中国免疫学杂志
中國免疫學雜誌
중국면역학잡지
CHINESE JOURNAL OF IMMUNOLOGY
2015年
4期
440-446
,共7页
张青%陈志坚%廖玉华%赵欣%冯凯歌%官红权%周游
張青%陳誌堅%廖玉華%趙訢%馮凱歌%官紅權%週遊
장청%진지견%료옥화%조흔%풍개가%관홍권%주유
肿瘤坏死因子α%室性心律失常%离体心肌组织块%单相动作电位%细胞膜短暂外向钾电流%细胞膜内向整流性钾电流
腫瘤壞死因子α%室性心律失常%離體心肌組織塊%單相動作電位%細胞膜短暫外嚮鉀電流%細胞膜內嚮整流性鉀電流
종류배사인자α%실성심률실상%리체심기조직괴%단상동작전위%세포막단잠외향갑전류%세포막내향정류성갑전류
Tumor necrosis factor-α%Ventricular arrhythmias%Isolated heart tissues%Monophasic action potential%K+currents
目的:检测TNF-α对离体心肌组织块单相动作电位时程( MAPD)及离子通道电流的影响,初步探讨心梗后TNF-α诱导电生理异质性致室性心律失常发生的可能机制。方法:在离体大鼠心脏灌流的条件下,分离心肌组织块,电生理实验技术记录在不同浓度TNF-α灌流条件下的MAPD。用酶解法分离大鼠的心室肌细胞,应用膜片钳全细胞技术记录不同浓度TNF-α对单个心室肌细胞Ito和IK1的影响。结果:与对照组相比较,离体心肌组织块心内膜和心外膜MAPD浓度依赖性地随着TNF-α浓度的增加而增大( P<0.05);相同浓度TNF-α对心内膜和心外膜MAPD有不同的影响,尤其显著延长了心内膜的MAPD。经依那西普( TNF-α受体螯合剂)预处理后,相同浓度TNF-α对心内膜和心外膜MAPD影响不同导致的差异显著降低(P<0.05)。将TNF-α作用于大鼠心室肌细胞,与对照组相比较,Ito和IK1电流密度随着TNF-α浓度的增加而降低(P<0.05)。结论:TNF-α对心内膜及心外膜单相动作电位的不同影响可能对急性心梗后室性心律失常的形成有诱导或促进作用,其机制可能与TNF-α浓度依赖性抑制Ito和 IK1电流,引起动作电位复极化异常从而诱发折返性心律失常有关。
目的:檢測TNF-α對離體心肌組織塊單相動作電位時程( MAPD)及離子通道電流的影響,初步探討心梗後TNF-α誘導電生理異質性緻室性心律失常髮生的可能機製。方法:在離體大鼠心髒灌流的條件下,分離心肌組織塊,電生理實驗技術記錄在不同濃度TNF-α灌流條件下的MAPD。用酶解法分離大鼠的心室肌細胞,應用膜片鉗全細胞技術記錄不同濃度TNF-α對單箇心室肌細胞Ito和IK1的影響。結果:與對照組相比較,離體心肌組織塊心內膜和心外膜MAPD濃度依賴性地隨著TNF-α濃度的增加而增大( P<0.05);相同濃度TNF-α對心內膜和心外膜MAPD有不同的影響,尤其顯著延長瞭心內膜的MAPD。經依那西普( TNF-α受體螯閤劑)預處理後,相同濃度TNF-α對心內膜和心外膜MAPD影響不同導緻的差異顯著降低(P<0.05)。將TNF-α作用于大鼠心室肌細胞,與對照組相比較,Ito和IK1電流密度隨著TNF-α濃度的增加而降低(P<0.05)。結論:TNF-α對心內膜及心外膜單相動作電位的不同影響可能對急性心梗後室性心律失常的形成有誘導或促進作用,其機製可能與TNF-α濃度依賴性抑製Ito和 IK1電流,引起動作電位複極化異常從而誘髮摺返性心律失常有關。
목적:검측TNF-α대리체심기조직괴단상동작전위시정( MAPD)급리자통도전류적영향,초보탐토심경후TNF-α유도전생리이질성치실성심률실상발생적가능궤제。방법:재리체대서심장관류적조건하,분리심기조직괴,전생리실험기술기록재불동농도TNF-α관류조건하적MAPD。용매해법분리대서적심실기세포,응용막편겸전세포기술기록불동농도TNF-α대단개심실기세포Ito화IK1적영향。결과:여대조조상비교,리체심기조직괴심내막화심외막MAPD농도의뢰성지수착TNF-α농도적증가이증대( P<0.05);상동농도TNF-α대심내막화심외막MAPD유불동적영향,우기현저연장료심내막적MAPD。경의나서보( TNF-α수체오합제)예처리후,상동농도TNF-α대심내막화심외막MAPD영향불동도치적차이현저강저(P<0.05)。장TNF-α작용우대서심실기세포,여대조조상비교,Ito화IK1전류밀도수착TNF-α농도적증가이강저(P<0.05)。결론:TNF-α대심내막급심외막단상동작전위적불동영향가능대급성심경후실성심률실상적형성유유도혹촉진작용,기궤제가능여TNF-α농도의뢰성억제Ito화 IK1전류,인기동작전위복겁화이상종이유발절반성심률실상유관。
Objective: To explore the relationship between expression of tumor necrosis factor-α( TNF-α) and electrophysiological heterogeneity in isolated heart tissues and isolated rat ventricular myocytes.The arrhythmogenic mechanisms of TNF-αwere further studied.Methods:Langendorff perfused heart tissues models were used to verify the arrhythmogenic effects of TNF-α.The monophasic action potentials( MAPs) of the endocardium and epicardium from the isolated heart tissues were recorded by elec-trophysiological experiments.The isolated rat ventricular myocytes were obtained by enzymatic dissociation.K+currents(Ito,IK1)were recorded by using whole cell patch clamp technique.Results: Compared to the control group, the difference in MAPD between endocardium and epicardium dramatically increased with TNF-α( P<0.05 ) .TNF-αcould cause MAP duration ( MAPD ) prolongation, and a single dose of TNF-αdifferentially affected the MAPs of endocardium and epicardium of isolated heart tissues.Compared to the control group,the K+currents(Ito,IK1)were dose-dependently decreased with TNF-αin rat ventricular myocytes(P<0.05).However, etanercept had no effects on the MAPD in the absence of TNF-α.Conclusion:TNF-α-induced heterogeneity of MAPD between the endo-cardium and epicardium may provide the substrate for the onset of ventricular arrhythmias during acute myocardial infarction.The effect might be associated with TNF-αcontribute to re-entrant ventricular arrhythmias which resulted from decreased K+currents(Ito,IK1).