摘要
目的:研究脑钠肽(brainnetriureticpeptide,BNP)的镇痛作用及机制。方法:在小鼠热板、扭体和甲醛试验上,分别观察用药后舔足潜伏期、扭体数及疼痛评分的变化。一氧化氮(NO)用green法测定。结果:BNP(25,50,100μg·kg-1,ip)能显著延长小鼠舔足潜伏期,并呈量效关系,其ipED50为38.6μg·kg-1;ip25、50μg·kg-1BNP显著减少小鼠扭体数和脑组织中NO含量;ip50μg·kg-1和icv2μg·kg-1BNP均可显著抑制甲醛致小鼠疼痛,降低疼痛评分,进一步发现BNP的镇痛作用可被EGTA加强,CaCl2拮抗,但维拉帕米可部分逆转CaCl2对BNP镇痛的拮抗。结论:BNP有显著镇痛作用,其镇痛作用可被Ca2+影响。
AIM: To study the analgesic effect of brain natriuretic peptide(BNP) and its mechanism. METHODS: On the hotplate, writhing and methyl aldehyde test in mice, the changes of the latencies of licking paws, the writhing numbers and pain score were observed respectively after administrating drugs. The content of nitric oxide(NO) was measured with Green method. RESULTS: BNP(25,50,100 μg·kg-1,ip) could significantly and dosedependently prolong the latencies of licking paws, the ED50 of ip BNP was 386 μg·kg-1; BNP 25,50 μg·kg-1 ip markedly decreased the writhing numbers and the content of NO in the cerebrum; Both ip 50 μg·kg-1 and icv 2 μg·kg-1 BNP could inhibit the pain induced by methyl aldehyde in mice and reduce the pain score. It was further found that analgesic action of BNP could be antagonized by CaCl2 and enhanced by EGTA, and verapamil partilly overturned the antagonism of CaCl2 on the analgesic action of BNP. CONCLUSION: BNP has significant analgesic action and its mechanism may be influenced by calcium ion.
出处
《中国药理学通报》
CAS
CSCD
北大核心
1997年第6期538-540,共3页
Chinese Pharmacological Bulletin
关键词
脑钠肽
钙离子
镇痛作用
一氧化氮
药理
brain natriurtic peptide
calcium ion
analgesic action
nitric oxide
