Contribution of sacral spinal cord neurons to the autonomic and somatic consequences of withdrawal from morphine in the rat.

ABSTRACT

In this study, we monitored Fos-like immunoreactivity in the sacral spinal cord to identify neurons that are likely to contribute to the autonomic manifestations of opioid antagonist-precipitated withdrawal in morphine-tolerant rats. Injection of systemic antagonist increased the Fos-like immunoreactivity throughout the first sacral segment, particularly in laminae I/II, X, and in the sacral parasympathetic nucleus (SPN). Selective peripheral withdrawal, with a hydrophilic antagonist that does not cross the blood-brain barrier (BBB), induced diarrhea, but no other withdrawal signs were evident. Compared to rats that withdrew systemically, peripherally withdrawal evoked significantly less Fos-like immunoreactivity in laminae V/VI, X and the SPN. By contrast, selective spinal withdrawal, by intrathecal injection of an opioid antagonist that does not cross the BBB, provoked hyperactivity of the hindlimbs and tail, but no diarrhea. These animals demonstrated significantly increased Fos-like immunoreactivity in laminae I/II, V/VI, the SPN, and the ventral horn compared to rats that withdrew systemically. Animals treated neonatally with capsaicin, to eliminate C-fiber input, demonstrated withdrawal behavior similar to intact withdrawing rats, except that the capsaicin-pretreated rats had significantly greater weight loss. However, this group had less Fos-like immunoreactivity in laminae V/VI, X and SPN compared to the intact withdrawing rats. These data suggest that withdrawal from morphine evokes hyperactivity of sacral neurons, particularly those involved in regions that process nociceptive and autonomic information. Peripheral withdrawal is sufficient to induce diarrhea, but it does not fully explain the associated weight loss. Unmyelinated primary afferents may contribute a tonic peripheral inhibition of circuits that regulate gut motility and intestinal fluid transport. Taken together, these data suggest that chronic exposure to opioids induces a latent sensitization in sacral cord neurons that can be manifested as neuronal hyperactivity during withdrawal; this mechanism may underlie withdrawal-induced hyperalgesia and gut hypermotility.