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Aldosterone

Aldosterone is a steroid hormone synthesized from cholesterol by the enzyme aldosterone synthase. It is formed in the outer-section (zona glomerulosa) of the adrenal cortex of the adrenal gland, as the cells of other sections don't have the corresponding enzyme. It is the sole endogenous member of the class of mineralocorticoids. It helps regulate the body's electrolyte balance by acting on the mineralocorticoid receptor (MR). It diminishes the excretion of sodium (Na+) ions and therefore water, and stimulates the excretion of potassium (K+) ions by the kidneys. more...

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Unlike neuroreceptors, classic steroid receptors are located inside of cells. The aldosterone/MR receptor complex binds to the corresponding section of DNA called hormone response element that alters protein synthesis and the transcription of messenger RNA, including serum and glucocorticoid-induced kinase, channel-inducing factor, K-ras2A, and three subunits of the epithelial sodium channel. These genes are important for transepithelial sodium transport.

Aldosterone is synthesized in reaction to increases of angiotensin II or plasma potassium, which are present in proportion to sodium deficiencies. The secretion of aldosterone has a diurnal rhythm, with about 75% of the daily production is secreted between 04:00 and 10:00 each day.

Aldosterone and the kidney

Control of aldosterone release

  • The role of baroreceptors
  • The role of the juxtaglomerular apparatus
  • The role of sympathetic nerves
  • The role of the renin-angiotensin system

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The function of aldosterone in patients with diabetes - Tips from Other Journals - Author Abstract
From American Family Physician, 9/1/03 by Richard Sadovsky

The prevalence of type 2 diabetes is increasing because the population is aging and becoming more obese and more sedentary. Diabetes has become the most common cause of new blindness, end-stage renal disease, and lower limb amputations in the United States. Other complications of diabetes include cardiovascular disease, stroke, and early mortality. Recent research has demonstrated the important role of the renin-angiotensin aldosterone system in the increased risk for hypertension and cardiovascular disease in patients with type 2 diabetes.

McFarlane and Sowers reviewed the role of aldosterone as an added risk factor to angiotensin II for cardiovascular disease in persons who have diabetes. The presence of type 2 diabetes is a risk factor for cardiovascular disease and also accentuates the risk brought on by hypertension, smoking, and dyslipidemia. Diabetic renal disease and vascular disease move ahead concurrently in persons with type 2 diabetes. Albuminuria is a predictor of cardiovascular disease and stroke as well as diabetic renal disease. Activation of the renin-angiotensin system (RAS) negatively affects the renal glomerulus as well as the vascular system. The relationship of RAS activation to heart failure and stroke incidence and severity also has been documented. The reduction of blood pressure in persons with type 2 diabetes who use an angiotensin-converting enzyme (ACE) inhibitor significantly reduces stroke risk. Recent data point to a similar risk reduction with the use of an angiotensin-receptor blocking (ARB) agent.

Aldosterone, a steroid hormone produced in the outer layer of the adrenal cortex, promotes renal sodium retention and potassium loss. Secretion changes occur in response to alterations of volume status or salt intake mediated by angiotensin II. Aldosterone reduces baroreflex sensitivity and enhances sympathetic activity resulting in reduced nitric oxide-mediated vasorelaxation. This results in reduced serum potassium levels and an increase in left ventricular mass and cardiac output. The aldosterone antagonist spironolactone reduces morbidity and mortality in patients with severe heart failure. The procoagulant properties of aldosterone with inhibition of fibrinolysis potentiate atherosclerosis. Renal glomerulus dysfunction results from basement membrane abnormalities, nephrosclerosis, and renal fibrosis induced by aldosterone, and leads to microalbuminuria.

The authors conclude that aldosterone has detrimental effects on the vasculature, cardiac tissue, renal mesangial cells, and the brain, as well as deleterious effects on baroreflex sensitivity and the autonomic nervous system. Blocking aldosterone actions may have positive cardiovascular and renal effects. Further studies are needed to investigate the efficacy of ACE inhibitor/ARB combinations and aldosterone antagonists in reduction of renal and cardiovascular disease in persons with type 2 diabetes.

McFarlane SI, Sowers JR. Aldosterone function in diabetes mellitus: effects on cardiovascular and renal disease. J Clin Endocrinol Metab February 2003;88:516-23.

COPYRIGHT 2003 American Academy of Family Physicians
COPYRIGHT 2003 Gale Group

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