Susceptibility of diabetic rat aorta to self-deactivation during prostacyclin synthesis

K. Kawamura , T. Dohi , T. Ogawa , M. Shirakawa , H. Okamoto , A. Tsujimoto
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引用次数: 5

Abstract

The ability of aortic rings to produce PGI2 markedly decreased in streptozotocin-induced diabetic rats when compared with age-matched controls. Arachidonic acid dose-dependently stimulated the production of PGI2 both in normal and diabetic rat aorta during 5 min incubation. The deficiency in PGI2 production in diabetic rat aorta was temporarily corrected by the addition of 5–20 μM of arachidonic acid. However, when aortic rings were incubated over a period of 10 min in the presence of arachidonic acid, the ability of PGI production in diabetic rats markedly decreased. Repeated exposures A aortic rings to arachidonic acid also markedly reduced PGI2 production in diabetic rats. PGI2 production in diabetic rat aorta was inactivated more readily than in normal rat aorta by pre-incubation with t-butyl hydroperoxide. Phenol had a protective effect on incubation-induced inactivation of PGI2 generating activity in diabetic rat aorta. Serum markedly stimulate PGI2 synthesis in normal and diabetic rat aorta. The serum activity in diabetic rats was less potent than in normal rats. Melittin and dipyridamole were effective in stimulating PGI2 release from diabetic rat aorta.

These results suggest that enzymes in the aorta involved in PGI2 synthesis from released arachidonic acid are susceptible to self inactivation in diabetic rats during the metabolism of arachidonic acid. This may contribute to the defect of PGI2 synthesis in diabetic rat aorta in addition to the decreased availability of the substrate.

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糖尿病大鼠主动脉在前列环素合成过程中自我失活的易感性
与年龄匹配的对照组相比,链脲佐菌素诱导的糖尿病大鼠主动脉环产生PGI2的能力明显下降。花生四烯酸剂量依赖性地刺激正常和糖尿病大鼠主动脉5分钟内PGI2的产生。添加5-20 μM花生四烯酸可暂时纠正糖尿病大鼠主动脉PGI2生成不足。然而,当主动脉环在花生四烯酸的作用下孵育10分钟后,糖尿病大鼠产生PGI的能力明显下降。反复暴露于花生四烯酸的大鼠主动脉环也显著减少糖尿病大鼠PGI2的产生。与正常大鼠主动脉相比,糖尿病大鼠主动脉中PGI2的产生更容易被过氧化叔丁基预孵育灭活。苯酚对培养诱导的糖尿病大鼠主动脉PGI2生成活性失活具有保护作用。血清明显刺激正常和糖尿病大鼠主动脉PGI2合成。糖尿病大鼠的血清活性低于正常大鼠。蜂毒素和双嘧达莫能有效刺激糖尿病大鼠主动脉中PGI2的释放。这些结果表明,糖尿病大鼠在花生四烯酸代谢过程中,主动脉中参与由释放的花生四烯酸合成PGI2的酶容易自我失活。这可能导致糖尿病大鼠主动脉中PGI2合成的缺陷以及底物的可用性降低。
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