Background:The effect of platelet factor 4(PF4)on bone marrow mesenchymal stem cells(BMMSCs)and osteoporosis is poorly understood.Therefore,this study aimed to evaluate the effects of PF4-triggered bone destruction in...Background:The effect of platelet factor 4(PF4)on bone marrow mesenchymal stem cells(BMMSCs)and osteoporosis is poorly understood.Therefore,this study aimed to evaluate the effects of PF4-triggered bone destruction in mice and determine the underlying mechanism.Methods:First,in vitro cell proliferation and cell cycle of BMMSCs were assessed using a CCK8 assay and flow cytometry,respectively.Osteogenic differentiation was confirmed using staining and quantification of alkaline phosphatase and Alizarin Red S.Next,an osteoporotic mouse model was established by performing bilateral ovariectomy(OVX).Furthermore,the PF4 concentrations were obtained using enzymelinked immunosorbent assay.The bone microarchitecture of the femur was evaluated using microCT and histological analyses.Finally,the key regulators of osteogenesis and pathways were investigated using quantitative real-time polymerase chain reaction and Western blotting.Results:Human PF4 widely and moderately decreased the cell proliferation and osteogenic differentiation ability of BMMSCs.Furthermore,the levels of PF4 in the serum and bone marrow were generally increased,whereas bone microarchitecture deteriorated due to OVX.Moreover,in vivo mouse PF4 supplementation triggered bone deterioration of the femur.In addition,several key regulators of osteogenesis were downregulated,and the integrinα5-focal adhesion kinase-extracellular signalregulated kinase(ITGA5-FAK-ERK)pathway was inhibited due to PF4 supplementation.Conclusions:PF4 may be attributed to OVX-i nduced bone loss triggered by the suppression of bone formation in vivo and alleviate BMMSC osteogenic differentiation by inhibiting the ITGA5-FAK-ERK pathway.展开更多
AIM: To elucidate the role of fibulin-5(FBLN-5) as a suppressor of hepatocellular carcinoma(HCC) cell metastasis via integrin.METHODS: The expression of FBLN-5 was determined by immunohistochemistry in 140 HCC samples...AIM: To elucidate the role of fibulin-5(FBLN-5) as a suppressor of hepatocellular carcinoma(HCC) cell metastasis via integrin.METHODS: The expression of FBLN-5 was determined by immunohistochemistry in 140 HCC samples and matched normal tissues, and was further confirmed by RT-PCR and Western blot analyses in various cell lines. Recombinant FBLN-5 was expressed in Escherichia coli BL21(DE3), purified and used in cell attachment assays. Expression of a specific plasmid or a specific si RNA in HCC cells resulted in the overexpression or knockdown of FBLN-5, respectively. Further, the migration and invasion of HCC cells were investigated using the Boyden chamber and transwell assays. The concentration of secreted matrix metalloproteinase 7(MMP-7) was determined using ELISA. RESULTS: FBLN-5 expression was found to be downregulated in HCC. Its expression was significantly correlated with advanced tumor metastasis; this was indicative of poor 5-year overall survival. Recombinant full-length human FBLN-5 promoted the attachment of HCC cells via integrins: it inhibited HCC cell adhesionand migration to fibronectin in a concentrationdependent manner. It also inhibited HCC cell migration and invasion through an integrin-binding arginineglycine-aspartic acid(RGD) motif by downregulating MMP-7. CONCLUSION: These results suggest that lower FBLN-5 expression is an important indicator of poor survival and that FBLN-5 inhibits HCC motility via an integrin-dependent mechanism. RGD-dependent suppression of MMP-7 by FBLN-5 might contribute to the development of new therapeutic strategies for HCC.展开更多
AIM:To investigate the roles of integrins in choroidal neovascularization(CNV) and their associations with the stromal cell-derived factor-1(SDF-1)/CXCR4 axis.METHODS:CNV lesions were induced in mice using laser photo...AIM:To investigate the roles of integrins in choroidal neovascularization(CNV) and their associations with the stromal cell-derived factor-1(SDF-1)/CXCR4 axis.METHODS:CNV lesions were induced in mice using laser photocoagulation.After CNV induction,all animals were randomly assigned to:control,SDF-1,SDF-1+age-related macular degeneration(AMD) 3100(CXCR4 inhibitor),and SDF-1+ATN161(integrin α5β1 inhibitor) groups;their effects on CNV progression were observed using hematoxylin eosin(HE) staining,fundus fluorescein angiography(FFA) grading and optical coherence tomography(OCT),and their effects on CXCR4/integrin α5 expression were evaluated using Western blot and double immunofluorescence staining.Hypoxia-exposed endothelial cells(ECs) were used to simulate CNV in vitro,they were treated with SDF-1,combined with CXCR4 siRNA/AMD3100 or ATN161,and expression of integrin α5,cell migration and tube formation were analyzed.RESULTS:Integrin subunit α5 increased at 3 rd and 7 th day and decreased at 14 th day in CNV mice,with no significant change of β1-integrin.CXCR4 expression in CNV mice had persistent increase within 14 d after induction.SDF-1 treatment significantly promoted the CNV progression during 3-14 d.The mean CNV length in AMD3100 andATN161 group at day 7 was 270.13 and 264.23 μm in HE images,significantly lower than the mean length in SDF-1(345.70 μm) group.AMD3100 and ATN161 also significantly reduced thickness and leakage of CNV induced by SDF-1.Mean integrin α5 positive area in SDF-1 group reached 2.31×10~4 μm^2,significantly higher than control(1.25×104 μm^2),which decreased to 1.78×10~4 μm^2 after AMD3100 treatment.About 61.36% of ECs in CNV lesions expressed α5 in SDF-1 group,which significantly decreased to 43.12% after AMD3100 treatment.In vitro,integrin α5 peaked by 6 folds after 6 h of hypoxia exposure and CXCR4 gradually increased by up to 2.3 folds after 24 h of hypoxia.Approximately 25.12% of ECs expressed integrin α5 after SDF-1 stimulation,which decreased to 7.2%-9.5% after si-CXCR4 or AMD3100 treatment.ATN161 exerted an inhibitory effect comparable to that of si-CXCR4 on EC migration and tube formation in the presence of SDF-1.CONCLUSION:SDF-1/CXCR4 signaling induces integrin α5β1 expression in ECs to promote CNV.展开更多
Mucus hypersecretion in airways is a common pathological change observed in chronic inflammatory diseases and asthma. We investigated the new role of cell attachment to the extracellular matrix (ECM) on the production...Mucus hypersecretion in airways is a common pathological change observed in chronic inflammatory diseases and asthma. We investigated the new role of cell attachment to the extracellular matrix (ECM) on the production of the airway mucus protein, MUC5AC mucin, in human airway epithelial cells, NCI-H292. MUC5AC levels of cells cultured on low adhesion plates were 10-fold higher than those of cells cultured on adhesion plates. Cells cultured on bovine serum albumin (BSA) coated plates, which produce low adhesion conditions, also induced the up-regulation of MUC5AC. Mucin staining by PAS and MUC5AC immunodetection confirmed that mucin proteins were overproduced under low adhesion conditions. The major adhesion molecule between cells and the ECM was integrins. A time-course experiment showed that the expression patterns of integrin β1 and MUC5AC protein were inversely proportional. The inhibition of integrin β1 induced an increase in MUC5AC production in cells cultured under adhesion conditions, but not under low adhesion conditions. These results suggested that cell attachment regulates MUC5AC production, which is up-regulated by low adhesion to the ECM, and MUC5AC production is inversely proportional to the function of integrin β1.展开更多
Integrins are a family of transmembrane glycoproteins that mediate cell-cell and cell-extracellular matrix interactions. The integrin α4 subunit is widely expressed by cells from the immune system and its expression ...Integrins are a family of transmembrane glycoproteins that mediate cell-cell and cell-extracellular matrix interactions. The integrin α4 subunit is widely expressed by cells from the immune system and its expression by non-hematopoietic cells is scarce. In the present study, gene and protein expression of this integrin subunit was characterized in proliferating and quiescent human RPE cells. Immunofluorescent studies confirm that the α4 subunit is expressed in vitro by RPE cells, a result that has been validated by immunofluorescence and FACS analyses. The accumulation of the α4 integrin at cell-cell junctions in post-confluent RPE cell cultures negatively correlated with the level of expression of the mRNA transcript. Accordingly, transient transfection analyses reveal that the α4 promoter activity is considerably reduced when RPE cells form a confluent monolayer. Moreover, transfection of recombinant constructs bearing 5’-deletions of the α4 promoter segment allows the localization of strong negative regulatory elements on the -76 to -300 region of the α4 gene suggesting that its expression is intimately linked to the proliferative state of primary cultured RPE cells.展开更多
Objective: To investigate the role of survivin in osteosarcoma metastasis. Methods: Small interfering RNA(si RNA) was used to knockdown the expression of survivin and α5 integrin in the human osteosarcoma cell line M...Objective: To investigate the role of survivin in osteosarcoma metastasis. Methods: Small interfering RNA(si RNA) was used to knockdown the expression of survivin and α5 integrin in the human osteosarcoma cell line MG63. Western blotting and immunostaining methods was used to assessed the effect of survivin knockdown on the expression of α5 integrin through flow cytometry and fluorescence microscopy detection. Meanwhile, the invasion and migration of transfected cells in Transwell and wound healing assays were probed, and the growth situation of these cells transplanted into nude mice was monitored. Results: Knockdown of survivin expression could inhibit the invasion and migration of osteosarcoma MG64 cells in vitro and the expression of α5 integrin on osteosarcoma MG64 cell surface, suggesting that survivin can inhibit the invasion and migration of osteosarcoma cells through downregulation of α5 integrin. Anti-α5 integrin antibody could also markedly decrease the capability of invasion and migration of osteosarcoma MG64 cells. Additionally, knockdown of survivin expression could slow the growth of osteosarcoma MG63 cells transplanted into nude mice. Conclusions: Survivin-directed anti-tumor strategies might be an effective method in the treatment of osteosarcoma.展开更多
As a key regulator of immune response,CD40 L is usually associated with chronic disease-related inflammation,autoimmune diseases and malignant diseases.Receptor recognition of platelet CD40 L is the initial event that...As a key regulator of immune response,CD40 L is usually associated with chronic disease-related inflammation,autoimmune diseases and malignant diseases.Receptor recognition of platelet CD40 L is the initial event that mediates platelet aggregation and leukocyte immune response.Unlike soluble CD40 L,the interaction between transmembrane platelet CD40 L and its receptors occurs within the cell junction surface,usually,in a physiological and pathological high blood flow shear stress environment.This two-dimensional reaction kinetics should be a mechano-chemical coupling process.In addition to its classical receptor CD40,CD40 L also binds to receptorα5β1,CD40 L can bind to the resting state of integrinα5β1,but the mechanical regulation mechanism of integrinα5β1 activation under fluid shear stress remains unclear.We assume that the force can promote CD40 L-inducedα5β1 activation.To check this hypothesis,we performed flow chamber experiment to investigate interaction of CD40 L andα5β1.In experiments,the bottom of the flow chamber is functionalized by a suitable concentration of CD40 L,and the fiber spheres of 6μm diameter was coated withα5β1.The selection of CD40 L concentration was based on the observation that as many tether events ofα5β1-coated spheres as possible were observed rather than stable adhesion events of these spheres.Theα5β1-coated sphere suspension was poured over the CD40 L-coated substrates in the flow chamber under different shear rates.A high-speed camera was used to observe and record tether events of fiber spheres at a rate of 100 frames per second.According to our affinity state transition model for integrin,the data were analyzed to obtain the rate of integrin activation and its mechanical regulation characteristics.Our results demonstrated that the interaction betweenα5β1 and CD40 L is biphasic force-dependent,showing mechano-chemical regulation mechanism of'Catch-slip bond'transition.The affinity jumping model was well fitted with the data obtained from flow chamber experiment at various wall shear stresses.We found that,CD40 L ligation-induced jumping ofα5β1 affinity state from low to medium(or high)one will occur within 0.5-1.0 second,resulting in prolonging of bond lifetimes.And,frequency distribution of the tether events number with tether lifetime under each force,exhibits obvious doublet peaks,one within 0.5-1 s and second within 1.5-2.5 s,indicating theα5β1 affinity state transform from low to high one.The probability distribution of the tether lifetime under different shear forces are not linear,and exists a turning point,which shows that the rate ofα5β1 dissociation from CD40 L is fast first,and then become slow,showing a force-induced conformation transformation of the integrinα5β1 from low affinity state to high affinity one.Our findings suggest that,the continuous force stimulation will quickly cause the affinity state change of integrinα5β1. The dissociation rate of theα5β1/CD40 L complex decreases first and then increases with wall shear stress,exhibiting a'Catch-slip bond'transformation of interaction betweenα5β1-CD40 L.This mechanical regulation mechanism exists in interaction of CD40 L not only toα5β1 at low affinity state but also to one at high affinity state.Our results should be useful in understanding the mechanical regulation mechanism of a5β1-CD40 L interaction-mediated cellular immune response and inflammatory processes.展开更多
基金Beijing Natural Science Foundation,Grant/Award Number:L222145CAMS Innovation Fund for Medical Sciences,Grant/Award Number:2019-I2M-5-038+2 种基金Clinical Medicine Plus X-Young Scholars Project,Peking Universitythe Fundamental Research Funds for the Central Universities,Grant/Award Number:PKU2023LCXQ017National Natural Science Foundation of China,Grant/Award Number:81700935。
文摘Background:The effect of platelet factor 4(PF4)on bone marrow mesenchymal stem cells(BMMSCs)and osteoporosis is poorly understood.Therefore,this study aimed to evaluate the effects of PF4-triggered bone destruction in mice and determine the underlying mechanism.Methods:First,in vitro cell proliferation and cell cycle of BMMSCs were assessed using a CCK8 assay and flow cytometry,respectively.Osteogenic differentiation was confirmed using staining and quantification of alkaline phosphatase and Alizarin Red S.Next,an osteoporotic mouse model was established by performing bilateral ovariectomy(OVX).Furthermore,the PF4 concentrations were obtained using enzymelinked immunosorbent assay.The bone microarchitecture of the femur was evaluated using microCT and histological analyses.Finally,the key regulators of osteogenesis and pathways were investigated using quantitative real-time polymerase chain reaction and Western blotting.Results:Human PF4 widely and moderately decreased the cell proliferation and osteogenic differentiation ability of BMMSCs.Furthermore,the levels of PF4 in the serum and bone marrow were generally increased,whereas bone microarchitecture deteriorated due to OVX.Moreover,in vivo mouse PF4 supplementation triggered bone deterioration of the femur.In addition,several key regulators of osteogenesis were downregulated,and the integrinα5-focal adhesion kinase-extracellular signalregulated kinase(ITGA5-FAK-ERK)pathway was inhibited due to PF4 supplementation.Conclusions:PF4 may be attributed to OVX-i nduced bone loss triggered by the suppression of bone formation in vivo and alleviate BMMSC osteogenic differentiation by inhibiting the ITGA5-FAK-ERK pathway.
基金Zhejiang Provincial Natural Science Foundation of China,No.LY13H180001Education Bureau of Zhejiang Province,No.N20130416
文摘AIM: To elucidate the role of fibulin-5(FBLN-5) as a suppressor of hepatocellular carcinoma(HCC) cell metastasis via integrin.METHODS: The expression of FBLN-5 was determined by immunohistochemistry in 140 HCC samples and matched normal tissues, and was further confirmed by RT-PCR and Western blot analyses in various cell lines. Recombinant FBLN-5 was expressed in Escherichia coli BL21(DE3), purified and used in cell attachment assays. Expression of a specific plasmid or a specific si RNA in HCC cells resulted in the overexpression or knockdown of FBLN-5, respectively. Further, the migration and invasion of HCC cells were investigated using the Boyden chamber and transwell assays. The concentration of secreted matrix metalloproteinase 7(MMP-7) was determined using ELISA. RESULTS: FBLN-5 expression was found to be downregulated in HCC. Its expression was significantly correlated with advanced tumor metastasis; this was indicative of poor 5-year overall survival. Recombinant full-length human FBLN-5 promoted the attachment of HCC cells via integrins: it inhibited HCC cell adhesionand migration to fibronectin in a concentrationdependent manner. It also inhibited HCC cell migration and invasion through an integrin-binding arginineglycine-aspartic acid(RGD) motif by downregulating MMP-7. CONCLUSION: These results suggest that lower FBLN-5 expression is an important indicator of poor survival and that FBLN-5 inhibits HCC motility via an integrin-dependent mechanism. RGD-dependent suppression of MMP-7 by FBLN-5 might contribute to the development of new therapeutic strategies for HCC.
基金Supported by the National Natural Science Foundation of China(No.81770936No.81570856+2 种基金No.81670863No.81500748No.81370020)
文摘AIM:To investigate the roles of integrins in choroidal neovascularization(CNV) and their associations with the stromal cell-derived factor-1(SDF-1)/CXCR4 axis.METHODS:CNV lesions were induced in mice using laser photocoagulation.After CNV induction,all animals were randomly assigned to:control,SDF-1,SDF-1+age-related macular degeneration(AMD) 3100(CXCR4 inhibitor),and SDF-1+ATN161(integrin α5β1 inhibitor) groups;their effects on CNV progression were observed using hematoxylin eosin(HE) staining,fundus fluorescein angiography(FFA) grading and optical coherence tomography(OCT),and their effects on CXCR4/integrin α5 expression were evaluated using Western blot and double immunofluorescence staining.Hypoxia-exposed endothelial cells(ECs) were used to simulate CNV in vitro,they were treated with SDF-1,combined with CXCR4 siRNA/AMD3100 or ATN161,and expression of integrin α5,cell migration and tube formation were analyzed.RESULTS:Integrin subunit α5 increased at 3 rd and 7 th day and decreased at 14 th day in CNV mice,with no significant change of β1-integrin.CXCR4 expression in CNV mice had persistent increase within 14 d after induction.SDF-1 treatment significantly promoted the CNV progression during 3-14 d.The mean CNV length in AMD3100 andATN161 group at day 7 was 270.13 and 264.23 μm in HE images,significantly lower than the mean length in SDF-1(345.70 μm) group.AMD3100 and ATN161 also significantly reduced thickness and leakage of CNV induced by SDF-1.Mean integrin α5 positive area in SDF-1 group reached 2.31×10~4 μm^2,significantly higher than control(1.25×104 μm^2),which decreased to 1.78×10~4 μm^2 after AMD3100 treatment.About 61.36% of ECs in CNV lesions expressed α5 in SDF-1 group,which significantly decreased to 43.12% after AMD3100 treatment.In vitro,integrin α5 peaked by 6 folds after 6 h of hypoxia exposure and CXCR4 gradually increased by up to 2.3 folds after 24 h of hypoxia.Approximately 25.12% of ECs expressed integrin α5 after SDF-1 stimulation,which decreased to 7.2%-9.5% after si-CXCR4 or AMD3100 treatment.ATN161 exerted an inhibitory effect comparable to that of si-CXCR4 on EC migration and tube formation in the presence of SDF-1.CONCLUSION:SDF-1/CXCR4 signaling induces integrin α5β1 expression in ECs to promote CNV.
文摘Mucus hypersecretion in airways is a common pathological change observed in chronic inflammatory diseases and asthma. We investigated the new role of cell attachment to the extracellular matrix (ECM) on the production of the airway mucus protein, MUC5AC mucin, in human airway epithelial cells, NCI-H292. MUC5AC levels of cells cultured on low adhesion plates were 10-fold higher than those of cells cultured on adhesion plates. Cells cultured on bovine serum albumin (BSA) coated plates, which produce low adhesion conditions, also induced the up-regulation of MUC5AC. Mucin staining by PAS and MUC5AC immunodetection confirmed that mucin proteins were overproduced under low adhesion conditions. The major adhesion molecule between cells and the ECM was integrins. A time-course experiment showed that the expression patterns of integrin β1 and MUC5AC protein were inversely proportional. The inhibition of integrin β1 induced an increase in MUC5AC production in cells cultured under adhesion conditions, but not under low adhesion conditions. These results suggested that cell attachment regulates MUC5AC production, which is up-regulated by low adhesion to the ECM, and MUC5AC production is inversely proportional to the function of integrin β1.
文摘Integrins are a family of transmembrane glycoproteins that mediate cell-cell and cell-extracellular matrix interactions. The integrin α4 subunit is widely expressed by cells from the immune system and its expression by non-hematopoietic cells is scarce. In the present study, gene and protein expression of this integrin subunit was characterized in proliferating and quiescent human RPE cells. Immunofluorescent studies confirm that the α4 subunit is expressed in vitro by RPE cells, a result that has been validated by immunofluorescence and FACS analyses. The accumulation of the α4 integrin at cell-cell junctions in post-confluent RPE cell cultures negatively correlated with the level of expression of the mRNA transcript. Accordingly, transient transfection analyses reveal that the α4 promoter activity is considerably reduced when RPE cells form a confluent monolayer. Moreover, transfection of recombinant constructs bearing 5’-deletions of the α4 promoter segment allows the localization of strong negative regulatory elements on the -76 to -300 region of the α4 gene suggesting that its expression is intimately linked to the proliferative state of primary cultured RPE cells.
基金financially supported by Clinical Science and Technology Foundation of Jiangsu Province(BL2012002)Natural Science Foundation of Jiangsu Province(BK2012776)National Natural Science Foundation of China(No.81000814)
文摘Objective: To investigate the role of survivin in osteosarcoma metastasis. Methods: Small interfering RNA(si RNA) was used to knockdown the expression of survivin and α5 integrin in the human osteosarcoma cell line MG63. Western blotting and immunostaining methods was used to assessed the effect of survivin knockdown on the expression of α5 integrin through flow cytometry and fluorescence microscopy detection. Meanwhile, the invasion and migration of transfected cells in Transwell and wound healing assays were probed, and the growth situation of these cells transplanted into nude mice was monitored. Results: Knockdown of survivin expression could inhibit the invasion and migration of osteosarcoma MG64 cells in vitro and the expression of α5 integrin on osteosarcoma MG64 cell surface, suggesting that survivin can inhibit the invasion and migration of osteosarcoma cells through downregulation of α5 integrin. Anti-α5 integrin antibody could also markedly decrease the capability of invasion and migration of osteosarcoma MG64 cells. Additionally, knockdown of survivin expression could slow the growth of osteosarcoma MG63 cells transplanted into nude mice. Conclusions: Survivin-directed anti-tumor strategies might be an effective method in the treatment of osteosarcoma.
基金supported by the National Natural Science Foundation of China ( 116272109, 11432006)
文摘As a key regulator of immune response,CD40 L is usually associated with chronic disease-related inflammation,autoimmune diseases and malignant diseases.Receptor recognition of platelet CD40 L is the initial event that mediates platelet aggregation and leukocyte immune response.Unlike soluble CD40 L,the interaction between transmembrane platelet CD40 L and its receptors occurs within the cell junction surface,usually,in a physiological and pathological high blood flow shear stress environment.This two-dimensional reaction kinetics should be a mechano-chemical coupling process.In addition to its classical receptor CD40,CD40 L also binds to receptorα5β1,CD40 L can bind to the resting state of integrinα5β1,but the mechanical regulation mechanism of integrinα5β1 activation under fluid shear stress remains unclear.We assume that the force can promote CD40 L-inducedα5β1 activation.To check this hypothesis,we performed flow chamber experiment to investigate interaction of CD40 L andα5β1.In experiments,the bottom of the flow chamber is functionalized by a suitable concentration of CD40 L,and the fiber spheres of 6μm diameter was coated withα5β1.The selection of CD40 L concentration was based on the observation that as many tether events ofα5β1-coated spheres as possible were observed rather than stable adhesion events of these spheres.Theα5β1-coated sphere suspension was poured over the CD40 L-coated substrates in the flow chamber under different shear rates.A high-speed camera was used to observe and record tether events of fiber spheres at a rate of 100 frames per second.According to our affinity state transition model for integrin,the data were analyzed to obtain the rate of integrin activation and its mechanical regulation characteristics.Our results demonstrated that the interaction betweenα5β1 and CD40 L is biphasic force-dependent,showing mechano-chemical regulation mechanism of'Catch-slip bond'transition.The affinity jumping model was well fitted with the data obtained from flow chamber experiment at various wall shear stresses.We found that,CD40 L ligation-induced jumping ofα5β1 affinity state from low to medium(or high)one will occur within 0.5-1.0 second,resulting in prolonging of bond lifetimes.And,frequency distribution of the tether events number with tether lifetime under each force,exhibits obvious doublet peaks,one within 0.5-1 s and second within 1.5-2.5 s,indicating theα5β1 affinity state transform from low to high one.The probability distribution of the tether lifetime under different shear forces are not linear,and exists a turning point,which shows that the rate ofα5β1 dissociation from CD40 L is fast first,and then become slow,showing a force-induced conformation transformation of the integrinα5β1 from low affinity state to high affinity one.Our findings suggest that,the continuous force stimulation will quickly cause the affinity state change of integrinα5β1. The dissociation rate of theα5β1/CD40 L complex decreases first and then increases with wall shear stress,exhibiting a'Catch-slip bond'transformation of interaction betweenα5β1-CD40 L.This mechanical regulation mechanism exists in interaction of CD40 L not only toα5β1 at low affinity state but also to one at high affinity state.Our results should be useful in understanding the mechanical regulation mechanism of a5β1-CD40 L interaction-mediated cellular immune response and inflammatory processes.