Abstract
How conditioned opiate withdrawal gives rise to avoidance behaviour was examined using a defensive burying procedure in rats made dependent with a morphine pellet. The subjects underwent withdrawal precipitated by naloxone (0.1 mg/kg, SC) on two or three occasions in a box containing only a small object. When exposed to the object in the presence of sawdust one or more days later, the subjects avoided contact and buried this object, i.e., pushed and piled the sawdust against it. The behaviour was seen only when withdrawal had been paired with the object, which was the case even with a choice of objects on the test. Approach but no burying was seen in nondependent animals when the object was paired with 1 mg/kg morphine. Burying, therefore, was concluded to be a defensive response elicited in rats by an object specifically paired with precipitated opiate withdrawal. Consideration of burying and other defensive responses reported to be elicited by cues of withdrawal (conditioned place and taste aversion, and suppression), with respect to the behavioural demands of these responses and the test conditions needed to see them, suggested that a goal of avoidance may be a primary event encoded in a withdrawal cue, as is known for predictors of nonpharmacological noxious events (e.g., shock).
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bindra DB (1974) A unified account of classical conditioning and operant training. In: AH Black, WF Prokasy (eds) Classical conditioning — current theory and research. Appleton-Century-Crofts New York, USA, pp 453–481
Bolles RC (1970) Species-specific defense reactions and avoidance learning. Psychol Rev 77:32–48
Cappell H, LeBlanc AE (1981) Tolerance and physical dependence. Do they play a role in alcohol and drug self-administration. Res Adv Alc Drug Prob 5:159–196
Drummond HC, Cooper T, Glautier SP (1990) Conditioned learning in alcohol dependence: implications for cue exposure treatment. Br J Addict 85:725–743
Edwards G (1990) Withdrawal symptoms and alcohol dependence: fruitful mysteries. Br J Addict 85:447–461
Goldberg SR (1976) Conditioned behavioral and physiological changes associated with injections of a narcotic antagonist in morphine-dependent monkeys. Pavlov J Biol Sci 11:203–221
Himmelsbach CK (1943) IV. With reference to physical dependence. Fed Proc 2:201–203
Hull CL (1943) Principles of behaviour. Appelton-Century-Crofts New York
Kolb L, Himmelsbach CK (1938) Clinical studies of drug addiction, III. A critical review of the withdrawal treatments with method of evaluating abstinence syndromes. Am J Psychiatry 94:759–799
Mucha RF (1987) Is the motivational effect of opiate withdrawal reflected by common indices of precipitated withdrawal? A place conditioning study in the rat. Brain Res 418:214–220
Mucha RF (1989) Taste aversion involving central opioid antagonism is potentiated in morphine-dependent rats. Life Sci 45:671–678
Mucha RF (1991) Opiate withdrawal-produced dysphoria: a taste preference conditioning model. In: Boulton AA, Baker GB, Wu PH (eds) Neuromethods, vol 22: Animals models of drug addiction. Humana Press, Clifton NJ (in press)
Mucha RF, Herz A (1985) Motivational properties of kappa and mu opioid receptor: agonists studied with place and taste preference conditioning. Psychopharmacology 86:274–280
Mucha RF, Volkovskis C, Kalant H (1981) Conditioned increases in locomotor activity produced with morphine as an unconditioned stimulus, and the relation of conditioning to acute morphine effect and tolerance. J Comp Physiol Psychol 95:351–361
Mucha RF, van der Kooy D, O'Shaughnessy M, Bucenieks P (1982) Drug reinforcement studied by the use of place conditioning in rat. Brain Res 243:91–105
Nichols JR, Headlee CP, Coppock HW (1956) Drug addiction I. Addiction by escape training. J Am Pharm Assoc 45:788–791
Pilcher CWT, Stolerman IP (1976) Conditioned flavor aversions for assessing precipitated withdrawal morphine abstinence in rats. Pharmacol Biochem Behav 4:159–163
Pinel JPJ, Wilkie DM (1983) Conditioned defensive burying: a biological and cognitive approach to avoidance learning. In: Mellgren RL (ed) Animal cognition and behaviour. Elsevier, North-Holland, pp 285–318
Schuster CA (1976) Discussion of symposium on conditioning and addiction. Pavlov J Biol Sci 11:263–266
Turkington D, Drummond DC (1989) How should opiate withdrawal be measured? Drug Alcohol Depend 24:151–153
Wikler A (1948) Recent progress in research on the neurophysiological basis of morphine addiction. Am J Psychiatry 105:329–338
Wikler A (1980) Opioid dependence: mechanisms and treatment. Plenum Press, New York
Wikler A, Pescor FT (1967) Classical conditioning of a morphine abstinence phenomenon, reinforcement of opioid-drinking behaviour and “relapse” in morphine-addicted rats. Psychopharmacology 10:255–284
Wilkie DM, MacLennan J, Pinel JPJ (1979) Rat defensive behaviour: burying noxious food. J Exp Anal Behav 31:299–306
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Mucha, R.F. What is learned during opiate withdrawal conditioning? Evidence for a cue avoidance model. Psychopharmacology 104, 391–396 (1991). https://doi.org/10.1007/BF02246041
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF02246041