To determine whether dietary sodium intake modifies the generation of adrenal-produced angiotensins and/or their relative proportions, Sprague-Dawley rats were maintained on a low (0.02%), normal (0.4%), or high (1.5%) sodium intake for 5 days. The animals were then killed by decapitation at 0900 h, and their adrenal glands were removed and dissected into two parts: capsular tissue, containing the zona glomerulosa (ZG), and the decapsulated adrenal gland. The tissue was frozen in liquid nitrogen and extracted, and the individual angiotensins [angiotensin-II (AII), angiotensin-III (AIII), angiotensin-I (AI), and Des-Asp-angiotensin-I (Des-Asp-AI)] were separated by HPLC and quantitated by RIA. On a normal sodium intake, the molar contents of the four angiotensins were similar in ZG, ranging from 3.1-6.6 pmol/g, although AII was present in a 60-70% higher concentration than AIII. In the decapsulated adrenal, the concentrations of the various angiotensins were again similar, but the absolute levels (per g tissue) were significantly (P less than 0.02) less than those in the ZG layer. With sodium restriction, the AII content increased more than 2-fold in the ZG, but not in the decapsulated adrenal tissue. In contrast, both AI and Des-Asp-AI significantly (P less than 0.01) decreased with sodium restriction, so that their contents on the low salt diet were only 15-20% of those observed on the high sodium diet. Thus, there was an inverse correlation (P less than 0.001) between the salt content of rat chow and the AII content of the ZG. The correlation between salt intake and AI as well as Des-Asp-AI levels was direct and significant (P less than 0.02). The AIII level in the ZG was similar on all diets. After a lag period, ZG AII increased sharply between 16-48 h of sodium restriction. These data document that sodium intake has a profound effect on the angiotensin content of the ZG, with sodium restriction substantially increasing the levels of AII while reducing the level of its substrate, AI. This also appears to be unique for glomerulosa cells, as in the decapsulated adrenal gland there is little if any change with sodium restriction. We conclude that these sodium-mediated changes in tissue AII production may be involved in the increased responsiveness of glomerulosa cells to aldosterone secretagogues during sodium restriction.