ANF in experimental congestive heart failure.

The plasma and cardiac levels of immunoreactive (IR) atrial natriuretic factor (ANF) were measured during the entire lifespan of cardiomyopathic hamsters, which eventually develop spontaneous congestive heart failure, and were correlated with immunohistochemical, ultrastructural, and immunocytochemical changes in the secretory apparatus of atrial and ventricular cardiocytes. Plasma IR-ANF rose in the early stages of the disease, reached a maximum in moderate heart failure, and declined thereafter but remained above control values. The peptide decreased constantly in the atria during the evolution of the disease but increased markedly in the ventricles. Its highest levels were found in the inner half of the left ventricle. In atrial cardiocytes, the size and complexity of the Golgi complex increased with the progression of the disease, whereas the number, size, and IR-ANF content (as assessed by the immunogold technique) of secretory granules decreased constantly. In ventricular cardiocytes, the size of the Golgi complex increased, and typical secretory granules were present in approximately 20% of these cells, regardless of their localization in the myocardium. The results suggest that stimulation of ANF secretion in atrial cardiocytes leads to a dissociation between synthesis and release, the latter being maximal according to ultrastructural and immunocytochemical criteria. In ventricular cardiocytes, the same stimulation culminates in increased synthesis and the possibility of release via two pathways: one constitutive, the other regulated. Thus, the elevated plasma levels of IR-ANF in congestive heart failure may be derived from secretion by both atrial and ventricular cardiocytes.