Effect of Block of Catecholamine Synthesis on the Functional State of Vasopressinergic Neurons of Hypothalamus in Dehydrated Rats

Effect of catecholamines (CA) on the functional state of vasopressin (VP)-ergic neurons of hypothalamus at their stimulation produced by dehydration (salt diet and water deprivation) was studied in in vivo experiments on adult male Wistar rats. Quantitative assessment of VP-immunopositive substance and digoxigenin-labeled VP mRNA (hybridization in situ) in neurosecretory cells of supraoptic (SON) and paraventricular (PVN) nuclei was performed using measurements of optical density of the stained substance in perykaria and a computer digital television analyzer with PhotoM software. Hybridization in situ technique allowed evaluating intensity of VP synthesis, while comparison of the amount of VP mRNA and VP-immunoreactive substance in neurons of SON and PVN made it possible to evaluate release of VP from perykaria. In PVN, repeated saline administration (0.25 ml per 100 g weight) and severe dehydration led to activation both of synthesis and of release of VP from cell perikarya. Use of -methyl-p-tyrosine, an inhibitor of catecholamine (CA) synthesis on the background of dehydration was not accompanied by changes of the functional state of VP-ergic neurons of PVN as compared with dehydrated animals. No changes in functional state of VP-ergic neurosecretory cells in SON were found after saline administration, whereas dehydration activated synthesis and release of VP from perykaria, like in VP-ergic neurons of PVN. Inhibition of CA synthesis on the background of dehydration led to activation of VP release by SON neurons without affecting the level of VP synthesis. The data obtained indicate that CA is able to suppress the VP release from neurons of SON, which is produced caused by activation of the VP-ergic system under conditions of dehydration.