Morphine stimulates iNOS expression via a rebound from inhibition in human macrophages: nitric oxide involvement

• Published in: International journal of immunopathology and pharmacology Vol. 14; no. 3; pp. 129 - 138
• Main Authors: Stefano, G B, Cadet, P, Fimiani, C, Magazine, H I
• Format: Journal Article
• Language: English
• Published: England 01.09.2001
• Subjects: morphine; nitric oxide
• ISSN: 0394-6320; 2058-7384

We have previously demonstrated that exposure of human macrophages to morphine results in transient inhibition of cell migratory behavior and adoption of an inactive conformation followed by a return from inhibition resulting in a significant increase in migration velocity and number of activated cells. In the current report, we demonstrate that the return to activation is nitric oxide dependent and inhibited by prior exposure to the opiate antagonist, naloxone. Exposure of macrophages to morphine for 6 hours resulted in a marked inhibition of cell activity and shift of the cell confirmation from amoeboid to round. The inactivation period lasted approximately 2 hrs and was followed by a period of hyperactivity. Incubation of macrophages with naloxone, prior to addition of morphine, inhibited both inactivation and hyper activation phases whereas, naloxone administration just prior to the hyper activation phase did not affect subsequent hyper activation. Morphine acutely stimulates the transient release of nitric oxide (NO) resulting in subsequent macrophage rounding and inactivation. Prolonged observation of the cells revealed another phase of NO release 12 hours following initial morphine exposure that was characterized by prolonged NO production. These data are consistent with acute constitutive NO synthase activation and inducible NO synthase activation following prolonged morphine exposure. Release of NO and changes in cellular activation mediated by morphine was abrogated by NOS, or morphine inhibitors, added prior to morphine exposure. In contrast, NOS, or morphine inhibitors, added during the inhibitory phase had no impact on the subsequent hyper activation phase. It did, however, have an impact on the hyper activation phase when added prior to morphine. These data demonstrate that morphine is capable of induction of both cNOS and iNOS coupled NO release that regulates the macrophage activation state. This may provide insight into the functioning of morphine following periods of trauma or stress when the levels of the opiate increase and, subsequently, inflammatory function is markedly altered.