Effects of Chronic Morphine Treatment on β‐Endorphin‐Related Peptides in the Caudal Medulla and Spinal Cord

Abstract

The effects of chronic morphine treatment on β-endorphin (βE)-immunoreactive (βE-ir) peptide levels were determined in the rat caudal medulla and different areas of the spinal cord. Seven days of morphine pelleting had no effect on total βE-ir peptides in the caudal medulla. In contrast, it significantly increased βE-ir peptide concentrations in the cervical and thoracic regions of the spinal cord compared with placebo-pelleted controls, whereas in the lumbosacral region this trend did not reach statistical significance. Injections of the opiate receptor antagonist naloxone 1 h before the rats were killed had no effect on the morphine-induced increases in the cord. Chromatographic analyses revealed that enzymatic processing of βE-related peptides in the spinal cord seemed unaffected by the morphine and/or naloxone treatments. In light of previous data showing that morphine down-regulates βE biosynthesis in the hypothalamus, the present results suggest that the regulation of βE-ir peptides in the spinal cord is distinct from that found in other CNS areas. These data provide support for previous results suggesting that βE-expressing neurons may be intrinsic to the spinal cord.