Chronic morphine induces up‐regulation of the pro‐apoptotic Fas receptor and down‐regulation of the anti‐apoptotic Bcl‐2 oncoprotein in rat brain

This study was designed to assess the influence of activation and blockade of the endogenous opioid system in the brain on two key proteins involved in the regulation of programmed cell death: the pro‐apoptotic Fas receptor and the anti‐apoptotic Bcl‐2 oncoprotein. The acute treatment of rats with t...

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Bibliographic Details
Published in:British journal of pharmacology 2001-11, Vol.134 (6), p.1263-1270
Main Authors: Boronat, M Assumpció, García‐Fuster, M Julia, García‐Sevilla, Jesús A
Format: Article
Language:English
Subjects:
Analgesics
Animals
Apoptosis
Bcl‐2 oncoprotein
Biological and medical sciences
Cerebral Cortex - drug effects
Cerebral Cortex - immunology
Cerebral Cortex - metabolism
Down-Regulation
Drug Therapy, Combination
Fas receptor
fas Receptor - metabolism
Male
Medical sciences
Morphine
Morphine - pharmacology
naloxone
Naloxone - pharmacology
Narcotic Antagonists - pharmacology
Narcotics - pharmacology
Neurofilament Proteins - chemistry
Neurofilament Proteins - metabolism
Neuropharmacology
Neurotransmitters. Neurotransmission. Receptors
opioid addiction
opioid receptors
Opioid-Related Disorders - drug therapy
Opioid-Related Disorders - metabolism
Peptidergic system (neuropeptide, opioid peptide, opiates...). Adenosinergic and purinergic systems
Pharmacology. Drug treatments
Proto-Oncogene Proteins c-bcl-2 - metabolism
rat brain
Rats
Rats, Sprague-Dawley
Up-Regulation
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Summary:This study was designed to assess the influence of activation and blockade of the endogenous opioid system in the brain on two key proteins involved in the regulation of programmed cell death: the pro‐apoptotic Fas receptor and the anti‐apoptotic Bcl‐2 oncoprotein. The acute treatment of rats with the μ‐opioid receptor agonist morphine (3 – 30 mg kg−1, i.p., 2 h) did not modify the immunodensity of Fas or Bcl‐2 proteins in the cerebral cortex. Similarly, the acute treatment with low and high doses of the antagonist naloxone (1 and 100 mg kg−1, i.p., 2 h) did not alter Fas or Bcl‐2 protein expression in brain cortex. These results discounted a tonic regulation through opioid receptors on Fas and Bcl‐2 proteins in rat brain. Chronic morphine (10 – 100 mg kg−1, 5 days, and 10 mg kg−1, 13 days) induced marked increases (47 – 123%) in the immunodensity of Fas receptor in the cerebral cortex. In contrast, chronic morphine (5 and 13 days) decreased the immunodensity of Bcl‐2 protein (15 – 30%) in brain cortex. Chronic naloxone (10 mg kg−1, 13 days) did not alter the immunodensities of Fas and Bcl‐2 proteins in the cerebral cortex. The concurrent chronic treatment (13 days) of naloxone (10 mg kg−1) and morphine (10 mg kg−1) completely prevented the morphine‐induced increase in Fas receptor and decrease in Bcl‐2 protein immunoreactivities in the cerebral cortex. The results indicate that morphine, through the sustained activation of opioid receptors, can promote abnormal programmed cell death by enhancing the expression of pro‐apoptotic Fas receptor protein and damping the expression of anti‐apoptotic Bcl‐2 oncoprotein. British Journal of Pharmacology (2001) 134, 1263–1270; doi:10.1038/sj.bjp.0704364
ISSN:0007-1188
1476-5381
DOI:10.1038/sj.bjp.0704364