Metabolism of angiotensin I by different tissues in the intact animal

To quantify regional conversion of angiotensin (ANG) I to ANG II and its degradation to peptides other than ANG II, monoiodinated 125I-labeled ANG I was given to anesthetized pigs by constant infusion into the left cardiac ventricle. At steady state, blood samples were taken from the aorta and various regional veins. Distribution volume of ANG I appeared to be 24% of body weight. After angiotensin-converting enzyme (ACE) inhibitor treatment, fractional ANG I metabolism (fraction of arterially delivered ANG I that was metabolized during a single passage of blood) was 10% in the lungs (conversion 4%), compared with 56% in the combined systemic vascular beds (conversion 1%). Fractional ANG I metabolism during ACE inhibition was 93% in the kidney; 50-70% in myocardium, skeletal muscle, head, and skin; 21% in the left cardiac cavity; and 14% in the right cardiac cavity. Without ACE inhibition, fractional ANG I metabolism was 29% in the lungs (conversion 25%); 49% in the combined systemic vascular beds (conversion 10%); 38% in the left cardiac cavity (conversion 11%); and 14% in the right cardiac cavity (conversion 0%). It may thus be concluded that 1) extrapulmonary vascular beds make an important contribution to the conversion of circulating ANG I and 2) there is rapid extrapulmonary ANG I degradation that does not depend on ANG I-II conversion

Production of angiotensins I and II at tissue sites in the intact pig

To estimate the contribution of angiotensin (ANG) I and II production at tissue sites to the circulating levels, ANG I and II and their radiolabeled counterparts were measured in arterial and venous plasma across various vascular beds during constant infusion of 125I-ANG I into the left cardiac ventricle of anesthetized pigs. In the combined systemic vascular beds, ANG I production was closely correlated with plasma renin activity (PRA) and ANG II production was greater than in the lungs. In the lungs virtually no ANG I but 31% of ANG II in venous plasma was derived from de novo production, which could be fully accounted for by conversion of circulating ANG I. In myocardium, head, skin, skeletal muscle, and kidney, respectively, 40, 58, 55, 67, and 94% of venous ANG I, and 32, 49, 40, 59, and 85% of venous ANG II were derived from de novo production. In these extrapulmonary beds part of de novo produced ANG I and II appeared not to be generated, respectively, by PRA and by conversion of circulating ANG I. These results indicate that production of ANG I at tissue sites contributes to its circulating level and that some circulating ANG II may not be derived from circulating ANG I