Osmotic regulation of estrogen receptor-β expression in magnocellular vasopressin neurons requires lamina terminalis

Abstract

Estrogen receptor-β (ER-β) expression in rat magnocellular vasopressin (VP) neurons of the supraoptic and paraventricular nuclei (SON and PVN, respectively) becomes undetectable after 72 h of 2% NaCl consumption. To test the hypothesis that osmosensitive mechanisms that originate in the region of the organum vasculosum lamina terminalis (OVLT) control ER-β expression in the SON and PVN, animals were water deprived after electrolytic lesions were performed on the area anterior to the ventral third ventricle (AV3V). Such lesions prevent osmotic stimulation of VP release. Four weeks after surgery, male rats [lesioned ( n = 16) or sham ( n = 14)] were water deprived for 48 h or allowed water ad libitum. Water deprivation eliminated ER-β-immunoreactivity (-ir) in SON and magnocellular PVN of sham-lesioned animals. Fos-ir was evident in these neurons, and plasma osmolality (P_osm) and hematocrit (Ht) were significantly elevated compared with the sham-hydrated rats (P_osm, 304 ± 1 vs. 318 ± 2 mosmol/kgH₂O; P < 0.001; Ht, 49.6 ± 0.6 vs. 55.0 ± 0.9%; P < 0.001). ER-β expression was comparable in sham-hydrated, AV3V-hydrated, and 6 of 8 AV3V-dehydrated rats despite significant increases in P_osm in both groups (AV3V hydrated, 312 ± 2; AV3V dehydrated, 380 ± 10 mosmol/kgH₂O; P < 0.001). OVLT was not ablated in the AV3V-dehydrated rats in which ER-β was depleted. Fos-ir was low or undetectable in SON in the AV3V-hydrated animals despite elevated P_osm values. In AV3V-dehydrated rats, Fos-ir was significantly less than in sham-dehydrated animals but was significantly increased compared with the sham-hydrated group. This could reflect activation by nonosmotic parameters that do not inhibit ER-β expression. These data support the hypothesis that inhibition of ER-β expression in the SON by osmotic stimulation is mediated by osmoreceptive neurons in the lamina terminalis.