Morphine Inhibited the Rat Neural Stem Cell Proliferation Rate by Increasing Neuro Steroid Genesis

Abstract

Up to present, a large number of reports unveiled exacerbating effects of both long- and short-term administration of morphine, as a potent analgesic agent, on opium-addicted individuals and a plethora of cell kinetics, although contradictory effect of morphine on different cells have been introduced until yet. To address the potent modulatory effect of morphine on neural multipotent precursors with emphasis on endogenous sex-related neurosteroids biosynthesis, we primed the rat neural stem cells isolated from embryonic rat telencephalon to various concentrations of morphine including 10, 20, 50 and 100 A mu M alone or in combination with naloxone (100 A mu M) over period of 72 h. Flow cytometric Ki-67 expression and Annexin-V/PI based necrosis and apoptosis of exposed cells were evaluated. The total content of dihydrotestosterone and estradiol in cell supernatant was measured by ELISA. According on obtained data, both concentration- and time-dependent decrement of cell viability were orchestrated thorough down-regulation of ki-67 and simultaneous up-regulation of Annexin-V. On the other hand, the addition of naloxone (100 A mu M), as Mu opiate receptor antagonist, could blunt the morphine-induced adverse effects. It also well established that time-course exposure of rat neural stem cells with morphine potently could accelerate the endogenous dihydrotestosterone and estradiol biosynthesis. Interestingly, naloxone could consequently attenuate the enhanced neurosteroidogenesis time-dependently. It seems that our results discover a biochemical linkage between an accelerated synthesis of sex-related steroids and rat neural stem cells viability.