Development of tolerance to opiates and opioid peptides in organotypic cultures of mouse spinal cord

Abstract

Following chronic exposure of organotypic explants of mouse spinal cord with attached dorsal root ganglia (DRG) to low levels of morphine (1 μM) for 2–3 days (at 35°C), the initial opiate-depressant effects on sensory-evoked dorsal-horn network responses disappeared and characteristic dorsal cord responses could then be evoked by DRG stimuli in the presence of morphine — even after acute increases in concentration (up to 100-fold). Similar tolerance developed after chronic exposure of cord-DRG explants to low concentrations (10 nM) of an enkephalin analog (Sandoz FK 33-824). The latter cultures showed cross-tolerance to met-enkephalin and opiates; dorsal cord responses could still be evoked even after acute exposure to high levels of morphine. Morphine-tolerant cultures also showed cross-tolerance to met-enkephalin and to the Sandoz opioid peptide (FK 33-824). The tolerant state did not develop if the cultures were incubated at lower temperature, ca. 20°C, during exposure to 1 μM morphine for as long as 7 days. The data indicate that a temperature-dependent metabolic change occurs in these neurons after chronic exposure to morphine at 35°C leading to a sustained decrease in sensitivity to opiate-depressant effects. Enhanced dorsal-horn responses in tolerant cultures suggested development of “dependence” as well as tolerance to opiates in these isolated cord-DRG tissues.