Abstract
The purpose of this study was to examine the long-term behavioral effects of prenatal ethanol exposure in C57BL mice. Pregnant mice received free access to a liquid diet containing 25% ethanol-derived calories (EDC) from gestation days 6 to 18. Control animals were pair-fed an isocaloric 0% EDC diet during the same period of time. An additional control group was included that was maintained on standard lab chow and water throughout pregnancy. At 30 days of age, female offspring were tested for spontaneous locomotor activity in an open field under two lighting conditions (dim or bright illumination). Male off-spring were tested in a passive avoidance task at 25 days of age. The activity results demonstrated that the 25% EDC female progeny were more active than controls. This hyperactivity was observed under both lighting conditions, despite the fact that all groups evidenced suppressed activity when tested under bright lights. With regard to passive avoidance behavior, male EtOH-exposed offspring required a greater number of trials to reach criterion than controls. Additionally, they exhibited shorter latencies to enter the shock-associated chamber after receiving a single shock. Taken together, these results confirm our previous findings and demonstrate that C57BL mice are sensitive to both the deleterious behavioral and morphological consequences of prenatal ethanol exposure.
Similar content being viewed by others
References
Abel EL (1981) Behavioral teratology of alcohol. Psychol Bull 90:564–581
Abel EL (1982a) Consumption of alcohol during pregnancy: a review of effects on growth and development of offspring. Hum Biol 54:421–453
Abel EL (1982b) In utero alcohol exposure and developmental delay of response inhibition. Alcoholism: Clin Exp Res 6:369–376
Becker HC, Randall CL, Riley EP (1988) Effect of prenatal ethanol exposure on response to abrupt reward reduction. Neurotoxicol Teratol 10:121–125
Bond NW (1982) Prenatal exposure to ethanol: association between increased gestational length and offspring mortality. Neurobehav Toxicol Teratol 4:501–503
Bond NW, DiGiusto EL (1976) Effects of prenatal alcohol consumption on open-field behavior and alcohol preference in rats. Psychopharmacologia 46:163–165
Caul WF, Fernandez K, Michaelis RC (1983) Effects of prenatal ethanol exposure on heart rate, activity, and response suppression. Neurobehav Toxicol Teratol 5:461–464
Chernoff GF (1977) The fetal alcohol syndrome in mice: an animal model. Teratology 15:223–230
Driscoll CD, Chen JS, Riley EP (1982) Passive avoidance performance in rats prenatally exposed to alcohol during various periods of gestation. Neurobehav Toxicol Teratol 4:99–103
Fernandez K, Caul WF, Boyd JE, Henderson GI, Michaelis RC (1983a) Malformations and growth of rat fetuses exposed to brief periods of alcohol in utero. Teratogenesis Carcinog Mutagen 3:457–460
Fernandez K, Caul WF, Osborne GL, Henderson GI (1983b) Effects of chronic alcohol exposure on offspring activity in rats. Neurobehav Toxicol Teratol 5:135–137
Gilliam DM, Stilman A, Dudek BC, Riley EP (1987) Fetal alcohol effects in long-and short-sleep mice: activity, passive avoidance, and in utero ethanol levels D. Neurotoxicol Teratol 9:349–357
Martin JC, Martin DC, Sigman G, Radow B (1978) Maternal ethanol consumption and hyperactivity in cross-fostered off-spring. Physiol Psychol 6:362–365
Middaugh LD, Boggan WO, Randall CL (1987) Stimulatory effects of ethanol in C57BL/6 mice. Pharmacol Biochem Behav 27:421–424
Middaugh LD, Randall CL, Favara JP (1988) Prenatal ethanol exposure in C57 mice: effects on pregnancy and offspring development. Neurotoxicol Teratol 10:175–180
Meyer LS, Riley EP (1986) Behavioral teratology of alcohol. In: Riley EP, Vorhees CV (eds) Handbook of behavioral teratology. Plenum Press, New York
Nagy Z, Glasser DN (1970) Open-field behavior of C57BL/6J mice: effect of illumination, age, and number of test days. Psychon Sci 19:143–145
Randall CL (1987) Alcohol as a teratogen: a decade of research in review. Alcohol Alcoholism [Suppl] 1:125–132
Randall CL, Taylor WJ (1979) Prenatal ethanol exposure in mice: teratogenic effects. Teratology 19:305–312
Randall CL, Lochry EA, Hughes SS, Sutker PB (1981) Dose-response effect of fetal growth and development in mice. Subst Alcohol Act/Misuse 2:349–357
Randall CL, Becker HC, Middaugh LD (1986) Effect of prenatal ethanol exposure on activity and shuttle avoidance behavior in adult C57 mice. Alcohol Drug Res 6:351–360
Riley EP (1981) Ethanol as a behavioral teratogen: animal models. In: National Institute on Alcohol Abuse and Alcoholism. Biomedical processes and consequences of alcohol use. Alcohol and Health Monograph No. 2, Rockville, Maryland
Riley EP, Lochry EA, Shapiro NR, Baldwin J (1979) Response perseveration in rats exposed to alcohol prenatally. Pharmacol Biochem Behav 10:255–259
Streissguth AP (1986) The behavioral teratology of alcohol: performance, behavioral, and intellectual deficits in prenatally exposed children. In: West J (ed) Alcohol and brain development. Oxford University Press, New York, pp 3–44
Streissguth AP, Martin DC, Barr HM, Sandman BM, Kirchner GL, Darby BL (1984) Intrauterine alcohol and nicotine exposure: attention and reaction time in 4-year-old children. Dev Psychol 20:533–541
Sulik KK, Johnston MC, Webb MA (1981) Fetal alcohol syndrome: embryogenesis in a mouse model. Science 214:936–938
Ulug S, Riley EP (1983) The effect of methylphenidate on overactivity in rats prenatally exposed to alcohol. Neurobehav Toxicol Teratol 5:35–39
Wainright P, Ward GR, Molner JD (1985) Y-Linolenic acid fails to prevent the effects of prenatal ethanol exposure on brain and behavioral development in B6D2F2 mice. Alcoholism: Clin Exp Res 9:377–383
Webster WS, Walsh DA, Lipson AH, McEwen SC (1980) Teratogenesis after acute alcohol exposure in inbred and outbred mice. Neurobehav Toxicol Teratol 2:227–234
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Becker, H.C., Randall, C.L. Effects of prenatal ethanol exposure in C57BL mice on locomotor activity and passive avoidance behavior. Psychopharmacology 97, 40–44 (1989). https://doi.org/10.1007/BF00443410
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00443410