Literature DB >> 9930578

Angiotensin II receptors in the human brain.

A M Allen1, D P MacGregor, M J McKinley, F A Mendelsohn.   

Abstract

The distribution of angiotensin AT1 and AT2 receptors in the human central nervous system has been mapped and is reviewed here. The results discussed provide the anatomical basis for inferences regarding the physiological role of angiotensin in the human brain. The distribution of the AT2 receptor is very restricted in the human brain and shows a high degree of variability across species. The physiological role of this receptor in the adult central nervous system is not clear. In contrast, a high correlation exists between the distributions of AT1 receptors in the human and other mammalian brains studied. This pattern of distribution suggests that angiotensin, acting through the AT1 receptor, would act as a neuromodulator or neurotransmitter in the human central nervous system to influence fluid and electrolyte homeostasis, pituitary hormone release and autonomic control of cardiovascular function.

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Year:  1999        PMID: 9930578     DOI: 10.1016/s0167-0115(98)00138-4

Source DB:  PubMed          Journal:  Regul Pept        ISSN: 0167-0115


  10 in total

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Journal:  Neuroscience       Date:  2010-05-08       Impact factor: 3.590

Review 2.  Angiotensin II AT(1) receptor blockers ameliorate inflammatory stress: a beneficial effect for the treatment of brain disorders.

Authors:  Juan M Saavedra
Journal:  Cell Mol Neurobiol       Date:  2011-09-22       Impact factor: 5.046

Review 3.  Angiotensin II AT(1) receptor blockers as treatments for inflammatory brain disorders.

Authors:  Juan M Saavedra
Journal:  Clin Sci (Lond)       Date:  2012-11       Impact factor: 6.124

Review 4.  Angiotensin II AT2 Receptors Contribute to Regulate the Sympathoadrenal and Hormonal Reaction to Stress Stimuli.

Authors:  J M Saavedra; I Armando
Journal:  Cell Mol Neurobiol       Date:  2017-09-07       Impact factor: 5.046

5.  The contribution of brain angiotensin II to the baroreflex regulation of renal sympathetic nerve activity in conscious normotensive and hypertensive rats.

Authors:  Chunlong Huang; Misa Yoshimoto; Kenju Miki; Edward J Johns
Journal:  J Physiol       Date:  2006-05-11       Impact factor: 5.182

Review 6.  Brain renin-angiotensin system dysfunction in hypertension: recent advances and perspectives.

Authors:  Shereeni J Veerasingham; Mohan K Raizada
Journal:  Br J Pharmacol       Date:  2003-05       Impact factor: 8.739

Review 7.  A current view of brain renin-angiotensin system: Is the (pro)renin receptor the missing link?

Authors:  Adolfo E Cuadra; Zhiying Shan; Colin Sumners; Mohan K Raizada
Journal:  Pharmacol Ther       Date:  2009-08-31       Impact factor: 12.310

8.  AT2 Receptor-Interacting Proteins ATIPs in the Brain.

Authors:  Sylvie Rodrigues-Ferreira; Erwann le Rouzic; Traci Pawlowski; Anand Srivastava; Florence Margottin-Goguet; Clara Nahmias
Journal:  Int J Hypertens       Date:  2013-01-23       Impact factor: 2.420

9.  Oxidative stress in the brain causes hypertension via sympathoexcitation.

Authors:  Takuya Kishi; Yoshitaka Hirooka
Journal:  Front Physiol       Date:  2012-08-17       Impact factor: 4.566

10.  Function and pharmacology of spinally-projecting sympathetic pre-autonomic neurones in the paraventricular nucleus of the hypothalamus.

Authors:  Nicolas Nunn; Matthew Womack; Caroline Dart; Richard Barrett-Jolley
Journal:  Curr Neuropharmacol       Date:  2011-06       Impact factor: 7.363
  10 in total

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