Deitrich R A, Bludeau P, Erwin V G
Department of Pharmacology, University of Colorado Health Sciences Center, Denver 80262, USA.
Alcohol Clin Exp Res. 2000 May;24(5):595-604.
Genetically based risk for development of alcoholism in humans seems to be related to initial sensitivity and/or acute tolerance to ethanol. The genetic basis for the development of tolerance has received less attention than other ethanol-related behaviors. We have selected lines of mice, according to genetics, which are differentially sensitive to the initial hypnotic effect of ethanol (Short Sleep and Long Sleep, SS and LS) and other lines that differentially develop acute functional tolerance to ethanol (High and Low Acute Functional Tolerance, HAFT and LAFT). We review reports of the relationship between initial sensitivity and two forms of tolerance as measured using different behavioral measures and different time scales. The goal of the study was to investigate alcohol tolerance as measured by different behavioral tests conducted over different time periods and relate these variables to hypnotic sensitivity.
We investigated the phenotypic and genotypic relationships between different measures of tolerance to ethanol in the SS and LS mice. We used two measures of tolerance: (a) The time an animal can remain on a stationary dowel or roto-rod at 5-min intervals up to 30 minutes after a single low dose of ethanol (Acute Single Dose Tolerance, ASDT-dowel or ASDT-roto-rod); and (b) The difference in blood ethanol levels taken when a mouse could repeatedly regain balance on a stationary dowel or roto-rod after successive doses of ethanol (Acute Functional tolerance, AFT-dowel or AFT-roto-rod). The time course in AFT was much longer, up to 2 hours. We carried out the same studies on the High and Low Acute Functional Tolerance (HAFT and LAFT) mice.
SS and LS mice differ in hypnotic sensitivity as measured by sleep time, and they differ in all forms of acute tolerance that were measured except in AFT-dowel. Although there were phenotypic correlations between AFT-dowel and ASDT-roto-rod in the Heterogeneous Stock (HS) of mice, provisional Quantitative Trait Loci (determined with Recombinant Inbred mice from a SS X LS cross) for the two phenotypes did not overlap, which indicated that there was little or no genetic correlation between the measures. HAFT and LAFT mice do not differ in hypnotic sensitivity as measured by sleep time measurements nor in ataxic sensitivity as measured on the dowel. The HAFT and LAFT mice both developed tolerance when tested in the 30-minute time frame, but the differences between the lines was largely in the rate of development of tolerance and not the amount developed. On the other hand, when tolerance was measured over 2 hr on the dowel or roto-rod, the HAFT and LAFT animals developed different levels of tolerance.
We concluded that measures of tolerance depended on both the time of ethanol's action and the behavioral task used. It seemed that the measures of tolerance used in this study had different genetic bases in mice. Presumably, tolerance will also vary in humans depending on the behavioral measure, and tolerance will also have different genetic bases for the different behavioral measures in humans.
人类酒精中毒发生的遗传风险似乎与对乙醇的初始敏感性和/或急性耐受性有关。耐受性发展的遗传基础相较于其他与乙醇相关的行为受到的关注较少。我们根据遗传学选择了对乙醇初始催眠作用敏感性不同的小鼠品系(短睡眠和长睡眠,SS和LS)以及对乙醇急性功能耐受性发展不同的其他品系(高急性功能耐受性和低急性功能耐受性,HAFT和LAFT)。我们回顾了使用不同行为测量方法和不同时间尺度测量的初始敏感性与两种耐受性形式之间关系的报告。该研究的目的是通过在不同时间段进行的不同行为测试来研究酒精耐受性,并将这些变量与催眠敏感性相关联。
我们研究了SS和LS小鼠中不同乙醇耐受性测量指标之间的表型和基因型关系。我们使用了两种耐受性测量方法:(a)在单次低剂量乙醇给药后30分钟内,以5分钟为间隔,动物能够在固定木钉或旋转杆上停留的时间(急性单剂量耐受性,ASDT - 木钉或ASDT - 旋转杆);(b)在连续给予乙醇后,小鼠能够在固定木钉或旋转杆上反复恢复平衡时所测的血液乙醇水平差异(急性功能耐受性,AFT - 木钉或AFT - 旋转杆)。AFT的时间进程长得多,长达2小时。我们对高急性功能耐受性和低急性功能耐受性(HAFT和LAFT)小鼠进行了相同的研究。
通过睡眠时间测量,SS和LS小鼠在催眠敏感性上存在差异,并且除了AFT - 木钉外,它们在所有测量的急性耐受性形式上也存在差异。尽管在小鼠的异质群体(HS)中,AFT - 木钉和ASDT - 旋转杆之间存在表型相关性,但两种表型的临时数量性状位点(由SS×LS杂交的重组近交小鼠确定)并不重叠,这表明这些测量指标之间几乎没有或没有遗传相关性。通过睡眠时间测量,HAFT和LAFT小鼠在催眠敏感性上没有差异,在木钉上测量的共济失调敏感性也没有差异。在30分钟的时间框架内进行测试时,HAFT和LAFT小鼠都产生了耐受性,但品系之间的差异主要在于耐受性的发展速度而非发展程度。另一方面,当在木钉或旋转杆上超过2小时测量耐受性时,HAFT和LAFT动物产生的耐受性水平不同。
我们得出结论,耐受性测量取决于乙醇作用的时间和所使用的行为任务。本研究中使用的耐受性测量指标在小鼠中似乎具有不同的遗传基础。据推测,在人类中,耐受性也会因行为测量方法而异,并且对于人类不同的行为测量方法,耐受性也将具有不同的遗传基础。
