OBJECTIVE To investigates the effects of imperatorin on the oxidative stress in the cerebral cortex and hippocampus after focal cerebral ischemia/reperfusion injury.METHODS Transient focal cerebral ischemia/reperfusio...OBJECTIVE To investigates the effects of imperatorin on the oxidative stress in the cerebral cortex and hippocampus after focal cerebral ischemia/reperfusion injury.METHODS Transient focal cerebral ischemia/reperfusion model in male Sprague-Dawley rats was induced by 2 h middle cerebral artery occlusion followed by 24 h reperfusion.Imperatorin(1.25 and 2.5 mg·kg-1)or vehicle were administered intraperitoneally at 1,5 and 9 h after the onset of ischemia.At 24 h after reperfusion,the biomarkers of oxidative stress such as the levels of reactive oxygen species(ROS),lipid peroxidation products malondialdehyde(MDA),nitric oxide(NO)and total antioxidant capacity(T-AOC),the activities of inducible nitric oxide synthase(iN OS),superoxide dismutase(SOD)and catalase(CAT)in the cerebral cortex and hippocampus were observed.We also assessed the nuclear factor erythroid 2-related factor 2(Nrf2),heme oxygenase-1(HO-1),and the NAD(P)H-quinone oxidoreductase 1(NQO-1)protein expression by Western blot.RESULTS As compared to vehicle-treated animals,imperatorin treatment significantly reduced the ROS,MDA,NO levels and i NOS activity,increased T-AOC and the activities of SOD and CAT.Furthermore,imperatorin treatment also significantly induced the nuclear translocation of Nrf2,enhanced the protein expression of HO-1 and NQO-1 in the cerebral cortex and hippocampus.CONCLUSION Our findings indicate that imperatorin can protect the brain against the excessive oxidative stress induced by cerebral ischemia/reperfusion through activation of Nrf2 signaling pathway.展开更多
The YiQiFuMai powder injection ( YQFM), a Traditional Chinese Medicine (TCM) prescription re-de- veloped based on the well-known TCM formula Sheng-maisan, showed a wide range of pharmacological activities in ca...The YiQiFuMai powder injection ( YQFM), a Traditional Chinese Medicine (TCM) prescription re-de- veloped based on the well-known TCM formula Sheng-maisan, showed a wide range of pharmacological activities in cardiovascular diseases in clinic. However, its role in protection against myocardial ischemia/reperfusion (MI/R) injury has not been elucidated. The present study not only evaluated the eardioprotective effect of YQFM from MI/ R injury but also investigated the potential molecular mechanisms in vivo and in vitro. The mouse model of MI/R injury was induced by a transient vessel occlusion for 30 rain and reperfusion for 24 h. The myocardium infarct size, production of lactate dehydrogenase (LDH), creatine kinase (CK), TUNEL staining and easpase-3 activity were measured. AMPKeα and phospho-AMPKα was analyzed by Western blot. We further verified the protective effect and potential molecular mechanisms of YQFM in an in vitro model of simulated ischemia and reperfusion ( SI/ R) in H9c2 cardiomyocytes. Cell viability was determined, and cell apoptosis were measured by Hoechst 33342 staining and Flow cytometry. Mitochondrial membrane potential (△ψFm) was measured, and ATP content was quantified by biolumineseent assay. Expression of apoptosis-related proteins including Caspase-3, Bcl-2, Bax, AMPKα and phospho-AMPKα was analyzed by Western blot. AMPKoL siRNA transfection was also applied to the mechanism elucidation. YQFM significantly reduced myocardium infarct size and the production of LDH, CK in se- rum, and also produced a significant decrease of apoptotic index which was confirmed by TUNEL staining and the changes of caspase-3 activity. In addition, pretreatment with YQFM markedly improved cell viability and decreased LDH release. Moreover, YQFM inhibited H9c2 apoptosis, blocked the expression of easpase-3 and modulated Bcl- 2 and Bax proteins, leading to an increased mitochondrial membrane potential and cellular ATP content. Mechanis- tically, YQFM activated AMPK signaling pathways while pretreatment with AMPK inhibitor compound C and appli- cation of transfection with AMPKα siRNA attenuated the anti-apoptotie effect of YQFM. Our results indicated that YQFM could provide significant cardioproteetion against MI/R injury, and potential mechanisms might to suppres- sion of cardiomyocytes apoptosis at least in part through activating the AMPK signaling pathways.展开更多
Myocardial infarction resulting from coronary atherosclerosis is the leading cause of death in modern soci- ety. Reperfusion is an essential treatment to salvage ischemia myocardium from necrosis, while it also leads ...Myocardial infarction resulting from coronary atherosclerosis is the leading cause of death in modern soci- ety. Reperfusion is an essential treatment to salvage ischemia myocardium from necrosis, while it also leads to addi- tional damage. Therefore, exploring effective medicines to protect the heart from post-ischemic injury is one of the major objectives of cardiovascular research. Berbamine is a nature compound of bisbenzylisochinoline alkaloids from Barberry. We found that it displays positive inotropic and lusitropic effects at lower concentrations by increasing myofilament Ca2+ sensitivity via a PKCe-dependent signaling pathway. Moreover, berbamine preconditioning con- fers cardioprotection against ischemia/reperfusion (I/R) injury by attenuating the Ca2+ overloading and preventing the calpain activation through the activating of PI3K-Akt-GSK3β pathway and subsequently opening of the mitoKATP channel. Furthermore, we demonstrate that berbamine postconditioning conferred the cardioprotective effect against I/R injury by the regulation of autophagy. These findings reveal new roles and mechanisms of berbamine in the heart and cardioprotection against I/R injury.展开更多
Aim Salvia miltiorrhiza Bunge (SM) and lignum dalbergiae odoriferae (DO) are both traditional Chi- nese medicine that have cardioprotective effects. Here, we further examined the combined effects of SM and DO on r...Aim Salvia miltiorrhiza Bunge (SM) and lignum dalbergiae odoriferae (DO) are both traditional Chi- nese medicine that have cardioprotective effects. Here, we further examined the combined effects of SM and DO on rat myocardial ischemia/reperfusion injury. The possible mechanism of SM and DO also were elucidated. Methods DO was divided into aqueous extract of lignum dalbergiae odoriferae (DOW) and lignum dalbergiae odoriferae oil (DOO). Sprague-Dawley rats were randomized to seven groups: sham group, model group, treatment groups inclu- ding SM (10 g · kg^-1), DOW (5 g · kg^-1), DOO (0.5 ml · kg^-1), SM + DOW (10 g · kg^-1 + 5 g · kg^-1), SM + DOO ( 10 g · kg^-1 + 0. 5 ml · kg^-1). Rats were pretreated with homologous drug for 7 days and then subjec- ted to 30 rain of ischemia followed by 180 rain of reperfusion. Electrocardiogram (ECG) and heart rate were moni- tored and recorded continuously. At the end of reperfusion, blood samples were collected to determine the serum levels of creatine kinase-MB (CK-MB) and lactate dehydrogenase (LDH). Hearts were harvested to assess heart- body rate, infarct size and histopathological changes as well. Maximum and minimum effective points were deter- mined by measuring indicators associate with myocardial injury at different time-points of reperfusion (Smin, 15min, 30min, 45rain, 60min, 120min, 180min). The potential therapeutic mechanism of SM and SM + DOO were carried out by detecting superoxide dismutase (SOD), malondialdehyde (MDA), tumor necrosis factor-alpha (TNF-alpha) and interleukin 6 (IL-6). Results The results showed SM and DO can ameliorate cardiac function respectively, and this cardioprotective effect was further strengthened by their combinations. Among all the combi- nations, SM + DOO showed predominant potential to improve ECG and heart rate, reduce heart-body rate (28.5% + 1.4% , P 〈 0.01 vs model) and myocardial infarct size ( 20.96% + 1.61% , P 〈 0.01 vs model, P 〈 0.05 vs SM) , attenuate histopathological damage, decrease the levels of CK-MB and LDH (P 〈 0.01 vs model, P 〈 0.05 vs SM). The maximum effective points of SM and SM + DOO were 15min and 30rain respectively, and the minimum effective points of them were 180rain. In reducing serum level of MDA, TNF-alpha, IL-6 and increasing SOD activ- ity, SM + DOO was similar to SM. Conclusion The results of this study indicated that SM + DOO have combined effects that are highly effective than single pretreatment against myocardial ischemie reperfusion injury in rats. The possible mechanism of SM and DO were likely through its anti-oxidant and anti-inflammatory properties, and thus may be an effective and promising medicine for both prophylaxis and treatment of ischemic heart disease.展开更多
OBJCETIVE Epidemiologic studies have demonstrated that consumption of moderate amounts of red wine is associated with significant reductions in incidences of cardiovascular and cerebrovascular diseases,which may be re...OBJCETIVE Epidemiologic studies have demonstrated that consumption of moderate amounts of red wine is associated with significant reductions in incidences of cardiovascular and cerebrovascular diseases,which may be related to alcohol in red wine.Our previous study demonstrated that ethanol ingestion 24 h prior to induction of cerebral ischemic/reperfusion(I/R)reduced delayed neuronal death(DND).Our most recent results supported a role for big Ca2+-sensitive K+channel(BKCa channel)activation in the neuroprotective effects of ethanol preconditioning(Et OH-PC)in global cerebral I/R.Therefore,we hypothesis that moderate Et OH-PC activates BKCa channel to protect brain damage induced by focal cerebral I/R.This project will utilize focal cerebral I/R animal model to explore the function of BKCa channel in Et OH-PC protection in vivo levels by means of pharmacological intervention such as BKCa channel opene(rNS11021,NS)and blocke(rpaxilline,PX).The results will provide theoretical evidence for neuroprotective effect of moderate alcohol preconditioning against ischemic stroke,and the conclusion will also bring to a concept that extrinsic moderate ethanol preconditioning may activate intrinsic protective mechanism in the brain.METHODS The SD rat were randomly divided into the following six groups(n=10):sham,I/R,Et OH-PC+I/R,NS11021-PC+I/R,paxilline+Et OH-PC+I/R,Paxilline+NS11021-PC+I/R.Both Et OH-PC and NS11021-PC(0.1mg·kg-1;ip)were induced 24 h before I/R.The volume of 95%ethanol to be instilled(inμL)was calculated as follows:〔body weight(g)×0.6〕+0.3.This volume of ethanol was mixed in 0.3 m L of sterile distilled water just before administration to the animals by gavage.The Paxilline(2.5 mg·kg-1;ip)was administered 10min beforeEt OH-PC and NS11021-PC.The right middle cerebral artery occlusion(MCAO)was produced by inversion of a 4-0-nylon filament.The filament was withdrawn 2 h after onset of MCAO and then reperfused.Neurological deficits and infarct volume were measured 24 h after I/R.Another 36 rats were randomly divided into 6 groups as above,6 in each group.DWI were performed 2h after ischemic and T2WI MRI were performed 24 h after I/R to observe the infarct volume of brain and the penumbra volume of brain in each group.Then rats were killed and detected the apoptotic cell death and degeneration of neurons.RESULTS Compared to I/R group,the neurological score(P<0.01),the infarct volume of brain(P<0.01),the infarct volume of ischemic penumbra(P<0.01),the percentage of apoptotic cell death(P<0.01)and the percentage of degenerative neurons(P<0.01)were significantly decreased after ethanol preconditioning,while these changes were reversed by paxilline(P<0.05);compared to I/R group,the neurological score(P<0.01),the infarct volume of brain(P<0.01),the infarct volume of ischemic penumbra(P<0.01),the percentage of apoptotic cell death(P<0.01)and the percentage of degenerative neurons(P<0.01)were significantly decreased after NS11021 preconditioning,while these changes were reversed by paxilline(P<0.05).CONCLUSION Our results show that moderate alcohol preconditioning activates BKCa channels to protect brain damage induced by focal cerebral I/R.展开更多
OBJECTIVE To predict the potential targets of hyperoside(Hyp)on improving ischemia/reperfusion injury by network pharmacology,and explore its possible mechanism combined with related literature.METHODS The action targ...OBJECTIVE To predict the potential targets of hyperoside(Hyp)on improving ischemia/reperfusion injury by network pharmacology,and explore its possible mechanism combined with related literature.METHODS The action targets of Hyp and ischemia/reperfusion injury were obtained by TCMSP,Swiss Target Prediction,Pharm Mapper,Similarity ensemble approach,Online Mendelian Inheritance in Man,DisGENT and database.The common targets of drugs and diseases were screened by Omishare and STRING database respectively,and the protein-protein interaction(PPI)network map was constructed.Then the interaction network between Hyp and disease targets was constructed by Cytoscape software and topological cross-linking analysis was carried out.Then the interaction network between Hyp and disease targets was constructed and cross-linked analysis was carried out by using Cytoscape software.The gene ontology(GO)of the core target was analyzed by David database,and then the related pathways of the core target were enriched by KEGG database.RESULTS A total of 54 GO enrichment processes were obtained by GO enrichment analysis of 44 common genes,including 38 biological processes(BP),15 cell composition(CC)processes,and 1 molecular functional(MF)process.43 items were obtained by signal pathway enrichment analysis in KEGG database.CONCLUSION It is suggested that the mechanism of Hyp may be related to PI3K-Akt,RAP1,RAS,VEGF and other signal transduction pathways.The above results laid a theoretical foundation for the study of the mechanism and clinical application of the treatment of ischemia/reperfusion injury.展开更多
OBJECTIVE To explore the effect of total flavonoids of Rhododendra simsii(TFR)on improving cerebral ischemia/reperfusion injury(CIRI)and its relationship with STIM/Orai-regulated operational Ca^(2+)influx(SOCE)pathway...OBJECTIVE To explore the effect of total flavonoids of Rhododendra simsii(TFR)on improving cerebral ischemia/reperfusion injury(CIRI)and its relationship with STIM/Orai-regulated operational Ca^(2+)influx(SOCE)pathway.METHODS Oxygen-glucose deprivation/reoxygenation(OGD/R)PC12 cells were used to simulate CIRI in vitro,and the intracellular Ca^(2+)concentration and apoptosis rate of PC12 cells were detected by laser confocal microscope and flow cytometry,respectively.The regulation of STIM/Orai on SOCE was analyzed by STIM/Orai gene silencing and STIM/O rai gene overexpression.The CIRI model was established by MCAO in SD rats.The activities of inflammatory cytokines IL^(-1),IL-6 and TNF-αin serum were detected by ELISA.The pathological changes of ischemic brain tissue and the infarction of rat brain tissue were detected by HE staining and TTC staining.The protein and mRNA expression levels of STIM1,STIM2,Orai1,caspase-3 and PKB in brain tissue were detected by Western blotting and RT-qPCR,respectively.RESULTS The results of in vitro experiment showed that the fluorescence intensity of Ca^(2+)and apoptosis rate in PC12 cells treated with TFR were significantly lower than those in OGD/R group,and this trend was enhanced by SOCE antagonist 2-APB.STIM1/STIM2/Orai1 gene silencing significantly reduced apoptosis and Ca^(2+)overload in OGD/R model,while TFR combined with overexpression of STIM1/STIM2/Orai1 aggravated apoptosis and Ca2+overload.In the in vivo experiment,TFR significantly reduced the brain histopathological damage,infarction of brain tissue,the contents of IL^(-1),IL-6 and TNF-αin the serum in MCAO rats and down-regulated the expression of STIM1,STIM2,Orai1 and caspase-3 protein and mRNA in the brain tissue,and up-regulated the expression of PKB.The above effects were enhanced by the addition of 2-APB.CONCLUSION The above results indicate that TFR may reduce the contents of inflammatory factors and apoptosis,decrease Ca2+overload and ameliorate brain injury by inhibiting SOCE pathway mediated by STIM and Orai,suggesting that it has a protective effect against subacute CIRI.展开更多
The morbidity and mortality of cardiovascular diseases are very high,which has attracted more and more attention all over the world.Common treatment methods for clinical treatment of acute myocardial infarction includ...The morbidity and mortality of cardiovascular diseases are very high,which has attracted more and more attention all over the world.Common treatment methods for clinical treatment of acute myocardial infarction include direct percutaneous coronary intervention and coronary artery bypass grafting,which can quickly restore blocked coronary blood flow and reduce the infarct size.However,the inevitable ischemia/reperfusion injury will occur during the recovery of coronary blood flow,its pathological mechanism is complicated,and the Western medicine countermeasures are very limited.Among the current drugs for the treatment of cardiovascular diseases,traditional Chinese medicine has become a research hotspot due to its multiple targets,safety,and low side effects.Ginger is the fresh rhizome of Zingiber officinale Rosc.,a perennial herbaceous plant in the ginger family.It is a dual-purpose resource of medicine and food.Ginger has the functions of relieving the appearance and dispelling cold,warming up and relieving vomiting,resolving phlegm and relieving cough,and relieving fish and crab poison.The chemical components of ginger mainly include volatile oil,gingerol,diphenylheptane,etc..Among them,6-gingerol,as the main active component of gingerols,has obvious pharmacological effects in myocardial protection,anti-oxidation,anti-inflammatory,etc..Studies have shown that 6-gingerol protects myocardium mainly through anti-oxidative stress,anti-inflammatory,inhibiting cell apoptosis,and preventing calcium influx.①Anti-oxidative stress:oxidative stress is a state where oxidation and anti-oxidation in the body are out of balance,and it is also an important factor leading to myocardial damage.Many studies have confirmed that 6-gingerol has an antioxidant effect,and it is considered a natural antioxidant.6-gingerol can significantly reduce the degree of oxidative stress and the level of reactive oxygen species caused by cardiomyocyte damage,and has a significant cardioprotective effect.②Anti-inflammatory:inflammation can cause substantial cell damage and organ dysfunction,which is another important cause of myocardial damage.6-gingerol can reduce the levels of inflammatory factors such as interleukin-6,interleukin-1β,and tumor necrosis factor-αin cardiomyocytes,and at the same time inhibit the TLR4/NF-κB signaling pathway,an important regulatory pathway of inflammation,showing that it may improve myocardial damage through anti-inflammatory effects.③Inhibition of apoptosis:apoptosis is a complex and orderly process in the autonomous biochemical process of cells,and one of the main mechanisms of myocardial injury.This process can be roughly divided into three pathways:mitochondria,endoplasmic reticulum,and death receptors.Among them,the mitochondrial pathway plays an important role,and Bcl-2 and Bax located upstream of this pathway can regulate the entire process of cell apoptosis by regulating the permeability of the mitochondrial membrane.Studies have found that the preventive application of 6-gingerol can reduce cell damage,reduce the number of apoptotic cells,reduce the activity of Bax and caspase-3,and increase the expression of Bcl-2.Therefore,6-gingerol pretreatment can reduce the damage of cardiomyocytes,and its mechanism may be related to the inhibition of apoptosis.④Prevent calcium influx:calcium overload is involved in the pathogenesis of myocardial ischemic injury,which may be related to excessive contracture,arrhythmia,and mitochondrial Ca2+accumulation that impairs myocardial function.6-gingerol inhibits the increase of intracellular Ca2+concentration by inhibiting L-type calcium current,thereby reducing extracellular Ca2+influx,thereby avoiding calcium overload and playing a cardioprotective effect.In summary,6-gingerol can effectively treat and improve myocardial ischemia/reperfusion injury,and it has great development potential in the fields of medicine and health products.展开更多
Erigeron multiradiatus(Lindl.)Benth.,has been used in Tibet folk medicine to treat various inflammatory diseases.The aim of this study was to investigate anti-myocardial ischemia and reperfusion(I/R)injury effect of c...Erigeron multiradiatus(Lindl.)Benth.,has been used in Tibet folk medicine to treat various inflammatory diseases.The aim of this study was to investigate anti-myocardial ischemia and reperfusion(I/R)injury effect of caffeoylquinic acids derivatives of E.multiradiatus(AE)in vivo and to explain underling mechanism.AE was prepared using the whole plant of E.multiradiatus and contents of 6 caffeoylquinic acid determined through HPLC analysis.Myocardial I/R were induced by left anterior descending coronary artery occlusion for 30 min followed by 24 h of reperfusion in rats.AE administration(10,20 and 40 mg·kg-1)inhibited I/R-induced injury as indicated by decreasing myocardial infarct size,reducing of CK and LDH activities and preventing ST-segment depression in dose-dependent manner.AE decreased cardiac tissue levels of pro-inflammatory factors TNF-αand IL-6 and attenuated leukocytes infiltration.AE was further demonstrated to significantly inhibit I-κB degradation,nuclear translocation of p-65 and phosphorylation of JNK.Our results suggested that cardioprotective effect of AE could be due to suppressing myocardial inflammatory response and blocking NF-κB and JNK activation pathway.Thus,caffeoylquinic acids might be the active compounds in E.multiradiatus on myocardial ischemia and be a potential natural drug for treating myocardial I/R injury.展开更多
基金supported by National Natural Science Foundation of China(81060269 and81360492)Natural Science Foundation of Jiangxi Province of China(20122BAB205036)
文摘OBJECTIVE To investigates the effects of imperatorin on the oxidative stress in the cerebral cortex and hippocampus after focal cerebral ischemia/reperfusion injury.METHODS Transient focal cerebral ischemia/reperfusion model in male Sprague-Dawley rats was induced by 2 h middle cerebral artery occlusion followed by 24 h reperfusion.Imperatorin(1.25 and 2.5 mg·kg-1)or vehicle were administered intraperitoneally at 1,5 and 9 h after the onset of ischemia.At 24 h after reperfusion,the biomarkers of oxidative stress such as the levels of reactive oxygen species(ROS),lipid peroxidation products malondialdehyde(MDA),nitric oxide(NO)and total antioxidant capacity(T-AOC),the activities of inducible nitric oxide synthase(iN OS),superoxide dismutase(SOD)and catalase(CAT)in the cerebral cortex and hippocampus were observed.We also assessed the nuclear factor erythroid 2-related factor 2(Nrf2),heme oxygenase-1(HO-1),and the NAD(P)H-quinone oxidoreductase 1(NQO-1)protein expression by Western blot.RESULTS As compared to vehicle-treated animals,imperatorin treatment significantly reduced the ROS,MDA,NO levels and i NOS activity,increased T-AOC and the activities of SOD and CAT.Furthermore,imperatorin treatment also significantly induced the nuclear translocation of Nrf2,enhanced the protein expression of HO-1 and NQO-1 in the cerebral cortex and hippocampus.CONCLUSION Our findings indicate that imperatorin can protect the brain against the excessive oxidative stress induced by cerebral ischemia/reperfusion through activation of Nrf2 signaling pathway.
文摘The YiQiFuMai powder injection ( YQFM), a Traditional Chinese Medicine (TCM) prescription re-de- veloped based on the well-known TCM formula Sheng-maisan, showed a wide range of pharmacological activities in cardiovascular diseases in clinic. However, its role in protection against myocardial ischemia/reperfusion (MI/R) injury has not been elucidated. The present study not only evaluated the eardioprotective effect of YQFM from MI/ R injury but also investigated the potential molecular mechanisms in vivo and in vitro. The mouse model of MI/R injury was induced by a transient vessel occlusion for 30 rain and reperfusion for 24 h. The myocardium infarct size, production of lactate dehydrogenase (LDH), creatine kinase (CK), TUNEL staining and easpase-3 activity were measured. AMPKeα and phospho-AMPKα was analyzed by Western blot. We further verified the protective effect and potential molecular mechanisms of YQFM in an in vitro model of simulated ischemia and reperfusion ( SI/ R) in H9c2 cardiomyocytes. Cell viability was determined, and cell apoptosis were measured by Hoechst 33342 staining and Flow cytometry. Mitochondrial membrane potential (△ψFm) was measured, and ATP content was quantified by biolumineseent assay. Expression of apoptosis-related proteins including Caspase-3, Bcl-2, Bax, AMPKα and phospho-AMPKα was analyzed by Western blot. AMPKoL siRNA transfection was also applied to the mechanism elucidation. YQFM significantly reduced myocardium infarct size and the production of LDH, CK in se- rum, and also produced a significant decrease of apoptotic index which was confirmed by TUNEL staining and the changes of caspase-3 activity. In addition, pretreatment with YQFM markedly improved cell viability and decreased LDH release. Moreover, YQFM inhibited H9c2 apoptosis, blocked the expression of easpase-3 and modulated Bcl- 2 and Bax proteins, leading to an increased mitochondrial membrane potential and cellular ATP content. Mechanis- tically, YQFM activated AMPK signaling pathways while pretreatment with AMPK inhibitor compound C and appli- cation of transfection with AMPKα siRNA attenuated the anti-apoptotie effect of YQFM. Our results indicated that YQFM could provide significant cardioproteetion against MI/R injury, and potential mechanisms might to suppres- sion of cardiomyocytes apoptosis at least in part through activating the AMPK signaling pathways.
文摘Myocardial infarction resulting from coronary atherosclerosis is the leading cause of death in modern soci- ety. Reperfusion is an essential treatment to salvage ischemia myocardium from necrosis, while it also leads to addi- tional damage. Therefore, exploring effective medicines to protect the heart from post-ischemic injury is one of the major objectives of cardiovascular research. Berbamine is a nature compound of bisbenzylisochinoline alkaloids from Barberry. We found that it displays positive inotropic and lusitropic effects at lower concentrations by increasing myofilament Ca2+ sensitivity via a PKCe-dependent signaling pathway. Moreover, berbamine preconditioning con- fers cardioprotection against ischemia/reperfusion (I/R) injury by attenuating the Ca2+ overloading and preventing the calpain activation through the activating of PI3K-Akt-GSK3β pathway and subsequently opening of the mitoKATP channel. Furthermore, we demonstrate that berbamine postconditioning conferred the cardioprotective effect against I/R injury by the regulation of autophagy. These findings reveal new roles and mechanisms of berbamine in the heart and cardioprotection against I/R injury.
文摘Aim Salvia miltiorrhiza Bunge (SM) and lignum dalbergiae odoriferae (DO) are both traditional Chi- nese medicine that have cardioprotective effects. Here, we further examined the combined effects of SM and DO on rat myocardial ischemia/reperfusion injury. The possible mechanism of SM and DO also were elucidated. Methods DO was divided into aqueous extract of lignum dalbergiae odoriferae (DOW) and lignum dalbergiae odoriferae oil (DOO). Sprague-Dawley rats were randomized to seven groups: sham group, model group, treatment groups inclu- ding SM (10 g · kg^-1), DOW (5 g · kg^-1), DOO (0.5 ml · kg^-1), SM + DOW (10 g · kg^-1 + 5 g · kg^-1), SM + DOO ( 10 g · kg^-1 + 0. 5 ml · kg^-1). Rats were pretreated with homologous drug for 7 days and then subjec- ted to 30 rain of ischemia followed by 180 rain of reperfusion. Electrocardiogram (ECG) and heart rate were moni- tored and recorded continuously. At the end of reperfusion, blood samples were collected to determine the serum levels of creatine kinase-MB (CK-MB) and lactate dehydrogenase (LDH). Hearts were harvested to assess heart- body rate, infarct size and histopathological changes as well. Maximum and minimum effective points were deter- mined by measuring indicators associate with myocardial injury at different time-points of reperfusion (Smin, 15min, 30min, 45rain, 60min, 120min, 180min). The potential therapeutic mechanism of SM and SM + DOO were carried out by detecting superoxide dismutase (SOD), malondialdehyde (MDA), tumor necrosis factor-alpha (TNF-alpha) and interleukin 6 (IL-6). Results The results showed SM and DO can ameliorate cardiac function respectively, and this cardioprotective effect was further strengthened by their combinations. Among all the combi- nations, SM + DOO showed predominant potential to improve ECG and heart rate, reduce heart-body rate (28.5% + 1.4% , P 〈 0.01 vs model) and myocardial infarct size ( 20.96% + 1.61% , P 〈 0.01 vs model, P 〈 0.05 vs SM) , attenuate histopathological damage, decrease the levels of CK-MB and LDH (P 〈 0.01 vs model, P 〈 0.05 vs SM). The maximum effective points of SM and SM + DOO were 15min and 30rain respectively, and the minimum effective points of them were 180rain. In reducing serum level of MDA, TNF-alpha, IL-6 and increasing SOD activ- ity, SM + DOO was similar to SM. Conclusion The results of this study indicated that SM + DOO have combined effects that are highly effective than single pretreatment against myocardial ischemie reperfusion injury in rats. The possible mechanism of SM and DO were likely through its anti-oxidant and anti-inflammatory properties, and thus may be an effective and promising medicine for both prophylaxis and treatment of ischemic heart disease.
基金The project supported by NSFC(81171079,81271312)
文摘OBJCETIVE Epidemiologic studies have demonstrated that consumption of moderate amounts of red wine is associated with significant reductions in incidences of cardiovascular and cerebrovascular diseases,which may be related to alcohol in red wine.Our previous study demonstrated that ethanol ingestion 24 h prior to induction of cerebral ischemic/reperfusion(I/R)reduced delayed neuronal death(DND).Our most recent results supported a role for big Ca2+-sensitive K+channel(BKCa channel)activation in the neuroprotective effects of ethanol preconditioning(Et OH-PC)in global cerebral I/R.Therefore,we hypothesis that moderate Et OH-PC activates BKCa channel to protect brain damage induced by focal cerebral I/R.This project will utilize focal cerebral I/R animal model to explore the function of BKCa channel in Et OH-PC protection in vivo levels by means of pharmacological intervention such as BKCa channel opene(rNS11021,NS)and blocke(rpaxilline,PX).The results will provide theoretical evidence for neuroprotective effect of moderate alcohol preconditioning against ischemic stroke,and the conclusion will also bring to a concept that extrinsic moderate ethanol preconditioning may activate intrinsic protective mechanism in the brain.METHODS The SD rat were randomly divided into the following six groups(n=10):sham,I/R,Et OH-PC+I/R,NS11021-PC+I/R,paxilline+Et OH-PC+I/R,Paxilline+NS11021-PC+I/R.Both Et OH-PC and NS11021-PC(0.1mg·kg-1;ip)were induced 24 h before I/R.The volume of 95%ethanol to be instilled(inμL)was calculated as follows:〔body weight(g)×0.6〕+0.3.This volume of ethanol was mixed in 0.3 m L of sterile distilled water just before administration to the animals by gavage.The Paxilline(2.5 mg·kg-1;ip)was administered 10min beforeEt OH-PC and NS11021-PC.The right middle cerebral artery occlusion(MCAO)was produced by inversion of a 4-0-nylon filament.The filament was withdrawn 2 h after onset of MCAO and then reperfused.Neurological deficits and infarct volume were measured 24 h after I/R.Another 36 rats were randomly divided into 6 groups as above,6 in each group.DWI were performed 2h after ischemic and T2WI MRI were performed 24 h after I/R to observe the infarct volume of brain and the penumbra volume of brain in each group.Then rats were killed and detected the apoptotic cell death and degeneration of neurons.RESULTS Compared to I/R group,the neurological score(P<0.01),the infarct volume of brain(P<0.01),the infarct volume of ischemic penumbra(P<0.01),the percentage of apoptotic cell death(P<0.01)and the percentage of degenerative neurons(P<0.01)were significantly decreased after ethanol preconditioning,while these changes were reversed by paxilline(P<0.05);compared to I/R group,the neurological score(P<0.01),the infarct volume of brain(P<0.01),the infarct volume of ischemic penumbra(P<0.01),the percentage of apoptotic cell death(P<0.01)and the percentage of degenerative neurons(P<0.01)were significantly decreased after NS11021 preconditioning,while these changes were reversed by paxilline(P<0.05).CONCLUSION Our results show that moderate alcohol preconditioning activates BKCa channels to protect brain damage induced by focal cerebral I/R.
基金National Natural Science Foundation of China(81170148)and Major Project of Natural Science Foundation of the Department of Education of Anhui Province(KJ2019ZD32)。
文摘OBJECTIVE To predict the potential targets of hyperoside(Hyp)on improving ischemia/reperfusion injury by network pharmacology,and explore its possible mechanism combined with related literature.METHODS The action targets of Hyp and ischemia/reperfusion injury were obtained by TCMSP,Swiss Target Prediction,Pharm Mapper,Similarity ensemble approach,Online Mendelian Inheritance in Man,DisGENT and database.The common targets of drugs and diseases were screened by Omishare and STRING database respectively,and the protein-protein interaction(PPI)network map was constructed.Then the interaction network between Hyp and disease targets was constructed by Cytoscape software and topological cross-linking analysis was carried out.Then the interaction network between Hyp and disease targets was constructed and cross-linked analysis was carried out by using Cytoscape software.The gene ontology(GO)of the core target was analyzed by David database,and then the related pathways of the core target were enriched by KEGG database.RESULTS A total of 54 GO enrichment processes were obtained by GO enrichment analysis of 44 common genes,including 38 biological processes(BP),15 cell composition(CC)processes,and 1 molecular functional(MF)process.43 items were obtained by signal pathway enrichment analysis in KEGG database.CONCLUSION It is suggested that the mechanism of Hyp may be related to PI3K-Akt,RAP1,RAS,VEGF and other signal transduction pathways.The above results laid a theoretical foundation for the study of the mechanism and clinical application of the treatment of ischemia/reperfusion injury.
基金National Natural Science Foundation of China(81173596)and Major Project of Natural Science Foundation of the Department of Education of Anhui Province(KJ2019ZD32)。
文摘OBJECTIVE To explore the effect of total flavonoids of Rhododendra simsii(TFR)on improving cerebral ischemia/reperfusion injury(CIRI)and its relationship with STIM/Orai-regulated operational Ca^(2+)influx(SOCE)pathway.METHODS Oxygen-glucose deprivation/reoxygenation(OGD/R)PC12 cells were used to simulate CIRI in vitro,and the intracellular Ca^(2+)concentration and apoptosis rate of PC12 cells were detected by laser confocal microscope and flow cytometry,respectively.The regulation of STIM/Orai on SOCE was analyzed by STIM/Orai gene silencing and STIM/O rai gene overexpression.The CIRI model was established by MCAO in SD rats.The activities of inflammatory cytokines IL^(-1),IL-6 and TNF-αin serum were detected by ELISA.The pathological changes of ischemic brain tissue and the infarction of rat brain tissue were detected by HE staining and TTC staining.The protein and mRNA expression levels of STIM1,STIM2,Orai1,caspase-3 and PKB in brain tissue were detected by Western blotting and RT-qPCR,respectively.RESULTS The results of in vitro experiment showed that the fluorescence intensity of Ca^(2+)and apoptosis rate in PC12 cells treated with TFR were significantly lower than those in OGD/R group,and this trend was enhanced by SOCE antagonist 2-APB.STIM1/STIM2/Orai1 gene silencing significantly reduced apoptosis and Ca^(2+)overload in OGD/R model,while TFR combined with overexpression of STIM1/STIM2/Orai1 aggravated apoptosis and Ca2+overload.In the in vivo experiment,TFR significantly reduced the brain histopathological damage,infarction of brain tissue,the contents of IL^(-1),IL-6 and TNF-αin the serum in MCAO rats and down-regulated the expression of STIM1,STIM2,Orai1 and caspase-3 protein and mRNA in the brain tissue,and up-regulated the expression of PKB.The above effects were enhanced by the addition of 2-APB.CONCLUSION The above results indicate that TFR may reduce the contents of inflammatory factors and apoptosis,decrease Ca2+overload and ameliorate brain injury by inhibiting SOCE pathway mediated by STIM and Orai,suggesting that it has a protective effect against subacute CIRI.
基金Fund of Dean of Huachuang Institute of Areca Research-Hainan(HCBL2020YZ-012)。
文摘The morbidity and mortality of cardiovascular diseases are very high,which has attracted more and more attention all over the world.Common treatment methods for clinical treatment of acute myocardial infarction include direct percutaneous coronary intervention and coronary artery bypass grafting,which can quickly restore blocked coronary blood flow and reduce the infarct size.However,the inevitable ischemia/reperfusion injury will occur during the recovery of coronary blood flow,its pathological mechanism is complicated,and the Western medicine countermeasures are very limited.Among the current drugs for the treatment of cardiovascular diseases,traditional Chinese medicine has become a research hotspot due to its multiple targets,safety,and low side effects.Ginger is the fresh rhizome of Zingiber officinale Rosc.,a perennial herbaceous plant in the ginger family.It is a dual-purpose resource of medicine and food.Ginger has the functions of relieving the appearance and dispelling cold,warming up and relieving vomiting,resolving phlegm and relieving cough,and relieving fish and crab poison.The chemical components of ginger mainly include volatile oil,gingerol,diphenylheptane,etc..Among them,6-gingerol,as the main active component of gingerols,has obvious pharmacological effects in myocardial protection,anti-oxidation,anti-inflammatory,etc..Studies have shown that 6-gingerol protects myocardium mainly through anti-oxidative stress,anti-inflammatory,inhibiting cell apoptosis,and preventing calcium influx.①Anti-oxidative stress:oxidative stress is a state where oxidation and anti-oxidation in the body are out of balance,and it is also an important factor leading to myocardial damage.Many studies have confirmed that 6-gingerol has an antioxidant effect,and it is considered a natural antioxidant.6-gingerol can significantly reduce the degree of oxidative stress and the level of reactive oxygen species caused by cardiomyocyte damage,and has a significant cardioprotective effect.②Anti-inflammatory:inflammation can cause substantial cell damage and organ dysfunction,which is another important cause of myocardial damage.6-gingerol can reduce the levels of inflammatory factors such as interleukin-6,interleukin-1β,and tumor necrosis factor-αin cardiomyocytes,and at the same time inhibit the TLR4/NF-κB signaling pathway,an important regulatory pathway of inflammation,showing that it may improve myocardial damage through anti-inflammatory effects.③Inhibition of apoptosis:apoptosis is a complex and orderly process in the autonomous biochemical process of cells,and one of the main mechanisms of myocardial injury.This process can be roughly divided into three pathways:mitochondria,endoplasmic reticulum,and death receptors.Among them,the mitochondrial pathway plays an important role,and Bcl-2 and Bax located upstream of this pathway can regulate the entire process of cell apoptosis by regulating the permeability of the mitochondrial membrane.Studies have found that the preventive application of 6-gingerol can reduce cell damage,reduce the number of apoptotic cells,reduce the activity of Bax and caspase-3,and increase the expression of Bcl-2.Therefore,6-gingerol pretreatment can reduce the damage of cardiomyocytes,and its mechanism may be related to the inhibition of apoptosis.④Prevent calcium influx:calcium overload is involved in the pathogenesis of myocardial ischemic injury,which may be related to excessive contracture,arrhythmia,and mitochondrial Ca2+accumulation that impairs myocardial function.6-gingerol inhibits the increase of intracellular Ca2+concentration by inhibiting L-type calcium current,thereby reducing extracellular Ca2+influx,thereby avoiding calcium overload and playing a cardioprotective effect.In summary,6-gingerol can effectively treat and improve myocardial ischemia/reperfusion injury,and it has great development potential in the fields of medicine and health products.
基金The project supported by the Macao Science and Technology Development Fund(052/2013/A2)
文摘Erigeron multiradiatus(Lindl.)Benth.,has been used in Tibet folk medicine to treat various inflammatory diseases.The aim of this study was to investigate anti-myocardial ischemia and reperfusion(I/R)injury effect of caffeoylquinic acids derivatives of E.multiradiatus(AE)in vivo and to explain underling mechanism.AE was prepared using the whole plant of E.multiradiatus and contents of 6 caffeoylquinic acid determined through HPLC analysis.Myocardial I/R were induced by left anterior descending coronary artery occlusion for 30 min followed by 24 h of reperfusion in rats.AE administration(10,20 and 40 mg·kg-1)inhibited I/R-induced injury as indicated by decreasing myocardial infarct size,reducing of CK and LDH activities and preventing ST-segment depression in dose-dependent manner.AE decreased cardiac tissue levels of pro-inflammatory factors TNF-αand IL-6 and attenuated leukocytes infiltration.AE was further demonstrated to significantly inhibit I-κB degradation,nuclear translocation of p-65 and phosphorylation of JNK.Our results suggested that cardioprotective effect of AE could be due to suppressing myocardial inflammatory response and blocking NF-κB and JNK activation pathway.Thus,caffeoylquinic acids might be the active compounds in E.multiradiatus on myocardial ischemia and be a potential natural drug for treating myocardial I/R injury.
