BIOMAT Database Logo BIOMAT Database Logo

No effect of short term angiotensin II infusion on plasma renin substrate levels in man. 1989

K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
Unit of Clinical Physiology, Minerva Foundation Institute for Medical Research, Helsinki, Finland.

We studied the effect of angiotensin II (A-II) infusion (4 ng/kg BW.min) on plasma renin substrate (RS) levels and PRA in five normal men during normal, diuretic-stimulated, and enalapril-interrupted function of the renin-angiotensin system. A-II infusion increased (15-25%) both systolic and diastolic blood pressure in the normal state and during angiotensin-converting enzyme inhibition, whereas the increase during diuretic-stimulated renin-angiotensin system function was less. The plasma RS concentration was measured by both direct and indirect RIA. The mean basal plasma RS levels, measured with direct assay, were 1516 +/- 150 (SE) in the normal state, 1566 +/- 150 after diuretic administration, and 1650 +/- 133 nmol/L after enalapril administration. The corresponding mean basal plasma RS levels measured with the indirect assay were 1073 +/- 100, 1031 +/- 57, and 902 +/- 78 nmol/L, respectively. Plasma RS levels did not change during or after the A-II infusions, whereas PRA decreased significantly in all experimental conditions. The results suggest that A-II exerts no direct stimulatory effect on hepatic release of RS. Thus, A-II appears not to be important in the short term regulation of plasma RS levels.

UI MeSH Term Description Entries
D007262 Infusions, Intravenous The long-term (minutes to hours) administration of a fluid into the vein through venipuncture, either by letting the fluid flow by gravity or by pumping it. Drip Infusions,Intravenous Drip,Intravenous Infusions,Drip Infusion,Drip, Intravenous,Infusion, Drip,Infusion, Intravenous,Infusions, Drip,Intravenous Infusion
D008297 Male Males
D008875 Middle Aged An adult aged 45 - 64 years. Middle Age
D012083 Renin A highly specific (Leu-Leu) endopeptidase that generates ANGIOTENSIN I from its precursor ANGIOTENSINOGEN, leading to a cascade of reactions which elevate BLOOD PRESSURE and increase sodium retention by the kidney in the RENIN-ANGIOTENSIN SYSTEM. The enzyme was formerly listed as EC 3.4.99.19. Angiotensin-Forming Enzyme,Angiotensinogenase,Big Renin,Cryorenin,Inactive Renin,Pre-Prorenin,Preprorenin,Prorenin,Angiotensin Forming Enzyme,Pre Prorenin,Renin, Big,Renin, Inactive
D012084 Renin-Angiotensin System A BLOOD PRESSURE regulating system of interacting components that include RENIN; ANGIOTENSINOGEN; ANGIOTENSIN CONVERTING ENZYME; ANGIOTENSIN I; ANGIOTENSIN II; and angiotensinase. Renin, an enzyme produced in the kidney, acts on angiotensinogen, an alpha-2 globulin produced by the liver, forming ANGIOTENSIN I. Angiotensin-converting enzyme, contained in the lung, acts on angiotensin I in the plasma converting it to ANGIOTENSIN II, an extremely powerful vasoconstrictor. Angiotensin II causes contraction of the arteriolar and renal VASCULAR SMOOTH MUSCLE, leading to retention of salt and water in the KIDNEY and increased arterial blood pressure. In addition, angiotensin II stimulates the release of ALDOSTERONE from the ADRENAL CORTEX, which in turn also increases salt and water retention in the kidney. Angiotensin-converting enzyme also breaks down BRADYKININ, a powerful vasodilator and component of the KALLIKREIN-KININ SYSTEM. Renin-Angiotensin-Aldosterone System,Renin Angiotensin Aldosterone System,Renin Angiotensin System,System, Renin-Angiotensin,System, Renin-Angiotensin-Aldosterone
D001794 Blood Pressure PRESSURE of the BLOOD on the ARTERIES and other BLOOD VESSELS. Systolic Pressure,Diastolic Pressure,Pulse Pressure,Pressure, Blood,Pressure, Diastolic,Pressure, Pulse,Pressure, Systolic,Pressures, Systolic
D002800 Cholinesterase Inhibitors Drugs that inhibit cholinesterases. The neurotransmitter ACETYLCHOLINE is rapidly hydrolyzed, and thereby inactivated, by cholinesterases. When cholinesterases are inhibited, the action of endogenously released acetylcholine at cholinergic synapses is potentiated. Cholinesterase inhibitors are widely used clinically for their potentiation of cholinergic inputs to the gastrointestinal tract and urinary bladder, the eye, and skeletal muscles; they are also used for their effects on the heart and the central nervous system. Acetylcholinesterase Inhibitor,Acetylcholinesterase Inhibitors,Anti-Cholinesterase,Anticholinesterase,Anticholinesterase Agent,Anticholinesterase Agents,Anticholinesterase Drug,Cholinesterase Inhibitor,Anti-Cholinesterases,Anticholinesterase Drugs,Anticholinesterases,Cholinesterase Inhibitors, Irreversible,Cholinesterase Inhibitors, Reversible,Agent, Anticholinesterase,Agents, Anticholinesterase,Anti Cholinesterase,Anti Cholinesterases,Drug, Anticholinesterase,Drugs, Anticholinesterase,Inhibitor, Acetylcholinesterase,Inhibitor, Cholinesterase,Inhibitors, Acetylcholinesterase,Inhibitors, Cholinesterase,Inhibitors, Irreversible Cholinesterase,Inhibitors, Reversible Cholinesterase,Irreversible Cholinesterase Inhibitors,Reversible Cholinesterase Inhibitors
D004232 Diuretics Agents that promote the excretion of urine through their effects on kidney function. Diuretic,Diuretic Effect,Diuretic Effects,Effect, Diuretic,Effects, Diuretic
D004656 Enalapril An angiotensin-converting enzyme inhibitor that is used to treat HYPERTENSION and HEART FAILURE. Enalapril Maleate,MK-421,MK421,Renitec,Renitek,MK 421,Maleate, Enalapril
D005947 Glucose A primary source of energy for living organisms. It is naturally occurring and is found in fruits and other parts of plants in its free state. It is used therapeutically in fluid and nutrient replacement. Dextrose,Anhydrous Dextrose,D-Glucose,Glucose Monohydrate,Glucose, (DL)-Isomer,Glucose, (alpha-D)-Isomer,Glucose, (beta-D)-Isomer,D Glucose,Dextrose, Anhydrous,Monohydrate, Glucose

Related Publications

K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
Effect of short-term upright posture on plasma angiotensin II in man.
February 1974, Scandinavian journal of clinical and laboratory investigation,
K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
The effect of angiotensin II infusion and of bilateral nephrectomy on plasma renin--substrate in rats.
January 1978, The Journal of the Egyptian Medical Association,
K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
Plasma angiotensin II, renin, renin-substrate and aldosterone concentrations in acute renal failure in man.
January 1975, Clinical nephrology,
K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
Angiotensin II infusion in man is proinflammatory but has no short-term effects on thrombin generation in vivo.
May 2009, Thrombosis research,
K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
Platelet angiotensin II binding and plasma renin concentration, plasma renin substrate and plasma angiotensin II in human pregnancy.
October 1990, Clinical science (London, England : 1979),
K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
Short-term hyperthyroidism has no effect on leptin levels in man.
February 1997, The Journal of clinical endocrinology and metabolism,
K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
The effect of angiotensin II infusion on plasma corticosteroid concentrations in normal man.
October 1976, Journal of steroid biochemistry,
K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
The effect of captopril on renin, angiotensin II, cortisol and aldosterone during ACTH-infusion in man.
January 1982, Clinical and experimental hypertension. Part A, Theory and practice,
K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
Plasma renin, renin substrate and angiotensin II changes following experimental endotoxinaemia.
May 1979, Hormone and metabolic research = Hormon- und Stoffwechselforschung = Hormones et metabolisme,
K Metsärinne, and F Fyhrquist, and J Tötterman, and I Tikkanen
ACTH stimulates plasma renin and angiotensin II in man.
December 1981, Clinical science (London, England : 1979),
Copied contents to your clipboard!