Localization of genes influencing ethanol-induced conditioned place preference and locomotor activity in BXD recombinant inbred mice (original) (raw)
- Anderson SM, McClearn GE (1981) Ethanol consumption: selective breeding in mice. Behav Genet 11:291–301
Google Scholar - Bailey DW (1981) Recombinant inbred strains and bilineal congenic strains. In: Foster HL, Small JD, Fox JG (eds) The mouse in biomedical research. Academic Press, New York, pp 223–239
Google Scholar - Belknap JK (1992) Empirical estimates of Bonferroni corrections for use in chromosome mapping studies with BXD recombinant inbred strains. Behav Genet 22:677–684
Google Scholar - Belknap JK, Belknap ND, Berg JH, Coleman R (1977) Pre-absorptive versus postabsorptive control of ethanol intake in C57BL/6J and DBA/2J mice. Behav Genet 7:413–425
Google Scholar - Belknap JK, Coleman RR, Foster K (1978) Alcohol consumption and sensory threshold differences between C57BL/6J and DBA/2J mice. Physiol Psychol 6:71–74
Google Scholar - Belknap JK, Crabbe JC, Young ER (1993a) Voluntary consumption of ethanol in 15 inbred mouse strains. Psychopharmacology 112:503–510
Google Scholar - Belknap JK, Metten P, Helms ML, O'Toole LA, Angeli-Gade S, Crabbe JC, Phillips TJ (1993b) Quantitative trait loci (QTL) applications to substances of abuse: physical dependence studies with nitrous oxide and ethanol in BXD mice. Behav Genet 23:211–220
Google Scholar - Cadoret RJ (1990) Genetics of alcoholism. In: Collins RL, Leonard KE, Searles JS (eds) Alcohol and the family: research and clinical perspectives. Guilford Press, New York, pp 39–78
Google Scholar - Carr GD, Fibiger HC, Phillips AG (1989) Conditioned place preference as a measure of drug reward. In: Liebman JM, Cooper SJ (eds) Neuropharmacological basis of reward. Oxford, New York, pp 264–319
Google Scholar - Copeland NG, Jenkins NA, Gilbert DJ, Eppig JT, Maltais LJ, Miller JC, Dietrich WF, Weaver A, Lincoln SE, Steen RG, Stein LD, Nadeau JH, Lander ES (1993) A genetic linkage map of the mouse: current applications and future prospects. Science 262:57–66
Google Scholar - Crabbe JC (1983) Sensitivity to ethanol in inbred mice: genotypic correlations among several behavioral responses. Behav Neurosci 97:280–289
Google Scholar - Crabbe JC, Janowsky JS, Young ER, Rigter H (1980) Strain-specific effects of ethanol on open field activity in inbred mice. Subst Alcohol Actions/Misuse 1:537–543
Google Scholar - Crabbe JC, Johnson NA, Gray DK, Kosobud A, Young ER (1982a) Biphasic effects of ethanol on open-field activity: sensitivity and tolerance in C57BL/6N and DBA/2N mice. J Comp Physiol Psychol 96:440–451
Google Scholar - Crabbe JC, Janowsky JS, Young ER, Kosobud A, Stack J, Rigter H (1982b) Tolerance to ethanol hypothermia in inbred mice: genotypic correlations with behavioral responses. Alcohol Clin Exp Res 6:446–458
Google Scholar - Crabbe JC, Kosobud A, Young ER, Janowksy JS (1983) Polygenic and single-gene determination of responses to ethanol in BXD/Ty recombinant inbred strains. Neurobehav Toxicol Teratol 5:181–187
Google Scholar - Crabbe JC, Young ER, Deutsch CM, Tam BR, Kosobud A (1987) Mice genetically selected for differences in open-field activity after ethanol. Pharmacol Biochem Behav 27:577–581
Google Scholar - Crabbe JC, Phillips TJ, Kosobud A, Belknap JK (1990) Estimation of genetic correlation: interpretation of experiments using selectively bred and inbred animals. Alcohol Clin Exp Res 14:141–151
Google Scholar - Crabbe JC, Phillips TJ, Cunningham CL, Belknap JK (1992) Genetic determinants of ethanol reinforcement. Ann NY Acad Sci 654:302–310
Google Scholar - Crabbe JC, Belknap JK, Buck KJ (1994a) Genetic animal models of alcohol and drug abuse. Science 264:1715–1723
Google Scholar - Crabbe JC, Gallaher ES, Phillips TJ, Belknap JK (1994b) Genetic determinants of sensitivity to ethanol in inbred mice. Behav Neurosci 108:186–195
Google Scholar - Cunningham CL (1993) Pavlovian drug conditioning. In: Van Haaren F (ed) Methods in behavioral pharmacology. Elsevier, Amsterdam, pp 349–381
Google Scholar - Cunningham CL, Noble D (1992) Conditioned activation induced by ethanol: role in sensitization and conditioned place preference. Pharmacol Biochem Behav 43:307–313
Google Scholar - Cunningham CL, Prather LK (1992) Conditioning trial duration affects ethanol-induced conditioned place preference in mice. Anim Learn Behav 20:187–194
Google Scholar - Cunningham CL, Hallett CL, Niehus DR, Hunter JS, Nouth L, Risinger FO (1991) Assessment of ethanol's hedonic effects in mice selectively bred for sensitivity to ethanol-induced hypothermia. Psychopharmacology 105:84–92
Google Scholar - Cunningham CL, Niehus DR, Malott DH, Prather LK (1992) Genetic differences in the rewarding and activating effects of morphine and ethanol. Psychopharmacology 107:385–393
Google Scholar - Dudek BC, Phillips TJ, Hahn ME (1991) Genetic analyses of the biphasic nature of the alcohol dose-response curve. Alcohol Clin Exp Res 15:262–269
Google Scholar - Elmer GI, Meisch RA, George FR (1986) Oral ethanol reinforced behavior in inbred mice. Pharmacol Biochem Behav 24:1417–1421
Google Scholar - Elmer GI, Meisch RA, George FR (1987a) Differential concentration-response curves for oral ethanol self-administration in C57BL/6J and BALB/cJ mice. Alcohol 4:63–68
Google Scholar - Elmer GI, Meisch RA, George FR (1987b) Mouse strain differences in operant self-administration of ethanol. Behav Genet 17:439–451
Google Scholar - Eriksson K, Rusi M (1981) Finnish selection studies on alcohol-related behaviors: general outline. In: McClearn GE, Deitrich RA, Erwin VG (eds) Development of animal models as pharmacogenetic tools. NIAAA Research Monograph 6, Rockville, pp 87–117
- Froehlich JC (1993) Interactions between alcohol and the endogenous opioid system. In: Zakhari S (ed) Alcohol and the endocrine system. NIAAA Research Monograph 23, Bethesda, Md., pp 21–35
- Frye GD, Breese GR (1981) An evaluation of the locomotor stimulating action of ethanol in rats and mice. Psychopharmacology 75:372–379
Google Scholar - Fuller JL (1964) Measurement of alcohol preference in genetic experiments. J Comp Physiol Psychol 57:85–88
Google Scholar - George FR (1987) Genetic and environmental factors in ethanol self-administration. Pharmacol Biochem Behav 27:379–384
Google Scholar - George FR (1988) Genetic tools in the study of drug self-administration. Alcohol Clin Exp Res 12:586–590
Google Scholar - Gianoulakis C, de Waele JP (1994) Genetics of alcoholism: role of the endogenous opioid system. Metab Brain Dis 9:105–131
Google Scholar - Goldman D, Lister RG, Crabbe JC (1987) Mapping of putative genetic locus determining ethanol intake in the mouse. Brain Res 420:220–226
Google Scholar - Gora-Maslak G, McClearn GE, Crabbe JC, Phillips TJ, Belknap JK, Plomin R (1991) Use of recombinant inbred strains to identify quantitative trait loci in psychopharmacology. Psychopharmacology 104:413–424
Google Scholar - Horowitz GP, Whitney G (1975) Alcohol-induced conditioned aversion: genotypic specificity in mice (Mus musculus) J Comp Physiol Psychol 89:340–346
Google Scholar - Kosobud A, Bodor AS, Crabbe JC (1988) Voluntary consumption of ethanol in WSP, WSC and WSR selectively bred mouse lines. Pharmacol Biochem Behav 29:601–607
Google Scholar - Li TK, Lumeng L, McBride WJ, Waller MB (1981) Indiana selection studies on alcohol-related behaviors. In: McClearn GE, Deitrich RA, Erwin VG (eds) Development of animal models as pharmacogenetic tools. NIAAA Research Monograph 6, Rockville, pp 171–191
- Li TK, Lumeng L, Doolittle DP, Carr LG (1991) Molecular associations of alcohol-seeking behavior in rat lines selectively bred for high and low voluntary ethanol drinking. Alcohol Alcohol Suppl 1:121–124
Google Scholar - MacPhail RC, Elsmore TF (1980) Ethanol-induced flavor aversions in mice: a behavior-genetic analysis. Neurotoxicology 1:625–634
Google Scholar - Maltais LJ, Doolittle DP, Roderick TH, Hillyard AL, Davisson MT (1994) Locus map of mouse. Mouse Genome 92:62–85
Google Scholar - McClearn GE, Rodgers DA (1959) Differences in alcohol preference among inbred strains of mice. Q J Stud Alcohol 20:691–695
Google Scholar - McClearn GE, Rodgers DA (1961) Genetic factors in alcohol preference of laboratory mice. J Comp Physiol Psychol 54:116–119
Google Scholar - Merikangas KR (1990) The genetic epidemiology of alcoholism. Psychol Med 20:11–22
Google Scholar - Murphy JM, Gatto GJ, McBride WJ, Lumeng L, Li TK (1989) Operant responding for oral ethanol in the alcohol-preferring P and alcohol-nonpreferring NP lines of rats. Alcohol 6:127–131
Google Scholar - Myers AK (1962) Alcohol choice in Wistar and G-4 rats as a function of environmental temperature and alcohol concentration. J Comp Physiol Psychol 55:606–609
Google Scholar - Neisewander JL, Pierce RC, Bardo MT (1990) Naloxone enhances the expression of morphine-induced conditioned place preference. Psychopharmacology 100:201–205
Google Scholar - Phillips TJ, Burkhart-Kasch S, Crabbe JC (1991a) Locomotor activity response to chronic ethanol treatment in selectively bred FAST and SLOW mice. Alcohol Alcohol Suppl 1:109–113
Google Scholar - Phillips TJ, Burkhart-Kasch S, Terdal ES, Crabbe JC (1991b) Response to selection for ethanol-induced locomotor activation: genetic analyses and selection response characterization. Psychopharmacology 103:557–566
Google Scholar - Phillips TJ, Crabbe JC, Metten P, Belknap JK (1994a) Localization of genes affecting alcohol drinking in mice. Alcohol Clin Exp Res 18:931–941
Google Scholar - Phillips TJ, Dickinson S, Burkhart-Kasch S (1994b) Behavioral sensitization to drug stimulant effects in C57BL/6J and DBA/2J inbred mice. Behav Neurosci 108:789–803
Google Scholar - Phillips TJ, Huson M, Gwiazdon C, Burkhart-Kasch S, Shen EH (1995) Effects of acute and repeated ethanol exposures on the locomotor activity of BXD recombinant inbred mice. Alcohol Clin Exp Res 19:269–278
Google Scholar - Piazza PV, Deminiere JM, Le Moal M, Simon H (1989) Factors that predict individual vulnerability to amphetamine self-administration. Science 245:1511–1513
Google Scholar - Piazza PV, Maccari S, Deminiere JM, Le Moal M, Mormede P, Simon H (1991) Corticosterone levels determine individual vulnerability to amphetamine self-administration. Proc Natl Acad Sci 88:2088–2092
Google Scholar - Risinger FO, Cunningham CL (1992) Genetic differences in ethanol-induced hyperglycemia and conditioned taste aversion. Life Sci 50:PL113-PL118
Google Scholar - Risinger FO, Dickinson SD, Cunningham CL (1992a) Haloperidol reduces ethanol-induced motor activity stimulation but not conditioned place preference. Psychopharmacology 107:453–456
Google Scholar - Risinger FO, Malott DH, Riley AL, Cunningham CL (1992b) Effect of Ro 15-4513 on ethanol-induced conditioned place preference. Pharmacol Biochem Behav 43:97–102
Google Scholar - Risinger FO, Malott DH, Prather LK, Niehus DR, Cunningham CL (1994) Motivational properties of ethanol in mice selectively bred for ethanol-induced locomotor differences. Psychopharmacology 116:207–216
Google Scholar - Ritz MC, George FR, DeFiebre CM, Meisch RA (1986) Genetic differences in the establishment of ethanol as a reinforcer. Pharmacol Biochem Behav 24:1089–1094
Google Scholar - Robinson TE, Berridge KC (1993) The neural basis of drug craving: an incentive-sensitization theory of addiction. Brain Res Rev 18:247–291
Google Scholar - Rodgers DA (1966) Factors underlying differences in alcohol preference among inbred strains of mice. Psychosom Med 28:498–513
Google Scholar - Rodgers DA (1972) Factors underlying differences in alcohol preference of inbred strains of mice. In: Kissin B, Begleiter H (eds) The biology of alcoholism. Plenum Press, Brooklyn, New York, pp 107–130
Google Scholar - Rodgers DA, McClearn GE (1962) Mouse strain differences in preference for various concentrations of alcohol. Q J Stud Alcohol 23:26–33
Google Scholar - Samson HH (1992) The function of brain dopamine in ethanol reinforcement. In: Watson RR (ed) Alcohol and neurobiology: receptors, membranes, and channels. CRC Press, Boca Raton, Fla. pp 91–107
Google Scholar - Silver LM, Nadeau JH, Goodfellow PN (eds) (1993) Encyclopedia of the mouse genome III. Mammalian Genome 4:S1–S283
- Suzuki T, George FR, Meisch RA (1988) Differential establishment and maintenance of oral ethanol reinforced behavior in Lewis and Fisher 344 inbred rat strains. J Pharmacol Exp Ther 245:164–170
Google Scholar - Swerdlow NR, Gilbert D, Koob GF (1989) Conditioned drug effects on spatial preference: Critical evaluation. In: Boulton AA, Baker GB, Greenshaw AJ (eds) Psychopharmacology (Neuromethods vol. 13) Humana Press, Clifton, N.J., pp 399–446
Google Scholar - Tabakoff B, Hoffman PL (1988) A neurobiological theory of alcoholism. In: Chaudron CD, Wilkinson DA (eds) Theories on alcoholism. Addiction Research Foundation, Toronto, pp 29–72
Google Scholar - Tabakoff B, Kiianmaa K (1982) Does tolerance develop to the activating, as well as the depressant, effects of ethanol: Pharmacol Biochem Behav 17:1073–1076
Google Scholar - Tritto T, Dudek BC (1994) Differential activating effects of ethanol in C57BL/6Abg and DBA/2Abg mice. Alcohol 11:133–139
Google Scholar - Vezina P, Stewart J (1987) Morphine conditioned place preference and locomotion: The effect of confinement during training. Psychopharmacology 93:257–260
Google Scholar - Weiss F, Koob GF (1991) The neuropharmacology of ethanol self-administration. In: Meyer RE, Koob GF, Lewis MJ, Paul SM (eds) Neuropharmacology of ethanol: new approaches. Birkhauser, Boston, pp 125–161
Google Scholar - Wise RA, Bozarth MA (1987) A psychomotor stimulant theory of addiction. Psychol Rev 94:469–492
Google Scholar