OBJECTIVE To identify the specific targets of a novel derivative of Danshensu ADTM as the protein disulfide isomerase(PDI)family proteins including ERp57.To further investigate the underlying mechanism of ADTM to modu...OBJECTIVE To identify the specific targets of a novel derivative of Danshensu ADTM as the protein disulfide isomerase(PDI)family proteins including ERp57.To further investigate the underlying mechanism of ADTM to modulate ERp57 to regulate platelet function with direct interaction withαⅡbβ3 integrin.METHODS To isolate the protein targets that bound to ADTM,a biotin-conjugated ADTM analogue(BAA)was designed and synthesized.BAA(300μmol·L-1)was incubated with rat blood platelet lysates and the BAA-protein complexes were pulled down with NeutrAvidin-agarose followed by protein profiling using LC-MS/MS.To determine platelet aggregation in vitro,rabbit platelets were incubated with the indicated concentrations of compounds and aggregation was induced by ADP(10μmol·L-1)or AA(200μmol·L-1)and measured using a platelet aggregometer.To determine platelet aggregation-induced by ADP in rat in vivo,ADTM(5-20mg·kg-1)in comparison with DSS(10mg·kg-1)and clopidogrel(18mg·kg-1)were administered daily by i.v.injection for 5d,respectively.To determine the action of ADTM on the ERp57/αⅡbβ3 interaction,it was examined by immunoprecipitation with anti-αⅡbβ3antibody,followed by detection of ERp57 immunoreactivity using immunoblotting.RESULTS BAA could bind to various proteins involved in platelet function.In particular,platelet aggregation-associated proteins were identified with>95% protein identification probability including ERp72,ERp57ERp5 and PDI,which are members of the protein disulfide isomerase(PDI)family related to platelet function and redox homeostasis.ADTM exhibited potent inhibition on the redox activity of ERp57 in a concentration-dependent manner(IC50=100 300μmol·L-1).In in vitro studies,ADTM exhibited concentration-dependent inhibition on ADP-induced and AA-induced platelet aggregation with comparable effects to aspirin and clopidogrel.In vivo study showed that ADP-induced platelet aggregation was significantly compromised(>40%reduction)in rats treated with ADTM(20mg·kg-1).Similarly,ADTM also exhibited significant anti-thrombotic effect in vivo as shown in the ferric chloride(FeCl3)-induced venous thrombosis.Immunoprecipitation with anti-αⅡbβ3antibody,followed by detection of ERp57 immunoreactivity using immunoblotting showed that ADTM disrupted the interaction of ERp57 with αⅡ bβ3.CONCLUSION These results demonstrated that ADTM exhibited broad-spectrum anti-platelet activities and ERp57 is a potential therapeutic target for anti-platelet therapy.展开更多
OBJECTIVE To investigate the cardioprotective effect of novel danshensu derivatives against doxorubicin(Dox)cardiotoxicity and their synergistic anti-tumor effect with Dox on breast cancer cells.METHODS Two new Danshe...OBJECTIVE To investigate the cardioprotective effect of novel danshensu derivatives against doxorubicin(Dox)cardiotoxicity and their synergistic anti-tumor effect with Dox on breast cancer cells.METHODS Two new Danshensu derivatives were synthesized by conjugation with tetramethylpyrizine and/or4-(3-thioxo-3 H-1,2-dithiol-4-yl)-benzoic acid and tested for protective effects against Dox induced cardiotoxicity in cell and zebrafish.H9c2 cardiomyoblasts were co-treated with Dox and Danshensu derivatives for 24 h and then were measured for cell viability and cytotoxicity by MTT and LDH assays.The expression levels of mitochondrial biogenesis related proteins PGC-1α,NRF-1and Nrf2 were detected by Western blotting and qPCR.Moreover,in a Dox-induced cardiotoxicity model of zebrafish,zebrafish embryos were treated with Dox for 36 h,followed by measurement of numerous ventricular function parameters including heart rate,stroke volume,cardiac output and fractional shortening.In addition,the synergistic anti-tumor effects of the Danshensu derivatives and Dox had been studied in MCF-7 breast cancer cells.The effects of the Danshensu derivatives on the cell death and metabolism of MCF-7 cells were measured using apoptosis assay and Seahorse Metabolic Analyzers respectively.RESULTS Our results showed that the Danshensu derivatives were more potent than the parental compounds in ameliorating Dox-induced cytotoxicity in H9c2 cells and significantly preserving stroke volume of heart function in Dox-treated zebrafish.Further mechanistic studies identified that the danshensu derivatives increased mitochondrial copy numbers and protein expressions of PGC-1α,NRF-1 and Nrf2 in H9c2 cells.In addition,the Danshensu derivatives enhanced Dox-induced apoptosis,and decreased glycolysis and mitochondrial function in MCF-7 tumor cells.CONCLUSION Our results revealed that two new Danshensu derivatives displayed promising cardioprotective effects against Dox induced cardiotoxicity both in vivo and in vitro,at least partially through activating mitochondrial biogenesis.Also,the new Danshensu derivatives potentiated the anticancer effects of Dox in breast tumor cells involving induction of glycolytic inhibition and mitochondrial dysfunction.展开更多
基金The project supported by National Natural Science Foundation of China(81403139)Research Committee of the University of Macao(MYRG2015-00161-ICMS-QRCM)
文摘OBJECTIVE To identify the specific targets of a novel derivative of Danshensu ADTM as the protein disulfide isomerase(PDI)family proteins including ERp57.To further investigate the underlying mechanism of ADTM to modulate ERp57 to regulate platelet function with direct interaction withαⅡbβ3 integrin.METHODS To isolate the protein targets that bound to ADTM,a biotin-conjugated ADTM analogue(BAA)was designed and synthesized.BAA(300μmol·L-1)was incubated with rat blood platelet lysates and the BAA-protein complexes were pulled down with NeutrAvidin-agarose followed by protein profiling using LC-MS/MS.To determine platelet aggregation in vitro,rabbit platelets were incubated with the indicated concentrations of compounds and aggregation was induced by ADP(10μmol·L-1)or AA(200μmol·L-1)and measured using a platelet aggregometer.To determine platelet aggregation-induced by ADP in rat in vivo,ADTM(5-20mg·kg-1)in comparison with DSS(10mg·kg-1)and clopidogrel(18mg·kg-1)were administered daily by i.v.injection for 5d,respectively.To determine the action of ADTM on the ERp57/αⅡbβ3 interaction,it was examined by immunoprecipitation with anti-αⅡbβ3antibody,followed by detection of ERp57 immunoreactivity using immunoblotting.RESULTS BAA could bind to various proteins involved in platelet function.In particular,platelet aggregation-associated proteins were identified with>95% protein identification probability including ERp72,ERp57ERp5 and PDI,which are members of the protein disulfide isomerase(PDI)family related to platelet function and redox homeostasis.ADTM exhibited potent inhibition on the redox activity of ERp57 in a concentration-dependent manner(IC50=100 300μmol·L-1).In in vitro studies,ADTM exhibited concentration-dependent inhibition on ADP-induced and AA-induced platelet aggregation with comparable effects to aspirin and clopidogrel.In vivo study showed that ADP-induced platelet aggregation was significantly compromised(>40%reduction)in rats treated with ADTM(20mg·kg-1).Similarly,ADTM also exhibited significant anti-thrombotic effect in vivo as shown in the ferric chloride(FeCl3)-induced venous thrombosis.Immunoprecipitation with anti-αⅡbβ3antibody,followed by detection of ERp57 immunoreactivity using immunoblotting showed that ADTM disrupted the interaction of ERp57 with αⅡ bβ3.CONCLUSION These results demonstrated that ADTM exhibited broad-spectrum anti-platelet activities and ERp57 is a potential therapeutic target for anti-platelet therapy.
基金The project supported by grants from the Science and Technology Development Fund of Macao,China(014/2011/A1and 078/2011/A3)Research Committee,University of Macao〔MYRG138(Y1-Y4)-ICMS12-LMY〕
文摘OBJECTIVE To investigate the cardioprotective effect of novel danshensu derivatives against doxorubicin(Dox)cardiotoxicity and their synergistic anti-tumor effect with Dox on breast cancer cells.METHODS Two new Danshensu derivatives were synthesized by conjugation with tetramethylpyrizine and/or4-(3-thioxo-3 H-1,2-dithiol-4-yl)-benzoic acid and tested for protective effects against Dox induced cardiotoxicity in cell and zebrafish.H9c2 cardiomyoblasts were co-treated with Dox and Danshensu derivatives for 24 h and then were measured for cell viability and cytotoxicity by MTT and LDH assays.The expression levels of mitochondrial biogenesis related proteins PGC-1α,NRF-1and Nrf2 were detected by Western blotting and qPCR.Moreover,in a Dox-induced cardiotoxicity model of zebrafish,zebrafish embryos were treated with Dox for 36 h,followed by measurement of numerous ventricular function parameters including heart rate,stroke volume,cardiac output and fractional shortening.In addition,the synergistic anti-tumor effects of the Danshensu derivatives and Dox had been studied in MCF-7 breast cancer cells.The effects of the Danshensu derivatives on the cell death and metabolism of MCF-7 cells were measured using apoptosis assay and Seahorse Metabolic Analyzers respectively.RESULTS Our results showed that the Danshensu derivatives were more potent than the parental compounds in ameliorating Dox-induced cytotoxicity in H9c2 cells and significantly preserving stroke volume of heart function in Dox-treated zebrafish.Further mechanistic studies identified that the danshensu derivatives increased mitochondrial copy numbers and protein expressions of PGC-1α,NRF-1 and Nrf2 in H9c2 cells.In addition,the Danshensu derivatives enhanced Dox-induced apoptosis,and decreased glycolysis and mitochondrial function in MCF-7 tumor cells.CONCLUSION Our results revealed that two new Danshensu derivatives displayed promising cardioprotective effects against Dox induced cardiotoxicity both in vivo and in vitro,at least partially through activating mitochondrial biogenesis.Also,the new Danshensu derivatives potentiated the anticancer effects of Dox in breast tumor cells involving induction of glycolytic inhibition and mitochondrial dysfunction.