Angiotensin II in central nervous system physiology.

In summary, the prevailing concept is that brain Ang II increases blood pressure by activating AT1 receptors, and that these have a neuromodulating effect to increase the activity of autonomic nervous system. Pathways for Ang II stimulating thirst and blood pressure, increased vasopressin release and sympathetic activation have been outlined. Brain RAS synthesis, while incompletely understood, is active in the absence of a peripheral RAS. Angiotensin elicits specific receptor mediated signals in neurons, particularly in the hypothalamus and brainstem. These actions are due to neuronal membrane ionic currents and the regulation of transcription factors. The areas to be explored further are characterization and functional roles of the other AT receptor subtypes, such as AT4, AT(1-7) and nuclear AT-R. Their interactions with other peptides and transmitters, and their signaling pathways need to be investigated. The story that began 100 years ago with renin is certainly not ended and will continue to unfold as further investigations with new techniques progress.