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Pain. 2007 Jan;127(1-2):129-39. Epub 2006 Sep 11.

Determination of the role of conventional, novel and atypical PKC isoforms in the expression of morphine tolerance in mice.

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  • 1Department of Pharmacology and Toxicology, Virginia Commonwealth University Medical Center, Richmond, VA 23298-0524, USA. flsmith1@vcu.edu


This study comprehensively determines the role of all the major PKC isoforms in the expression morphine tolerance. Pseudosubstrate and receptors for activated C-kinase (RACK) peptides inhibit only a single PKC isoform, while previously tested chemical PKC inhibitors simultaneously inhibit multiple isoforms making it impossible to determine which PKC isoform mediates morphine tolerance. Tolerance can result in a diminished effect during continued exposure to the same amount of substance. In rodents, morphine pellets provide sustained exposures to morphine leading to the development of tolerance by 72 h. We hypothesized that administration of the PKC isoform inhibitors i.c.v. would reverse tolerance and reinstate antinociception in the tail immersion and hot plate tests from the morphine released solely from the pellet. Inhibitors to PKC alpha, gamma and epsilon (100-625 pmol) dose-dependently reinstated antinociception in both tests. The PKC beta(I), beta(II), delta, theta, epsilon, eta and xi inhibitors were inactive (up to 2500 pmol). In other mice, the degree of morphine tolerance was determined by calculating ED50 and potency-ratio values following s.c. morphine administration. Morphine s.c. was 5.6-fold less potent in morphine-pelleted vs. placebo-pelleted mice. Co-administration of s.c. morphine with the inhibitors i.c.v. to either PKC alpha (625 pmol), gamma (100 pmol) or epsilon (400 pmol) completely reversed the tolerance so that s.c. morphine was equally potent in both placebo- and morphine-pelleted mice. The PKC beta(I), beta(II), delta, theta, epsilon, eta and xi inhibitors were inactive. Thus, PKC alpha, gamma and epsilon appear to contribute to the expression of morphine tolerance in mice.

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