摘要
目的:探讨神经元型一氧化氮合酶(nNOS)催化产生的一氧化氮(NO)在Ⅱ组代谢型谷氨酸受体(mGluR2/3)介导的脑缺血预处理(CIP)保护机制中的作用。方法:36只永久凝闭椎动脉的SD大鼠随机分为6组(n=6):sham、CIP、损伤性缺血、CIP+损伤性缺血、MTPG+CIP和MTPG+CIP+损伤性缺血组。采用硫堇染色和免疫组化观察海马CA1区迟发性神经元死亡(DND)和nNOS表达的变化。结果:与Sham组相比,CIP组海马nNOS表达出现一定程度的上调,而损伤性脑缺血组则出现nNOS表达的明显上调,预先给与CIP可一定程度上防止损伤性脑缺血所致的nNOS表达的过度升高。在MTPG+CIP组,预先侧脑室注射mGluR2/3阻断剂MTPG,可阻断CIP引起的nNOS表达增加,但对神经元的存活无影响。而在MTPG+CIP+损伤性缺血组中,出现大量锥体神经元DND,同时nNOS的表达较MTPG+CIP组明显增加,该增加为损伤性脑缺血所致,而非MTPG的作用。结论:nNOS催化产生的NO作为mGluR2/3的下游分子参与脑缺血预处理过程中mGluR2/3介导的脑缺血耐受的形成。
Aim: To explore the role of nitric oxide (NO) resulted from nNOS in the mGluR2/3 mediated-brain ischemic tolerance induced by cere- bral ischemic preconditioning(CIP), the present study is tmdertaken to observe the influences of α-methyl-(4-tetrazolyl-phenyl) glyeine (MTPG), an antagonist of mGluR2/3, on the expression of nNOS during the induction of the brain ischemic tolerance based on confirming the blocking effect of MTPG on the induction of the tolerance. Methods: Thirty-six Sprague-Dawley rats, whose vertebral arteries were permanently occluded, were randomly divided into sham, CIP, ischemic insult, CIP + ischemic insult, MTPG + CIP and MTPG + CIP + ischemic insult groups. Thionin staining and immanohistochemistry were used for neuropathological evaluation and assay of nNOS expression in the hippocampal CA1 subregion of the rats. Results: The expression of nNOS showed moderate and extreme up-regulation in the CIP and ischemia groups, respectively, compared to the sham group. The preceded CIP blocked in certain extent the extreme up-regulation of nNOS induced by brain isehemia in CIP + isehemia group. Administration of MTPG via lateral cerebral ventricle 20 min before CIP blocked the up-regulation of nNOS induced by CIP, but had no influence on the pyramidal neuronal survival. While in the MTPG + CIP + ischemie insult group, the expression of nNOS was stronger than that in the MTPG + CIP group, and the up-regulation was accompanied with obvious delayed neuronal death. Discussion concerned illustrated that the relative intensive up-regulation of nNOS in this group might be attributed to brain ischemia other than MTPG. Conclusion: NO resulted from nNOS participated the induction of mGluR2/3 mediated-brain ischemie tolerance as a downstream molecule of activation of mGluR2/3 during CIP.
出处
《中国应用生理学杂志》
CAS
CSCD
北大核心
2009年第2期182-185,I0004,I0005,共6页
Chinese Journal of Applied Physiology
基金
河北省自然科学基金课题(302494)
