鱼藤酮对中脑星形胶质细胞的损伤及阿糖胞苷的干预作用

Objective To observe the toxic effects of rotenone on the proliferation, γ-glutamylcysteinylglycine (GSH) content and the expression level of glial cell line-derived neurotrophic factor (GDNF) of rat rnidbrain astrocytes in vitro and the interventional effect of arabinoeytidine (ara-c). Methods In vitro cultured rat midbrain astrocytes were assigned randomly into 9 groups, including a normal control group, 4 short-term rotenone treatment groups exposed for 24 h to 10, 20, 40 or 60 nmol/L rotenone, 2 long-term rotenone treatment groups exposed for 30 days to 10 or 20 nmol/L rotenone, and 2 ara-c groups with 500 nmol/L ara-c treatment following exposure to 10 or 20 nmol/L rotenone for 6 days. The cell proliferation was assessed by immunocytochemical detection of the expression of proliferating cell nuclear antigen (PCNA). GSH content in the treated cells was measured by GSH detection kit, and the expression of GDNF was detected with immunocytochemistry and Western blot. Results The 24-h exposure to low-level rotenone (10 and 20 nmol/L) did not cause any changes in GSH content or GDNF expression in the cells. But at 40 and 60 nmol/L, rotenone treatment for 24 h significantly decreased the GSH content and GDNF expression. Rotenone exposure for 30 days increased the ratio of proliferating astrocytes and decreased GDNF expression level, but the GSH content remained stable. The application of 500 nmol/L ara-c to suppress the cell proliferation restored the expression level of GDNF to almost the control level and markedly increased GSH content. Conclusion Rotenone affects the proliferation and activity of rat midbrain astrocytes in vitro and deteriorates the microenvironment of dopaminergic neurons. Low-level ara-c can increase the GSH content and GDNF expression levels by suppressing the proliferation of rotenone-exposed astrocytes, suggesting its potential value in the treatment of Parkinson's disease.     

鱼藤酮对中脑星形胶质细胞的损伤及阿糖胞苷的干预作用

Objective To observe the toxic effects of rotenone on the proliferation, γ-glutamylcysteinylglycine (GSH) content and the expression level of glial cell line-derived neurotrophic factor (GDNF) of rat rnidbrain astrocytes in vitro and the interventional effect of arabinoeytidine (ara-c). Methods In vitro cultured rat midbrain astrocytes were assigned randomly into 9 groups, including a normal control group, 4 short-term rotenone treatment groups exposed for 24 h to 10, 20, 40 or 60 nmol/L rotenone, 2 long-term rotenone treatment groups exposed for 30 days to 10 or 20 nmol/L rotenone, and 2 ara-c groups with 500 nmol/L ara-c treatment following exposure to 10 or 20 nmol/L rotenone for 6 days. The cell proliferation was assessed by immunocytochemical detection of the expression of proliferating cell nuclear antigen (PCNA). GSH content in the treated cells was measured by GSH detection kit, and the expression of GDNF was detected with immunocytochemistry and Western blot. Results The 24-h exposure to low-level rotenone (10 and 20 nmol/L) did not cause any changes in GSH content or GDNF expression in the cells. But at 40 and 60 nmol/L, rotenone treatment for 24 h significantly decreased the GSH content and GDNF expression. Rotenone exposure for 30 days increased the ratio of proliferating astrocytes and decreased GDNF expression level, but the GSH content remained stable. The application of 500 nmol/L ara-c to suppress the cell proliferation restored the expression level of GDNF to almost the control level and markedly increased GSH content. Conclusion Rotenone affects the proliferation and activity of rat midbrain astrocytes in vitro and deteriorates the microenvironment of dopaminergic neurons. Low-level ara-c can increase the GSH content and GDNF expression levels by suppressing the proliferation of rotenone-exposed astrocytes, suggesting its potential value in the treatment of Parkinson's disease.     

鱼藤酮对中脑星形胶质细胞的损伤及阿糖胞苷的干预作用

Objective To observe the toxic effects of rotenone on the proliferation, γ-glutamylcysteinylglycine (GSH) content and the expression level of glial cell line-derived neurotrophic factor (GDNF) of rat rnidbrain astrocytes in vitro and the interventional effect of arabinoeytidine (ara-c). Methods In vitro cultured rat midbrain astrocytes were assigned randomly into 9 groups, including a normal control group, 4 short-term rotenone treatment groups exposed for 24 h to 10, 20, 40 or 60 nmol/L rotenone, 2 long-term rotenone treatment groups exposed for 30 days to 10 or 20 nmol/L rotenone, and 2 ara-c groups with 500 nmol/L ara-c treatment following exposure to 10 or 20 nmol/L rotenone for 6 days. The cell proliferation was assessed by immunocytochemical detection of the expression of proliferating cell nuclear antigen (PCNA). GSH content in the treated cells was measured by GSH detection kit, and the expression of GDNF was detected with immunocytochemistry and Western blot. Results The 24-h exposure to low-level rotenone (10 and 20 nmol/L) did not cause any changes in GSH content or GDNF expression in the cells. But at 40 and 60 nmol/L, rotenone treatment for 24 h significantly decreased the GSH content and GDNF expression. Rotenone exposure for 30 days increased the ratio of proliferating astrocytes and decreased GDNF expression level, but the GSH content remained stable. The application of 500 nmol/L ara-c to suppress the cell proliferation restored the expression level of GDNF to almost the control level and markedly increased GSH content. Conclusion Rotenone affects the proliferation and activity of rat midbrain astrocytes in vitro and deteriorates the microenvironment of dopaminergic neurons. Low-level ara-c can increase the GSH content and GDNF expression levels by suppressing the proliferation of rotenone-exposed astrocytes, suggesting its potential value in the treatment of Parkinson's disease.     

A Clinical and Experimental Study on the Protective Effects of Jiangzhi Tongmai Fang on Endothelial Injury

31 cases of atherosclerosis (AS) were treated with Jiang Zhi Tong Mai Fang ([symbol: see text], formula of JZTMF), and its effect was compared with 30 cases treated with lovastatin in the control group. Clinically, the JZTMF formula showed an effect of regulating blood lipids, and therefore it was antiatherosclerotic. The mechanism is, probably, restoration of the function of endothelial cells (EC) by increasing the synthesis of 6-keto-PGF1 alpha and decreasing the release of endothelin (ET) as evidenced in the experimental study.     

中西医结合治疗血管性痴呆60例疗效观察

采用清开灵注射液为主配合维脑路通、脑活素等治疗血管性痴呆６０例,并与单纯维脑路通、脑活素等治疗５４例对照观察。结果：治疗组中显效１３例,有效４５例,无效２例,总有效率为９６．７％;对照组中显效４例,有效４２例,无效８例,总有效率为８５．２％;两组总有效率比较,有显著差异（Ｐ＜０．０５）。     

盐酸苯海索与盐酸氯丙嗪血平面的报道

日前应用神经阻断剂治疗精神疾病时，常引起各种副反应，其巾以震颤麻痹症为常见，囚此普遍地以盐酸苯海索（安坦）为治疗药物。Rivera-Calimlin Ⅰ等（1973）报道口服盐酸苯海索能使盐酸氯丙噪妞浆平面下降，如果药效与血药平面的商低有一定关联时，任何恰：当地应用盐酸苯海索治疗震颤麻痹症副反应将是一个重要的临床治疗问题，为此我们对37例住院的精神病患者，观察应用盐酸苯海索前后的氯丙嗪血平面，结果如下。     

鱼藤酮对中脑星形胶质细胞的损伤及阿糖胞苷的干预作用

Objective To observe the toxic effects of rotenone on the proliferation, γ-glutamylcysteinylglycine (GSH) content and the expression level of glial cell line-derived neurotrophic factor (GDNF) of rat rnidbrain astrocytes in vitro and the interventional effect of arabinoeytidine (ara-c). Methods In vitro cultured rat midbrain astrocytes were assigned randomly into 9 groups, including a normal control group, 4 short-term rotenone treatment groups exposed for 24 h to 10, 20, 40 or 60 nmol/L rotenone, 2 long-term rotenone treatment groups exposed for 30 days to 10 or 20 nmol/L rotenone, and 2 ara-c groups with 500 nmol/L ara-c treatment following exposure to 10 or 20 nmol/L rotenone for 6 days. The cell proliferation was assessed by immunocytochemical detection of the expression of proliferating cell nuclear antigen (PCNA). GSH content in the treated cells was measured by GSH detection kit, and the expression of GDNF was detected with immunocytochemistry and Western blot. Results The 24-h exposure to low-level rotenone (10 and 20 nmol/L) did not cause any changes in GSH content or GDNF expression in the cells. But at 40 and 60 nmol/L, rotenone treatment for 24 h significantly decreased the GSH content and GDNF expression. Rotenone exposure for 30 days increased the ratio of proliferating astrocytes and decreased GDNF expression level, but the GSH content remained stable. The application of 500 nmol/L ara-c to suppress the cell proliferation restored the expression level of GDNF to almost the control level and markedly increased GSH content. Conclusion Rotenone affects the proliferation and activity of rat midbrain astrocytes in vitro and deteriorates the microenvironment of dopaminergic neurons. Low-level ara-c can increase the GSH content and GDNF expression levels by suppressing the proliferation of rotenone-exposed astrocytes, suggesting its potential value in the treatment of Parkinson's disease.     

鱼藤酮对中脑星形胶质细胞的损伤及阿糖胞苷的干预作用

目的 观察鱼藤酮毒性作用及阿糖胞苷(ara-c)干预对体外培养中脑腹侧星形胶质细胞增殖、还原型谷胱甘肽(GSH)含量及胶质细胞源性神经营养因子(GDNF)表达的影响. 方法 体外培养大鼠中脑腹侧星形胶质细胞随机分成9组,分别为对照组,10、20、40及60nmol/L鱼藤酮短时程损伤组(用相应浓度鱼藤酮处理24 h),10及20 nmol/L鱼藤酮长时程损伤组(相应浓度鱼藤酮处理30 d),10及20 nmol/L鱼藤酮长时程损伤+ara-c处理组(相应浓度鱼藤酮处理30 d,500nmol/L ara-c处理6 d).增殖细胞核抗原(PCNA)免疫细胞化学染色观察细胞增殖情况,GSH检测试剂盒检测细胞GSH含量.免疫细胞化学方法 和Western blot检测GDNF的表达情况. 结果短时程损伤各组10和20 nmol/L鱼藤酮作用 24 h未能使细胞GSH含量及GDNF表达最降低,但40和60 nmol/L鱼藤酮作用24 h可使细胞GSH含量降低、GDNF表达减少.长时程损伤组10和20nmol/L鱼藤酮作用30 d后处于增殖状态的星形胶质细胞比例增高,GSH含量未见降低.但GDNF表达量减少:500nmol/L ara-c抑制细胞增殖后,可使GDNF的表达回升至接近对照组水平且GSH含量明显提高. 结论 鱼藤酮可影响中腩腹侧旱形胶质细胞的增殖和功能,恶化多巴胺能神经元的生存微环境;低浓度ara-c可通过抑制旱形胶质细胞的过度增殖,恢复GDNF表达量并明显提高GSH含量,提示ara-c对帕金森病具有潜在的治疗价值.     

鱼藤酮对中脑星形胶质细胞的损伤及阿糖胞苷的干预作用

Objective To observe the toxic effects of rotenone on the proliferation, γ-glutamylcysteinylglycine (GSH) content and the expression level of glial cell line-derived neurotrophic factor (GDNF) of rat rnidbrain astrocytes in vitro and the interventional effect of arabinoeytidine (ara-c). Methods In vitro cultured rat midbrain astrocytes were assigned randomly into 9 groups, including a normal control group, 4 short-term rotenone treatment groups exposed for 24 h to 10, 20, 40 or 60 nmol/L rotenone, 2 long-term rotenone treatment groups exposed for 30 days to 10 or 20 nmol/L rotenone, and 2 ara-c groups with 500 nmol/L ara-c treatment following exposure to 10 or 20 nmol/L rotenone for 6 days. The cell proliferation was assessed by immunocytochemical detection of the expression of proliferating cell nuclear antigen (PCNA). GSH content in the treated cells was measured by GSH detection kit, and the expression of GDNF was detected with immunocytochemistry and Western blot. Results The 24-h exposure to low-level rotenone (10 and 20 nmol/L) did not cause any changes in GSH content or GDNF expression in the cells. But at 40 and 60 nmol/L, rotenone treatment for 24 h significantly decreased the GSH content and GDNF expression. Rotenone exposure for 30 days increased the ratio of proliferating astrocytes and decreased GDNF expression level, but the GSH content remained stable. The application of 500 nmol/L ara-c to suppress the cell proliferation restored the expression level of GDNF to almost the control level and markedly increased GSH content. Conclusion Rotenone affects the proliferation and activity of rat midbrain astrocytes in vitro and deteriorates the microenvironment of dopaminergic neurons. Low-level ara-c can increase the GSH content and GDNF expression levels by suppressing the proliferation of rotenone-exposed astrocytes, suggesting its potential value in the treatment of Parkinson's disease.     

孪生姐妹同患躁狂症

近来，我院收治一对孪生姐妹同患躁狂症的病例，现报告如下。