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Literature DB >> 2062990

Response to selection for ethanol-induced locomotor activation: genetic analyses and selection response characterization.

T J Phillips¹, S Burkhart-Kasch, E S Terdal, J C Crabbe.

Abstract

Selectively bred FAST mice are highly susceptible, while SLOW mice are less susceptible, to the locomotor stimulant effects of ethanol. Heritability estimates indicate that approximately 15% of the variance in the FAST lines is of additive genetic origin, while low susceptibility is ostensibly nonheritable. Inbreeding has increased at the rate of 2% per generation, but fertility has been unaffected. Measurement reliability for sensitivity to this ethanol effect was high when measured in both circular (r = 0.6) and square (r = 0.7) open-fields. In addition, our results indicate that we have selected for differences in sensitivity to ethanol rather than for differences in habituation to the test environment. The difference in response to ethanol between FAST and SLOW mice extended to tests varying in duration, and to a range of ethanol doses. We conclude that the divergence between FAST and SLOW mice generalizes to related test parameters, and speculate that the genetic architecture underlying the locomotor stimulant response may be simpler than previously proposed.

Entities: Chemical Species

Mesh：

Substances：
Ethanol

Year: 1991 PMID： 2062990 DOI： 10.1007/bf02244259

Source DB: PubMed Journal: Psychopharmacology (Berl) ISSN： 0033-3158 Impact factor: 4.530

22 in total

Response to selection for ethanol-induced locomotor activation: genetic analyses and selection response characterization.

Review 1. Use of recombinant inbred strains to identify quantitative trait loci in psychopharmacology.

Review 2. Selected mouse lines, alcohol and behavior.

3. Genetic differences in locomotor activation in mice.

4. Short communication. Antagonism by nialamide of the ethanol-induced locomotor stimulation in mice.

Review 5. A psychomotor stimulant theory of addiction.

6. A biometrical genetic analysis of ethanol response in selectively bred long-sleep and short-sleep mice.

7. Ethanol-induced mouse strain differences in locomotor activity.

8. Distinctions among sedative, disinhibitory, and ataxic properties of ethanol in inbred and selectively bred mice.

9. Effect of alpha-methyl-p-tyrosine on dose-dependent mouse strain differences in locomotor activity after ethanol.

10. Genetic selection of mouse lines sensitive (cold) and resistant (hot) to acute ethanol hypothermia.

1. The α6 nicotinic acetylcholine receptor subunit influences ethanol-induced sedation.

Review 2. Human and laboratory rodent low response to alcohol: is better consilience possible?

3. Naloxone does not attenuate the locomotor effects of ethanol in FAST, SLOW, or two heterogeneous stocks of mice.

4. Intracranial self-stimulation in FAST and SLOW mice: effects of alcohol and cocaine.

5. Locomotor responses to benzodiazepines, barbiturates and ethanol in diazepam-sensitive (DS) and -resistant (DR) mice.

6. Genetic variation in the psychomotor stimulant properties of cocaine in Mus musculus.

7. Dopamine antagonist effects on locomotor activity in naive and ethanol-treated FAST and SLOW selected lines of mice.

Review 8. Behavioral genetic contributions to the study of addiction-related amphetamine effects.

9. Relationship between ethanol's acute locomotor effects and ethanol self-administration in male Long-Evans rats.

10. GABAB receptor activation attenuates the stimulant but not mesolimbic dopamine response to ethanol in FAST mice.