New roles for renin and prorenin in heart failure and cardiorenal crosstalk

The renin-angiotensin-aldosterone-system (RAAS) plays a central role in the pathophysiology of heart failure and cardiorenal interaction. Drugs interfering in the RAAS form the pillars in treatment of heart failure and cardiorenal syndrome. Although RAAS inhibitors improve prognosis, heart failure–associated morbidity and mortality remain high, especially in the presence of kidney disease. The effect of RAAS blockade may be limited due to the loss of an inhibitory feedback of angiotensin II on renin production. The subsequent increase in prorenin and renin may activate several alternative pathways. These include the recently discovered (pro-) renin receptor, angiotensin II escape via chymase and cathepsin, and the formation of various angiotensin subforms upstream from the blockade, including angiotensin 1–7, angiotensin III, and angiotensin IV. Recently, the direct renin inhibitor aliskiren has been proven effective in reducing plasma renin activity (PRA) and appears to provide additional (tissue) RAAS blockade on top of angiotensin-converting enzyme and angiotensin receptor blockers, underscoring the important role of renin, even (or more so) under adequate RAAS blockade. Reducing PRA however occurs at the expense of an increase plasma renin concentration (PRC). PRC may exert direct effects independent of PRA through the recently discovered (pro-) renin receptor. Additional novel possibilities to interfere in the RAAS, for instance using vitamin D receptor activation, as well as the increased knowledge on alternative pathways, have revived the question on how ideal RAAS-guided therapy should be implemented. Renin and prorenin are pivotal since these are at the base of all of these pathways

A neonate with idiopathic hyperaldosteronism

A boy with functional abnormalities of the gastro-intestinal tract, hyponatraemia, hypokalaemia and hypertension is described. All symptoms developed within the first 2 months of life. Increased aldosterone levels were associated with suppressed values in the renin-angiotensin system. The diagnosis of idiopathic hyperaldosteronism was made because of adrenal hyperplasia and the failure to suppress aldosterone to undetectable levels with glucocorticoids. Treatment with spironolactone alone, or in combination with either intravenous dopamine or ibopamine orally, amiloride, enalapril, hydralazine or clonidine corrected serum potassium values but failed to normalize blood pressure and to correct plasma renin activity and plasma aldosterone. However, the combination of spironolactone with nifedipine decreased blood pressure. Abnormal gastro-intestinal motility was corrected by low doses of oral magnesium hydroxide. To assess intracellular calcium homeostasis, the patient's peripheral blood mononuclear cells were incubated with increasing concentrations of calcium. As these cells failed to maintain physiological calcium concentration, a defect in intracellular calcium homeostasis was suspected