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  • Title: Strain differences in sigma(1) receptor-mediated behaviours are related to neurosteroid levels.
    Author: Phan VL, Urani A, Romieu P, Maurice T.
    Journal: Eur J Neurosci; 2002 May; 15(9):1523-34. PubMed ID: 12028363.
    Abstract:
    The sigma(1) (sigma(1)) receptor exerts a potent neuromodulatory role in the brain with relevant consequences in memory processes, response to stress, depression and pharmacodependence. Its precise endogenous ligand is not yet identified but the sigma(1) receptor appears to be one target for the nongenomic rapid effects of neuroactive steroids in the brain. The aim of the present study was to establish whether differences in sigma(1) receptor-mediated behaviours could be observed among mouse strains, in relation with differences in either sigma(1) receptor expression or steroid levels. The sigma(1)-receptor immunohistochemical distribution appeared similar between Swiss and C57BL/6 strains in all the brain structures examined. The levels of in vivo [(3)H](+)-SKF-10 047 binding to sigma(1) receptors were lower in Swiss than in C57BL/6. Adrenalectomy/castration significantly increased [(3)H](+)-SKF-10 047 binding only in Swiss. The behavioural efficacy of the selective sigma( 1) agonists igmesine and PRE-084 -- reversion of the scopolamine-induced amnesia in the passive avoidance test; diminution of the immobility duration in the forced swimming test -- were significantly higher in C57BL/6 than in Swiss. Steroid levels were measured in the brain in basal conditions and after stress. C57BL/6 mice presented in both conditions, the lowest progesterone levels, this steroid acting as an endogenous sigma(1) antagonist. Collectively, the results suggested that strain differences in neuroactive steroid and particularly, progesterone, biosynthesis and sensitivity may contribute to the differential behavioural efficacy of sigma(1)-receptor ligands. Noteworthy, these observations are coherent with strain differences observed in the intensity of cocaine-induced reward properties, known to critically involve the sigma(1) receptor.
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