Recognized molecular mechanisms of heart failure: approaches to treatment.

Abnormalities of cytosolic calcium handling and myocyte energetics appear to play an important role in mediating contractile dysfunction in heart failure. Systolic and diastolic dysfunction in the failing heart are related to abnormalities of the excitation-contraction mechanism as well as myofilament calcium sensitivity. These abnormalities can be viewed as a compensatory mechanism as the myocytes by down regulating its function and metabolic activity preserve energy consumption and allow better maintenance of basal cellular homeostasis. The end point of myocyte dysfunction, however, is a reduced contraction, which, in turn, might cause a reduced cardiac output and a threatening of arterial pressure. This causes a second level of adaptation, which implies a neuroendocrine response of the whole organism. Consequently, the syndrome of congestive heart failure is characterized not only by impaired ventricular function, but also by an increase in some endogenous substances leading to vasoconstriction and water and salt retention. Although activation of the systems that release these substances is presumed to be compensatory, the sympathetic nervous system and renin-angiotensin-aldosterone system as well as the endothelins may contribute to the pathogenesis of the syndrome. Opposite to the effects of these systems are those evoked by the release of atrial natriuretic peptides. The peptides exert a potent direct vasodilatation and natriuresis. In addition, atrial natriuretic peptides inhibit the release of norepinephrine from nerve terminals and suppress the formation of renin. However, the natriuretic and vasodilator effects of these peptides in patients with congestive heart failure are outweighed by the sodium retention and vasoconstriction caused by sympathetic stimulation and activation of the renin-angiotensin-aldosterone system. The reasons for this are not entirely known. The atrial stretch receptors that are responsible for the release of the atrial peptides become impaired, and it has been suggested that patient with heart failure may adapt to the physiologic effects of atrial natriuretic peptides. The possibility that congestive heart failure is in part a humoral disease is reviewed here and consequently pharmacologic treatment aimed at reducing the effects of the neuroendocrine response as to be advantageous for patients with heart failure.