TY - JOUR T1 - Selectively inhibiting the median preoptic nucleus attenuates angiotensin II and hyperosmotic-induced drinking behavior and vasopressin release in adult male rats JF - eneuro JO - eNeuro DO - 10.1523/ENEURO.0473-18.2019 SP - ENEURO.0473-18.2019 AU - Alexandria B. Marciante AU - Lei A. Wang AU - George E. Farmer AU - J. Thomas Cunningham Y1 - 2019/03/07 UR - http://www.eneuro.org/content/early/2019/03/07/ENEURO.0473-18.2019.abstract N2 - The median preoptic nucleus (MnPO) is a putative integrative region that contributes to body fluid balance. Activation of the MnPO can influence thirst but it is not clear how these responses are linked to body fluid homeostasis. We used Designer Receptors Exclusively Activated by Designer Drugs (DREADDs) to determine the role of the MnPO in drinking behavior and vasopressin release in response to peripheral angiotensin II (ANG II) or 3% hypertonic saline in adult male Sprague-Dawley rats (250-300g). Rats were anesthetized with isoflurane and stereotaxically injected with an inhibitory DREADD (rAAV5-CaMKIIa-hM4D(Gi)-mCherry) or control (rAAV5-CaMKIIa-mCherry) virus in the MnPO. After 2 weeks’ recovery, a subset of rats were used for extracellular recordings to verify functional effects of ANG II or hyperosmotic challenges in MnPO slice preparations. Remaining rats were used in drinking behavior studies. Each rat was administered either 10mg/kg of exogenous clozapine-N-oxide (CNO) to inhibit DREADD-expressing cells or vehicle ip followed by a test treatment with either 2mg/kg ANG II or 3% hypertonic saline (1mL/100g bw) sc, twice per week for two separate treatment weeks. CNO-induced inhibition during either test treatment significantly attenuated drinking responses compared to vehicle treatments and controls. Brain tissue processed for cFos immunohistochemistry showed decreased expression with CNO-induced inhibition during either test treatment in the MnPO and downstream nuclei compared to controls. CNO-mediated inhibition significantly attenuated treatment-induced increases in plasma vasopressin compared to controls. The results indicate inhibition of CaMKIIa-expressing MnPO neurons significantly reduces drinking and vasopressin release in response to ANG II or hyperosmotic challenge.Significance Statement The MnPO is an important regulatory center that influences thirst, cardiovascular and neuroendocrine function. Activation of different MnPO neuronal populations can inhibit or stimulate water intake. However, the role of the MnPO and its pathway-specific projections during ANG II and hyperosmotic challenges still have not yet been fully elucidated. These studies directly address this by using DREADDs to acutely and selectively inhibit pathway-specific MnPO neurons, and uses techniques that measure changes at the protein, neuronal, and overall physiological and behavioral level. More importantly, we have been able to demonstrate that physiological challenges related to extracellular (ANG II) or cellular (hypertonic saline) dehydration activate MnPO neurons that may project to different parts of the hypothalamus. ER -