Control of Renin Secretion

Renin secretion was found to be controlled by a renal baroreceptor rather than by ischemia. Development of a sensitive assay technique that detects renin in small quantities of renal venous and peripheral arterial plasma has permitted the demonstration that the rate of renin secretion varies inverse...

Full description

Saved in:
Bibliographic Details
Published inCirculation research Vol. 15; no. 1; pp. 64 - 76
Main Authors Skinner, Sandford L, Mccubbin, James W, Page, Irvine H
Format Journal Article
LanguageEnglish
Published United States American Heart Association, Inc 01.07.1964
Subjects
Angiotensins
Biological Assay
Blood Circulation
Blood Flow Velocity
Carotid Arteries
Dogs
Hypoxia
Old Medline
Physiology
Renin
Sensory Receptor Cells
Vagotomy
CAROTID ARTERIES
PHYSIOLOGY
BIOLOGICAL ASSAY
RENIN
ANOXIA
BLOOD CIRCULATION
DOGS
EXPERIMENTAL LAB STUDY
RECEPTORS, NEURAL
VAGOTOMY
BLOOD FLOW VELOCITY
ANGIOTENSIN
Online AccessGet full text

Cover

More Information
Summary:Renin secretion was found to be controlled by a renal baroreceptor rather than by ischemia. Development of a sensitive assay technique that detects renin in small quantities of renal venous and peripheral arterial plasma has permitted the demonstration that the rate of renin secretion varies inversely with the level of arterial pressure independently of renal blood flow.When mean renal perfusion pressure was reduced 5 to 40 mm Hg by a constricting band around the aorta above the level of the renal arteries, increased renin secretion commenced within 60 seeonds. Reductions of this magnitude did not necessarily cause mean perfusion pressure to fall below control levels of diastolic perfusion pressure. Rises in perfusion pressure had the reverse effect, reducing the rate of renin secretion again without measurable change in renal blood flow. Compression of the kidney within an oncometer by an applied forece of from 15 to 40 mm Hg also caused increases in the rate of renin secretion in the absence of change in total renal blood flow. Reduction of pulse pressure alone did not provoke secretion of renin, nor did reduced oxygen tension, or renal ischemia. Rise in perfusion pressure due to occlusion of the common carotid arteries was associated with reduction in the rate of renin secretion.A small amount of renin was secreted continuously under the conditions of these experiments; physiologic changes in mean perfusion pressure served to alter the rate. This suggests that a renal baroreceptor mechanism regulates renin secretion under normal circumstances and that arterial pressure tends to stabilize at a level at which renin secretion is minimal.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0009-7330
1524-4571
DOI:10.1161/01.RES.15.1.64