Chronic morphine use does not induce peripheral tolerance in a rat model of inflammatory pain
Christian Zöllner, … , Christoph Stein, Michael Schäfer
Christian Zöllner, … , Christoph Stein, Michael Schäfer
Published February 1, 2008
Citation Information: J Clin Invest. 2008;118(3):1065-1073. https://doi.org/10.1172/JCI25911.
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Research Article Neuroscience

Chronic morphine use does not induce peripheral tolerance in a rat model of inflammatory pain

Abstract

Although opioids are highly effective analgesics, they are also known to induce cellular adaptations resulting in tolerance. Experimental studies are often performed in the absence of painful tissue injury, which precludes extrapolation to the clinical situation. Here we show that rats with chronic morphine treatment do not develop signs of tolerance at peripheral μ-opioid receptors (μ-receptors) in the presence of painful CFA-induced paw inflammation. In sensory neurons of these animals, internalization of μ-receptors was significantly increased and G protein coupling of μ-receptors as well as inhibition of cAMP accumulation were preserved. Opioid receptor trafficking and signaling were reduced, and tolerance was restored when endogenous opioid peptides in inflamed tissue were removed by antibodies or by depleting opioid-producing granulocytes, monocytes, and lymphocytes with cyclophosphamide (CTX). Our data indicate that the continuous availability of endogenous opioids in inflamed tissue increases recycling and preserves signaling of μ-receptors in sensory neurons, thereby counteracting the development of peripheral opioid tolerance. These findings infer that the use of peripherally acting opioids for the prolonged treatment of inflammatory pain associated with diseases such as chronic arthritis, inflammatory neuropathy, or cancer, is not necessarily accompanied by opioid tolerance.

Authors

Christian Zöllner, Shaaban A. Mousa, Oliver Fischer, Heike L. Rittner, Mohammed Shaqura, Alexander Brack, Mehdi Shakibaei, Waltraud Binder, Florian Urban, Christoph Stein, Michael Schäfer

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Figure 1

Dose-response curves of acute i.pl. fentanyl antinociception in animals without and with hindpaw CFA inflammation.

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Dose-response curves of acute i.pl. fentanyl antinociception in animals ...
(A) Without paw inflammation the ED50 for elevation of PPT was significantly lower in s.c. saline–pretreated than in s.c. morphine–pretreated animals (ANOVA, P < 0.001). (B) In the presence of paw inflammation, no significant difference in ED50 was detectable between chronic s.c. morphine and s.c. saline pretreatment (ANOVA, P > 0.05). SEM was occasionally smaller than symbol size. (C) Repeated pretreatment with i.pl. fentanyl (2 μg twice daily) for 4 days shifted the dose-response curve after acute i.pl. fentanyl application significantly to the right, confirming the development of peripheral opioid tolerance (ANOVA, P < 0.05). (D) In CFA animals pretreated with chronic i.pl. fentanyl, the ED50 of acute i.pl. fentanyl antinociception did not significantly change, confirming a lack of peripheral opioid tolerance (ANOVA, P > 0.05). The applied doses of i.pl. fentanyl did not change PPT in contralateral paws (data not shown), indicating that they were not systemically effective and did not activate central opioid receptors. MPE, maximum possible effect.