,the density of small arteries(number of arterioles /number of muscle fibers) and the number of the blood vessel with VEGF positive expression were calculated.The serum levels of VEGF and nitric oxide(NO) were detected.Results:Compared with the model group,the expression of VEGF and TGF-β1,and the density of small arteries and the number of VEGF-positive blood vessels in the AI group and the MI group significantly increased(both P<0.01).Compared with the MI group,the density of small arteries and the number of VEGF-positive blood vessels in the AI group significantly increased(both P<0.01);Compared with the model group and the normal control group,the serum expression quantity of NO and VEGF in the AI group and the MI group were significantly increased(P<0.01).Conclusions:Acuppoint injection of BM-MSCs secrets more VEGF,TGF-β1 and NO to increase angiogenesis and arteriogenesis,so as to improve blood flow of the rats of hind limb ischemic.
