腺苷对缺氧/复氧心肌细胞的保护作用

本研究旨在探讨腺苷 (adenosine ,ADO)对缺氧 /复氧 (hypoxia/reoxygenation ,H/R)心肌细胞的保护作用及其分子机制。将原代培养的新生大鼠心肌细胞分成H/R对照组和ADO (1 0 μmol/L)保护组。用倒置相差显微镜观察心肌细胞的生长状态。检测两组培养基质乳酸脱氢酶 (LDH)活性和心肌细胞Ca2 + 和丙二醛 (MDA)浓度。用ELISA法检测肿瘤坏死因子 (TNF α)的表达 ,并用凝胶电泳迁移率改变法 (EMSA)测定核因子 (NF κB)结合活性。所得结果如下 :(1)心肌细胞H/R培养后皱缩、变圆 ,伪足减少 ,ADO组心肌细胞的形态变化小于对照组 ;(2 )ADO减少缺氧和复氧期间心肌细胞LDH的漏出 (bothP <0 0 1) ;(3 )ADO降低缺氧和复氧期间心肌细胞内的Ca2 +浓度 (bothP <0 0 1) ;(4)ADO降低缺氧和复氧期间心肌细胞MDA浓度 (bothP <0 0 1) ;(5 )ADO抑制缺氧和复氧期间TNF α的表达 (bothP <0 0 1) ;(6)ADO抑制缺氧和复氧期间心肌细胞NF κB结合活性 (bothP <0 0 1)。以上结果提示 :(1)外源性ADO可减轻心肌细胞的H/R损伤 ;(2 )外源性ADO抑制H/R期间心肌细胞TNF α的表达 ;(3 )外源性ADO可能通过抑制心肌细胞NF κB结合活性下调TNF α的表达

Adenosine protects cardiomyocytes from hypoxia/reoxygenation injury

The aim of this study was to investigate the protective effect of adenosine (ADO) on cardiomyocytes following hypoxia/reoxygenation (H/R) and its molecular mechanism. Primary cultured cardiomyocytes of neonatal rats were divided into two groups, namely H/R (control) and ADO (1.0 micromol/L) groups. The morphologic changes in cardiomyocytes were observed under an inverted phase-contrast microscope. The following parameters of the two groups were determined: lactate dehydrogenase (LDH) activity, intracellular calcium concentration and malondialdehyde (MDA) content. Tumor necrotic factor (TNF-alpha) assay was performed using an ELISA kit and NF-kappaB in the nucleus was analyzed by electrophoretic mobility shift assay (EMSA). The results are as follows: (1) after H/R injury, cardiomyocytes contracted, tending to get round in shape and its pseudopods decreased, while marked morphological changes were not observed in ADO group; (2) LDH leakage maintained at a lower level in ADO group than that in the control group during H/R (both P<0.01); (3) ADO significantly reduced the concentration of calcium in cells and prevented calcium overload during H/R (both P<0.01); (4) ADO markedly reduced the content of MDA during H/R (both P<0.01); (5) ADO inhibited the production of TNF-alpha during H/R (both P<0.01); and (6) ADO down-regulated NF-kappaB binding activity of cardiomyocytes during H/R (both P<0.01) The results suggest that (1) exogenous ADO attenuates H/R injury of cultured cardiomyocytes; (2) exogenous ADO inhibits the production of TNF-alpha after H/R injury; (3) exogenous ADO prevents the activation of NF-kappaB, which may be the molecular mechanism of down-regulation of TNF-alpha expression.