We have investigated the effects of the myotoxic local anesthetic bupivacaine on rat skeletal muscle mitochondria and isolated myofibers from flexor digitorum brevis, extensor digitorum longus, soleus, and from the proximal, striated portion of the esophagus. In isolated mitochondria, bupivacaine caused a concentration-dependent mitochondrial depolarization and pyridine nucleotide oxidation, which were matched by an increased oxygen consumption at bupivacaine concentrations of 1.5 mM or less at pH 7.4, whereas respiration was inhibited at higher concentrations. As a consequence of depolarization, bupivacaine caused the opening of the permeability transition pore (PTP), a cyclosporin A-sensitive inner membrane channel that plays a key role in many forms of cell death. In intact flexor digitorum brevis fibers bupivacaine caused mitochondrial depolarization and pyridine nucleotides oxidation that were matched by increased concentrations of cytosolic free Ca2+, release of cytochrome c, and eventually, hypercontracture. Both mitochondrial depolarization and cytochrome c release were inhibited by cyclosporin A, indicating that PTP opening rather than bupivacaine as such was responsible for these events. Similar responses to bupivacaine were observed in the soleus, which is highly oxidative. In contrast, fibers from the esophagus (which we show to be more fatigable than flexor digitorum brevis fibers) and from the highly glycolytic extensor digitorum longus didn’t undergo pyridine nucleotide oxidation upon the addition of bupivacaine and were resistant to bupivacaine toxicity. These results suggest that active oxidative metabolism is a key determinant in bupivacaine toxicity, that bupivacaine myotoxicity is a relevant model of mitochondrial dysfunction involving the PTP and Ca2+ dysregulation, and that it represents a promising system to test new PTP inhibitors that may prove relevant in spontaneous myopathies where itochondria have long been suspected to play a role.

Bupivacaine myotoxicity is mediated by mitochondria

PENZO, DANIELE;REGGIANI, CARLO;SALVIATI, GIOVANNI;BERNARDI, PAOLO
2002

Abstract

We have investigated the effects of the myotoxic local anesthetic bupivacaine on rat skeletal muscle mitochondria and isolated myofibers from flexor digitorum brevis, extensor digitorum longus, soleus, and from the proximal, striated portion of the esophagus. In isolated mitochondria, bupivacaine caused a concentration-dependent mitochondrial depolarization and pyridine nucleotide oxidation, which were matched by an increased oxygen consumption at bupivacaine concentrations of 1.5 mM or less at pH 7.4, whereas respiration was inhibited at higher concentrations. As a consequence of depolarization, bupivacaine caused the opening of the permeability transition pore (PTP), a cyclosporin A-sensitive inner membrane channel that plays a key role in many forms of cell death. In intact flexor digitorum brevis fibers bupivacaine caused mitochondrial depolarization and pyridine nucleotides oxidation that were matched by increased concentrations of cytosolic free Ca2+, release of cytochrome c, and eventually, hypercontracture. Both mitochondrial depolarization and cytochrome c release were inhibited by cyclosporin A, indicating that PTP opening rather than bupivacaine as such was responsible for these events. Similar responses to bupivacaine were observed in the soleus, which is highly oxidative. In contrast, fibers from the esophagus (which we show to be more fatigable than flexor digitorum brevis fibers) and from the highly glycolytic extensor digitorum longus didn’t undergo pyridine nucleotide oxidation upon the addition of bupivacaine and were resistant to bupivacaine toxicity. These results suggest that active oxidative metabolism is a key determinant in bupivacaine toxicity, that bupivacaine myotoxicity is a relevant model of mitochondrial dysfunction involving the PTP and Ca2+ dysregulation, and that it represents a promising system to test new PTP inhibitors that may prove relevant in spontaneous myopathies where itochondria have long been suspected to play a role.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/2461016
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