IntroductionThe renin angiotensin system (RAS) plays a critical role in cardiovascular and fluid homeostasis. In addition to its importance in regulating normal physiology, enhanced activity or dysregulation of the RAS can lead to maladaptive responses and significant cardiovascular disease. The RAS is an ancient system that is present in lower organisms including amphibians, and many of its features have been conserved across evolution. The major biologically active peptide of the RAS is angiotensin II, and its major actions are mediated by G protein-coupled angiotensin receptors. These receptors can be divided into two pharmacological classes, AT 1 and AT 2 (1). Most of the classically recognized actions of the RAS in fluid and blood pressure homeostasis are mediated by AT 1 receptors. AT 1 receptors are expressed in brain and peripheral tissues. The central nervous system (CNS) receptors play a key role in blood pressure regulation and in regulation of drinking and water balance (2).The discovery of two AT 1 receptor isoforms in rats and mice, termed AT 1A and AT 1B receptors, uncovered an additional level of complexity of the system (3-5). These receptors are highly homologous with indistinguishable binding profiles, but are products of distinct genes (Agtr1a and Agtr1b) that are differentially expressed and regulated (6-8). Although a single report has suggested the existence of AT 1B receptors in humans (9), most investigators believe that humans have only a single AT 1 receptor gene. Despite this apparent genetic difference, the physiological actions of AT 1 receptors in humans and rodents are virtually identical. Because pharmacological AT 1 receptor antagonists cause equivalent inhibition of both AT 1 isoforms, the relative physiological roles of AT 1A and AT 1B and their relationship to human AT 1 receptor functions have been difficult to identify. Recent gene-targeting experiments have clarified the relative role of the AT 1A and AT 1B receptors in the periphery, demonstrating a predominant role for AT 1A receptors in regulation of vascular tone (10, 11). In the brain as in the periphery, expression of AT 1A exceeds that of AT 1B , with the exception of the pituitary gland, where AT 1B expression predominates (12)(13)(14). AT 1A expression is especially prominent in major forebrain cardiovascular and fluid regulatory centers (12). AT 1B expression is highest in the anterior pituitary (12-14). However, the relative contributions of these AT 1 receptor subtypes to central angiotensin II responses are not known. We used gene targeting in combination with a unique system for maintaining catheters in the cerebral ventricles of conscious mice to test whether there are differential roles for AT 1A and AT 1B receptors in responses elicited by angiotensin II in the CNS. The renin-angiotensin system (RAS) plays a critical role in cardiovascular and fluid homeostasis. The major biologically active peptide of the RAS is angiotensin II, which acts through G protein-coupled receptors of two pharmacological classes...