The findings of many reports have led us to hypothesize that tolerance and dependence on an opioid may induce vast qualitative changes in the selectivity and the dynamics of the opioid receptor populations. It has been shown that morphine-induced analgesia is antagonized by dynorphin in the naive rat, but paradoxically augmented in morphine-tolerance mice. Naive monkeys were found not to self-administer ketocyclazocine and ethylketocyclazocine. In our laboratory, rats made tolerant and dependent on morphine readily self-administered ketocyclazocine, ethylketocyclazocine and dynorphin as substitutes for morphine. Changes in properties of the opioid receptor populations will be delineated by studying EEG, EEG power spectra and behavior in the naive vs. the morphine tolerant and dependent rat. Female Sprague-Dawley rats will be surgically prepared with cortical EEG and temporalis EMG electrodes and permanent indwelling i.v. and i.vt. cannulae. The dose-response effects of morphine (mu agonist), ethylketocyclazocine and dynorphin (kappa agonists), (-)-SKF 10,047 (sigma agonist) and DADLE and DTLET (delta agonists) on EEG, EEG power spectra and behavior will be determined and compared in the naive rat. Dose-response effects of the same agonists will be determined in rats made tolerant to morphine. Whereas qualitative differences between naive and morphine-tolerant rats in the EEG and EEG power spectra effects will represent qualitative changes in receptor properties, quantitative changes will reflect degree of tolerance. We will also assess the reinforcing properties of selective mu, kappa, sigma and delta opioid agonists in naive rats (primary dependence), vs the dependent rat self-administering morphine. The differences in the reinforcing properties of the various opioids in the naive vs the morphine dependent rat should reflect qualitative changes in receptor characteristics secondary to the dependence state. We intend to perform in vitro receptor-binding studies in parallel rats similarly subjected to the above opioid treatments. Changes in receptor affinity and modifications in receptor selectivity towards ligands of different classes of opioid will be determined.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
5R01DA001050-12
Application #
3206854
Study Section
(DABA)
Project Start
1975-10-01
Project End
1986-11-30
Budget Start
1985-12-01
Budget End
1986-11-30
Support Year
12
Fiscal Year
1986
Total Cost
Indirect Cost
Name
University of Maryland Baltimore
Department
Type
Schools of Pharmacy
DUNS #
003255213
City
Baltimore
State
MD
Country
United States
Zip Code
21201
Haberny, K A; Young, G A (1995) Acute interactive effects of MK-801 and morphine on cortical EEG and EEG power spectra in rats. Brain Res Bull 36:325-31
Haberny, K A; Young, G A (1994) Interactive effects of MK-801 and morphine on EEG, EEG power spectra and behavior in rats: I. Morphine tolerance development. Eur J Pharmacol 261:1-9
Haberny, K A; Young, G A (1994) Interactive effects of MK-801 and morphine on EEG, EEG power spectra and behavior in rats: II. Morphine dependence. Eur J Pharmacol 261:11-6
Meng, Y; Young, G A (1994) Dynorphin A-(1-13)-morphine interactions: quantitative and qualitative EEG properties differ in morphine-naive vs. morphine-tolerant rats. Brain Res Bull 33:255-65
Young, G A; Hudson, G M; Stamidis, H et al. (1993) Interactions between U-50,488H and sigma receptor antagonists: EEG, EEG power spectral and behavioral correlates. Eur J Pharmacol 231:473-6
Stamidis, H; Young, G A (1993) Mu-delta opioid interactions. III: Differential antagonism of DPDPE-induced increases in morphine EEG and EEG power spectra by DALCE and naltrindole. Peptides 14:511-7
Mayo-Michelson, L; Young, G A (1993) Genetic profiles of morphine-induced EEG, EEG power spectra, and behavior in two inbred rat strains. Brain Res Bull 30:79-84
Mayo-Michelson, L; Young, G A (1992) Effects of chronic morphine administration and naloxone on EEG, EEG power spectra, and associated behavior in two inbred rat strains. Pharmacol Biochem Behav 42:815-21
Stamidis, H; Young, G A (1992) Mu-delta opioid interactions. II: Beta-FNA inhibits DPDPE-induced increases in morphine EEG and EEG spectral power. Peptides 13:755-60
Hudson, G M; Marquis, K L; Stamidis, H et al. (1992) Cholecystokinin octapeptide alters morphine-induced effects on EEG power spectra both quantitatively and qualitatively. Eur J Pharmacol 221:217-22

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