OBJECTIVE:To investigate the combinatorial effects of Naomai Yihao(NMYH) Capsules(脑脉一号胶囊) and vascular endothelial growth factor(VEGF) gene-transfected bone marrow mesenchymal stem cells(BMSCs) on angiogenesis i...OBJECTIVE:To investigate the combinatorial effects of Naomai Yihao(NMYH) Capsules(脑脉一号胶囊) and vascular endothelial growth factor(VEGF) gene-transfected bone marrow mesenchymal stem cells(BMSCs) on angiogenesis in cerebral ischemic tissues in rats and the mechanism.METHOD:BMSCs were isolated and cultured from bone marrow by an adherence method.Then,BMSCs were transfected with the eukaryotic expression plasmid pEGFP-VEGF 165 by positive ionic liposome transfection.A rat model of middle cerebral artery occlusion(MCAO) was established.Rats were allocated to six groups:model,BMSC,VEGF gene-transfected BMSC transplantation(BMSC/VEGF),NMYH,combined NMYH and BMSC/VEGF(combined treatment group) and sham operation groups.The behavioral rating score(BRS) of rat and the expression of CD34 and VEGF in brain tis sue were measured by immunohistochemistry on days 7,14 and 21 after reperfusion.Angiogenesi was observed and evaluated with laser scanning confocal microscopy.RESULTS:The BRS of rats in NMYH,BMSC transplan tation and combined treatment groups was significantly lower than that of the model group(P< 0.001),with no significant difference between NMYH and transplantation groups(P=0.619).The expression of CD34 andVEGF in NMYH,transplanta tion and combined treatment groups increased(P< 0.001),with a significant difference between NMYH and transplantation groups(P<0.001).The blood vessel area in NMYH,transplantation and com bined treatment groups was significantly increased(P<0.05),without a significant difference between NMYH and transplantation groups(P=0.873).CONCLUSIONS:VEGF gene-transfected BMSCs im prove angiogenesis in the cerebral ischemic area NMYH Capsules promote angiogenesis in MCAO rats treated with BMSC transplantation,which show an improved BRS.The mechanism of angio genesis may be related to up-regulation ofVEGF ex pression.展开更多
OBJECTIVE: To explore the effect of kidney-rein- forcing, blood-activating and stasis-removing recipes on adhesion molecule expression of bone mar- row mesenchymal stem cells (MSCs) from patients with chronic aplas...OBJECTIVE: To explore the effect of kidney-rein- forcing, blood-activating and stasis-removing recipes on adhesion molecule expression of bone mar- row mesenchymal stem cells (MSCs) from patients with chronic aplastic anemia (CAA). METHODS: We used three Traditional Chinese Medicine recipes, namely a kidney-reinforcing recipe (KRR), blood-activating and stasis-removing recipe (BASRR), and kidney-reinforcing, blood-activating and stasis-removing recipe (KRBASFIR), and a nor- mal saline control to prepare herbal medicine se- rum in Sprague Dawley rats. Thirty CAA patients were enrolled in the experimental group, including 17 kidney-Yang deficient patients and 13 kidney-Yin deficient patients. Ten healthy individuals were included in the control group. MSCs were isolated from bone marrow samples, and the cell density was observed to measure their proliferation ability by microscopy on days 2, 7, and 14 after isolation. In addition, the expression of adhesion molecules of bone marrow MSCs (CD106, CD49d, CD31 and CD44) were detected by flow cytometry after 48 h of treatment with the four different herbal medi- cine serums. RESULTS: The proliferation of MSCs from kid- ney-Yang deficient and kidney-Yin deficient pa- tients was weaker than that of MSCs from the con- trol group. The expression of all adhesion mole- cules of bone marrow MSCs from CAA patients was obviously lower than that in the control group (P〈 0.01). The expression of CD49d and CD31 in MSCs from patients with a kidney-Yin deficiency was low- er than in those with a kidney-yang deficiency (P〈 0.05 and P〈O.01, respectively). For kidney-Yang defi- cient patients, CD31 expression in the KRBASRR group was significantly higher than that in the BASRR group (P〈O.01), while CD44 in the KRBASRR group was significantly higher than that in both KRR and BASRR groups (P〈O.01). For kidney-Yin defi- cient patients, CD106 and CD49d expression in the KRBASRR group was obviously higher than that in the KRR group (P〈0.05), while CD31 and CD44 ex- pression in the KRBASRR group was significantly higher than that in both KRR and BASRR groups (P〈 0.05 and P〈0.01, respectively). CONCLUSION: The bone marrow microenviron- ment in CAA patients is abnormal. The effect of KRBASRR may be better than that of KRR and BASRR for kidney-Yang deficient and kidney-Yin de- ficient patients by improving the expression levels of MSC adhesion molecules.展开更多
P-15, a synthetic peptide of 15-amino acids, has been tested in clinical trials to enhance cell adhesion and promote osseointe-gration. This feature of P-15 has also inspired the development of designing new bone subs...P-15, a synthetic peptide of 15-amino acids, has been tested in clinical trials to enhance cell adhesion and promote osseointe-gration. This feature of P-15 has also inspired the development of designing new bone substitute materials. Despite the increasing applications of P-15 in bone graft alternatives, few studies focus on the mechanism of cell adhesion promoted by P-15 and the mechanical property changes of the cells interacting with P-15. In this article, we used atomic force microscope(AFM) based single cell indentation force spectroscopy to study the impact of P-15 on the stiffness and the adhesion ability of human jaw bone mesenchymal stem cells(HJMSCs) to hydroxyapatite(HA). We found that the stiffness of HJMSCs increases as the concentration of P-15 grows in short culture intervals and that the adhesion forces between HJMSCs and HA particles in both the presence and absence of P-15 are all around 30 p N. Moreover, by calculating the binding energy of HJMSCs to HA particles mixed with and without P-15, we proved that P-15 could increase the adhesion energy by nearly four times. Scanning electron microscope(SEM) was also exploited to study the morphology of HJMSCs cultured in the presence and absence of P-15 on HA disc surface for a short term. Apparent morphological differences were observed between the cells cultured with and without P-15. These results explain the probable underlying adhesion mechanism of HJMSC promoted by P-15 and can serve as the bases for the design of bone graft substitute materials.展开更多
基金Supported by the Research Fund for the Doctoral Program of Higher Education of China (No.20070572004,20104425120009)Guangdong Natural Science Fund(No.06301402)Traditional Chinese Medicine Master Education Program of Tongji University (Sponsored by State Ad-ministration of Traditional Chinese Medicine of the People'sRepublic of China,No:[2008]185)
文摘OBJECTIVE:To investigate the combinatorial effects of Naomai Yihao(NMYH) Capsules(脑脉一号胶囊) and vascular endothelial growth factor(VEGF) gene-transfected bone marrow mesenchymal stem cells(BMSCs) on angiogenesis in cerebral ischemic tissues in rats and the mechanism.METHOD:BMSCs were isolated and cultured from bone marrow by an adherence method.Then,BMSCs were transfected with the eukaryotic expression plasmid pEGFP-VEGF 165 by positive ionic liposome transfection.A rat model of middle cerebral artery occlusion(MCAO) was established.Rats were allocated to six groups:model,BMSC,VEGF gene-transfected BMSC transplantation(BMSC/VEGF),NMYH,combined NMYH and BMSC/VEGF(combined treatment group) and sham operation groups.The behavioral rating score(BRS) of rat and the expression of CD34 and VEGF in brain tis sue were measured by immunohistochemistry on days 7,14 and 21 after reperfusion.Angiogenesi was observed and evaluated with laser scanning confocal microscopy.RESULTS:The BRS of rats in NMYH,BMSC transplan tation and combined treatment groups was significantly lower than that of the model group(P< 0.001),with no significant difference between NMYH and transplantation groups(P=0.619).The expression of CD34 andVEGF in NMYH,transplanta tion and combined treatment groups increased(P< 0.001),with a significant difference between NMYH and transplantation groups(P<0.001).The blood vessel area in NMYH,transplantation and com bined treatment groups was significantly increased(P<0.05),without a significant difference between NMYH and transplantation groups(P=0.873).CONCLUSIONS:VEGF gene-transfected BMSCs im prove angiogenesis in the cerebral ischemic area NMYH Capsules promote angiogenesis in MCAO rats treated with BMSC transplantation,which show an improved BRS.The mechanism of angio genesis may be related to up-regulation ofVEGF ex pression.
基金Supported by 2011 Zhejiang province key science and technology innovation team(No.2011R09042-02)Special Item of Important Disease of Zhejiang Province TCM Sci-Tech Innovation Platform(No.2009ZDJB01,2009ZDJB01-08)
文摘OBJECTIVE: To explore the effect of kidney-rein- forcing, blood-activating and stasis-removing recipes on adhesion molecule expression of bone mar- row mesenchymal stem cells (MSCs) from patients with chronic aplastic anemia (CAA). METHODS: We used three Traditional Chinese Medicine recipes, namely a kidney-reinforcing recipe (KRR), blood-activating and stasis-removing recipe (BASRR), and kidney-reinforcing, blood-activating and stasis-removing recipe (KRBASFIR), and a nor- mal saline control to prepare herbal medicine se- rum in Sprague Dawley rats. Thirty CAA patients were enrolled in the experimental group, including 17 kidney-Yang deficient patients and 13 kidney-Yin deficient patients. Ten healthy individuals were included in the control group. MSCs were isolated from bone marrow samples, and the cell density was observed to measure their proliferation ability by microscopy on days 2, 7, and 14 after isolation. In addition, the expression of adhesion molecules of bone marrow MSCs (CD106, CD49d, CD31 and CD44) were detected by flow cytometry after 48 h of treatment with the four different herbal medi- cine serums. RESULTS: The proliferation of MSCs from kid- ney-Yang deficient and kidney-Yin deficient pa- tients was weaker than that of MSCs from the con- trol group. The expression of all adhesion mole- cules of bone marrow MSCs from CAA patients was obviously lower than that in the control group (P〈 0.01). The expression of CD49d and CD31 in MSCs from patients with a kidney-Yin deficiency was low- er than in those with a kidney-yang deficiency (P〈 0.05 and P〈O.01, respectively). For kidney-Yang defi- cient patients, CD31 expression in the KRBASRR group was significantly higher than that in the BASRR group (P〈O.01), while CD44 in the KRBASRR group was significantly higher than that in both KRR and BASRR groups (P〈O.01). For kidney-Yin defi- cient patients, CD106 and CD49d expression in the KRBASRR group was obviously higher than that in the KRR group (P〈0.05), while CD31 and CD44 ex- pression in the KRBASRR group was significantly higher than that in both KRR and BASRR groups (P〈 0.05 and P〈0.01, respectively). CONCLUSION: The bone marrow microenviron- ment in CAA patients is abnormal. The effect of KRBASRR may be better than that of KRR and BASRR for kidney-Yang deficient and kidney-Yin de- ficient patients by improving the expression levels of MSC adhesion molecules.
基金Nanjing Medical Transformation Center and the Project of the Nanjing Foundation for Development of Science and Technology(Grant No.201303024)
文摘P-15, a synthetic peptide of 15-amino acids, has been tested in clinical trials to enhance cell adhesion and promote osseointe-gration. This feature of P-15 has also inspired the development of designing new bone substitute materials. Despite the increasing applications of P-15 in bone graft alternatives, few studies focus on the mechanism of cell adhesion promoted by P-15 and the mechanical property changes of the cells interacting with P-15. In this article, we used atomic force microscope(AFM) based single cell indentation force spectroscopy to study the impact of P-15 on the stiffness and the adhesion ability of human jaw bone mesenchymal stem cells(HJMSCs) to hydroxyapatite(HA). We found that the stiffness of HJMSCs increases as the concentration of P-15 grows in short culture intervals and that the adhesion forces between HJMSCs and HA particles in both the presence and absence of P-15 are all around 30 p N. Moreover, by calculating the binding energy of HJMSCs to HA particles mixed with and without P-15, we proved that P-15 could increase the adhesion energy by nearly four times. Scanning electron microscope(SEM) was also exploited to study the morphology of HJMSCs cultured in the presence and absence of P-15 on HA disc surface for a short term. Apparent morphological differences were observed between the cells cultured with and without P-15. These results explain the probable underlying adhesion mechanism of HJMSC promoted by P-15 and can serve as the bases for the design of bone graft substitute materials.
