Alterations in brain aldehyde dehydrogenase activity modify the locomotor effects produced by ethanol in rats.

Alcohol and drug research Pub Date : 1987-01-01
K Spivak, C M Aragon, Z Amit
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Abstract

The role of brain aldehyde dehydrogenase (ALDH) and acetaldehyde in mediating ethanol-induced locomotor activity was investigated using several enzyme inhibitors. Cyanamide, an ALDH inhibitor elevates blood acetaldehyde levels in the presence of ethanol. Concurrent administration with 4-methylpyrazole, an alcohol dehydrogenase inhibitor, prevents peripheral accumulation of acetaldehyde by cyanamide. Two hr prior to testing locomotor activity in open field boxes, 111 male Long Evans rats were pretreated with i.p. injections of saline (S+S), 4-methylpyrazole (4MP+S), cyanamide (S+C) or 4-methylpyrazole + cyanamide (4MP+C). Subjects then received i.p. injections of one of three doses of ethanol (0.4, 0.8 or 1.2 gm/kg) or saline vehicle one minute prior to testing in the open field and locomotor activity was recorded for a 10 min period. Locomotor activity of animals pretreated with cyanamide (S+C and 4MP+C) was significantly depressed compared to groups S+S and 4MP+S particularly at the two lower doses tested. These effects cannot be attributed to elevated blood acetaldehyde levels since pretreatment with 4MP+C prevented peripheral accumulation of acetaldehyde. A characteristic common to both cyanamide-treated groups was the inhibition of brain ALDH. It is therefore suggested that brain ALDH may play a role in the mediation of locomotor effects produced by ethanol. It is conceivable that ALDH plays this role by regulating the levels of acetaldehyde in brain.

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脑醛脱氢酶活性的改变改变了乙醇对大鼠运动的影响。
用几种酶抑制剂研究了脑醛脱氢酶(ALDH)和乙醛在介导乙醇诱导的运动活性中的作用。氰胺,一种ALDH抑制剂,在乙醇存在的情况下提高血液中乙醛的水平。与4-甲基吡唑(一种醇脱氢酶抑制剂)同时施用,可防止氰酰胺在周围积聚乙醛。111只雄性Long Evans大鼠在开箱试验前2小时,分别腹腔注射生理盐水(S+S)、4-甲基吡唑(4MP+S)、氰酰胺(S+C)或4-甲基吡唑+氰酰胺(4MP+C)。在野外测试前1分钟,受试者接受三种剂量乙醇(0.4、0.8或1.2 gm/kg)或生理盐水载体中的一种的静脉注射,并记录运动活动10分钟。与S+S和4MP+S组相比,经氰酰胺(S+C和4MP+C)预处理的动物的运动活动明显受到抑制,特别是在两个较低剂量的测试中。这些影响不能归因于血液中乙醛水平升高,因为预处理4MP+C阻止了乙醛的外周积累。两个氰胺处理组的共同特征是抑制脑ALDH。因此,脑ALDH可能在乙醇引起的运动效应中起中介作用。可以想象,ALDH通过调节大脑中乙醛的水平来发挥这一作用。
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