Initial locomotor sensitivity to cocaine varies widely among inbred mouse strains.
Document Type
Article
Publication Date
3-2015
JAX Source
Genes Brain Behav 2015 Mar; 14(3):271-80.
Volume
14
Issue
3
First Page
271
Last Page
280
ISSN
1601-183X
PMID
25727211
Abstract
Initial sensitivity to psychostimulants can predict subsequent use and abuse in humans. Acute locomotor activation in response to psychostimulants is commonly used as an animal model of initial drug sensitivity and has been shown to have a substantial genetic component. Identifying the specific genetic differences that lead to phenotypic differences in initial drug sensitivity can advance our understanding of the processes that lead to addiction. Phenotyping inbred mouse strain panels are frequently used as a first step for studying the genetic architecture of complex traits. We assessed locomotor activation following a single, acute 20 mg/kg dose of cocaine (COC) in males from 45 inbred mouse strains and observed significant phenotypic variation across strains indicating a substantial genetic component. We also measured levels of COC, the active metabolite, norcocaine and the major inactive metabolite, benzoylecgonine, in plasma and brain in the same set of inbred strains. Pharmacokinetic (PK) and behavioral data were significantly correlated, but at a level that indicates that PK alone does not account for the behavioral differences observed across strains. Phenotypic data from this reference population of inbred strains can be utilized in studies aimed at examining the role of psychostimulant-induced locomotor activation on drug reward and reinforcement and to test theories about addiction processes. Moreover, these data serve as a starting point for identifying genes that alter sensitivity to the locomotor stimulatory effects of COC. Genes Brain Behav 2015 Mar; 14(3):271-80.
Recommended Citation
Wiltshire T,
Ervin R,
Duan H,
Bogue MA,
Zamboni W,
Cook S,
Chung W,
Zou F,
Tarantino L.
Initial locomotor sensitivity to cocaine varies widely among inbred mouse strains. Genes Brain Behav 2015 Mar; 14(3):271-80.