黄绿青霉素对低硒低蛋白大鼠心肌损伤的初步观察

目的 观察黄绿青霉素(CIT)对低硒低蛋白大鼠心肌损伤的特点.方法 40只4周龄Wistar大鼠,雌雄符半,体质量60～80 g,按2×2析因设计随机分为常硒常蛋白无毒素组、常硒常蛋白加毒素组、低硒低蛋白无毒素组和低硒低蛋白加毒素组(将低硒低蛋白合为一种因素考虑),每组10只.分别采用常硒常蛋白和低硒低蛋白饲料喂养大鼠至第10周后,加毒素组大鼠饲料中投予CIT(5 mg·kg-1·d-1)继续喂养至第16周.观察各组大鼠的毛色、摄食、体质量增长情况,计算心脏质量指数,观察心肌病理变化,检测血清硒、白蛋白水平、肌酸激酶(CK)和谷胱甘肽过氧化物酶(GSH-Px)活性以及心肌超氧化物歧化酶(SOD)活性.结果 硒、蛋白和CIT对大鼠体质量、血清硒、白蛋白水平、心脏质量指数、血清CK、GSH-Px活性和心肌SOD活性的影响不存在交互作用(F值分别为0.000、1.210、0.625、0.981、2.785、0.074、0.001,P均>0.05);硒、蛋白对大鼠血清硒、白蛋白水平、心脏质量指数和血清GSH-Px活性的主效应有统计学意义(F值分别为507.698、87.734、4.201、109.389,P均<0.05);CIT对大鼠体质量、血清硒、白蛋白水平、心脏质量指数、血清CK活性的主效应有统计学意义(F值分别为10.929、4.371、26.108、24.844、4.439,P均<0.05).低硒低蛋白两组的血清硒水平(70.4±40.0)、(87.7 ±59.6)μg/L]低于常硒常蛋A两组(446.1±74.8)、(502.1±39.2)μg/L,P均<0.05];低硒低蛋白两组的血清白蛋白水平(34.36±1.28)、(33.38±2.48)g/L]低于常硒常蛋白两组(40.69±1.30)、(38.71±2.15)g/L,P均<0.05];相同硒和蛋白水平下,加毒素组的心脏质量指数(4.14±0.36)×10-3、(4.39 ±0.53)×10-3]高于无毒素组(3.56±0.26)×10-3、(3.80±0.28)×10-3,P均<0.05];低硒低蛋白加毒素组的血清CK活性(2.54 ±0.56)kU/L]低于低硒低蛋白无毒素组(3.37±0.67)kU/L,P<0.05].低硒低蛋白两组的血清GSH-Px活性>(408.1±412.6)、(510.5 ±392.0)U/L低于常硒常蛋白两组(1667.8±102.2)、(1731.5±144.4)U/L,P均<0.05].电镜结果显示,常硒常蛋白加毒素组大鼠部分心肌细胞闰盘断裂,各带连接断裂,部分区域心肌细胞有溶解现象,有水肿表现;低硒低蛋白无毒素组大鼠心肌细胞膜结构改变不明显,核周围肌丝结构消失,可见大量絮状物质沉积;低硒低蛋白加毒素组大鼠心肌细胞肌节各带结构不很清晰,核旁线粒休嵴轻度疏松,偶见空泡变,大量弥漫性肌质网扩张.结论 CIT是诱导大鼠心肌细胞损伤的主要因素,低硒低蛋白加重病变,但独立致病作用较弱.

Abstract：

Objective To ohserve the rat myocardial damage induced by citreoviridin(CIT)in the status of combined selenium and protein deficiency.Methods According to 2×2 factorial design,forty 4-week-old healthy Wistar rats were randomly divided into four groups.i.e.combined selenium and protein adequate with no CIT and with some CIT groups(Se+Pro+CIT-.Se+Pro+CiT+),combined selenium and protein deficiency with no CIT and with some CIT groups(Se-Pro-CIT-,Se-Pro-CIT+).The numbers of male and female were fifty-fifty.Theserats were fed with combined selenium and protein adequate and combined selenium and protein deficiency fodder until the 16th week. Cardiac toxicity of CIT was evaluated by general state of health, heart weight index, myocardial pathological change, the levels of selenium and the activities of glutathion peroxidase (GSH-Px) and creatine kinase (CK) in serum, and the activity of superoxide dismutase(SOD) of myocardium. Results The interaction effects of combined selenium and protein deficiency and adequate CIT on body weight, serum levels of selenium and albumin, heart weight index, the activities of CK and GSH-Px in serum and SOD of myocardium were statistically not significant(F= 0.000, 1.210, 0.625, 0.981, 2.785, 0.074, 0.001, all P> 0.05). The main effects of combined selenium and protein on the levels of serum selenium and albumin, heart weight index and the activity of GSH-Px in serum were statistically significant(F = 507.698, 87.734, 4.201, 109.389, all P < 0.05). The main effects of CIT on body weight, the levels of serum selenium and albumin, heart weight index and the activity of CK in serum were statistically significant(F = 10.929, 4.371, 26.108, 24.844, 4.439, all P < 0.05). The mean levels of serum selenium of Se-Pro- groups (70.4 ± 40.0), (87.7 ± 59.6 )μg/L] were lower than those of Se+Pro+ groups (446.1 ± 74.8),(502.1 ± 39.2)μg/L, all P < 0.05]. The mean levels of serum albumin of Se-Pro- groups (34.36 ± 1.28 ), (33.38 ±2.48)g/L] were lower than those of Se+Pro+ groups(40.69 ± 1.30), (38.71 ± 2.15)g/L, all P < 0.05]. The mean levels of heart weight index of CIT+ groups(4.14 ± 0.36) × 10-3, (4.39 ± 0.53) x 10-3] were higher than those of CIT-groups(3.56 ± 0.26) x 10-3, (3.80 ± 0.28) x 10-3, all P < 0.05] respectively at the same levels of selenium and protein. The mean levels of CK in serum of Se-Pro-CIT+ group(2.54 ± 0.56)kU/L] was lower than that of Se-Pro-CIT- group (3.37 ± 0.67 )kU/L, P < 0.05]. The mean levels of activity of GSH-Px in serum of Se-Progroups(408.1 ± 412.6), (510.5 ± 392.0)U/L] were lower than those of Se+Pro+ groups(1667.8 ± 102.2),(1731.5 ± 144.4)U/L, all P < 0.05]. In Se+Pro+CIT+ group, there was part of intercalary disc of cardiac myocytes fragmented;the conjunctions between myoeytes were broken;in some region, cardiac myocytes became edematous,even dissolved. In Se-Pro-CIT- group, the change of cardiac myocytes membrane structures was not obvious;filament structure was disappeared around nucleus;deposition of mass floccule could be seen. In Se-Pro-CIT+ group,the structure of sarcomeres was not obvious;mitochondrial cristae was loosened;cavities in myocytes could be seen occasionally;there were lots of disseminated sareoplasmic reticulum extending. Conclusions .CIT is the main risk factor in inducing myocardial damage. The deficiency of combined selenium and protein can aggravate the damage,but its independent pathogenic effect is weak.

Citreoviridin-induced rat myocardial damage under combined selenium and protein deficiency

Objective To ohserve the rat myocardial damage induced by citreoviridin(CIT)in the status of combined selenium and protein deficiency.Methods According to 2×2 factorial design,forty 4-week-old healthy Wistar rats were randomly divided into four groups.i.e.combined selenium and protein adequate with no CIT and with some CIT groups(Se+Pro+CIT-.Se+Pro+CiT+),combined selenium and protein deficiency with no CIT and with some CIT groups(Se-Pro-CIT-,Se-Pro-CIT+).The numbers of male and female were fifty-fifty.Theserats were fed with combined selenium and protein adequate and combined selenium and protein deficiency fodder until the 16th week. Cardiac toxicity of CIT was evaluated by general state of health, heart weight index, myocardial pathological change, the levels of selenium and the activities of glutathion peroxidase (GSH-Px) and creatine kinase (CK) in serum, and the activity of superoxide dismutase(SOD) of myocardium. Results The interaction effects of combined selenium and protein deficiency and adequate CIT on body weight, serum levels of selenium and albumin, heart weight index, the activities of CK and GSH-Px in serum and SOD of myocardium were statistically not significant(F= 0.000, 1.210, 0.625, 0.981, 2.785, 0.074, 0.001, all P> 0.05). The main effects of combined selenium and protein on the levels of serum selenium and albumin, heart weight index and the activity of GSH-Px in serum were statistically significant(F = 507.698, 87.734, 4.201, 109.389, all P < 0.05). The main effects of CIT on body weight, the levels of serum selenium and albumin, heart weight index and the activity of CK in serum were statistically significant(F = 10.929, 4.371, 26.108, 24.844, 4.439, all P < 0.05). The mean levels of serum selenium of Se-Pro- groups (70.4 ± 40.0), (87.7 ± 59.6 )μg/L] were lower than those of Se+Pro+ groups (446.1 ± 74.8),(502.1 ± 39.2)μg/L, all P < 0.05]. The mean levels of serum albumin of Se-Pro- groups (34.36 ± 1.28 ), (33.38 ±2.48)g/L] were lower than those of Se+Pro+ groups(40.69 ± 1.30), (38.71 ± 2.15)g/L, all P < 0.05]. The mean levels of heart weight index of CIT+ groups(4.14 ± 0.36) × 10-3, (4.39 ± 0.53) x 10-3] were higher than those of CIT-groups(3.56 ± 0.26) x 10-3, (3.80 ± 0.28) x 10-3, all P < 0.05] respectively at the same levels of selenium and protein. The mean levels of CK in serum of Se-Pro-CIT+ group(2.54 ± 0.56)kU/L] was lower than that of Se-Pro-CIT- group (3.37 ± 0.67 )kU/L, P < 0.05]. The mean levels of activity of GSH-Px in serum of Se-Progroups(408.1 ± 412.6), (510.5 ± 392.0)U/L] were lower than those of Se+Pro+ groups(1667.8 ± 102.2),(1731.5 ± 144.4)U/L, all P < 0.05]. In Se+Pro+CIT+ group, there was part of intercalary disc of cardiac myocytes fragmented;the conjunctions between myoeytes were broken;in some region, cardiac myocytes became edematous,even dissolved. In Se-Pro-CIT- group, the change of cardiac myocytes membrane structures was not obvious;filament structure was disappeared around nucleus;deposition of mass floccule could be seen. In Se-Pro-CIT+ group,the structure of sarcomeres was not obvious;mitochondrial cristae was loosened;cavities in myocytes could be seen occasionally;there were lots of disseminated sareoplasmic reticulum extending. Conclusions .CIT is the main risk factor in inducing myocardial damage. The deficiency of combined selenium and protein can aggravate the damage,but its independent pathogenic effect is weak.