Neurobehavioral and neurophysiological effects of prolonged osmotic stress in rats: A focus on anxiety state and pain perception.

This study examined the effect of prolonged water deprivation, in rat, on 5-HT and TH- immuno-expression in Dorsal Raphe Nucleus (DRN), Substantia Nigra pars compacta (SNc), Ventral Tegmental Area (VTA), and Magnus Raphe Nucleus (MRN). In parallel, we evaluated the anxiety state and pain perception in dehydrated rats. Our Findings revealed that dehydrated rats exhibited more preference for the dark compartment, suggesting that prolonged water deprivation is associated to an anxiogenic effect. After one week, 5 H T IR in the DRN of dehydrated rates showed a significant decrease. This was reversed to a significant increase post week 2 of dehydration. Our findings also demonstrated that TH-IR in DRN, MRN, SNc and VTA neuronal systems is significantly and gradually enhanced after 1-and-2-week osmotic stress. In addition, our results proved that all dehydrated rats were characterized by a significant and proportional rise of the reaction time to the nociceptive response in the hot plate test, as water deprivation duration increased, suggesting that dehydration caused a significant decrease in pain perception. Finally, the data described here clearly showed the implication of serotonin and dopamine neurotransmitter systems in the resistance to osmotic stress. Therefore, in this study, such central impairments were traduced by a few peripheral outcomes manifested by changes in mood state and nociception.