A De Lean

Bovine adrenal chromaffin granules are a site of synthesis of atrial natriuretic factor

We have previously reported the existence of a peptide factor in the adrenal medulla which inhibits aldosterone secretion in cultured bovine zona glomerulosa cells. The acid extracts of chromaffin granules from bovine adrenal medulla were purified by a four step high performance liquid chromatography procedure. Two active fractions exhibited sequence homology with bovine atrial natriuretic factor ANF (Ser99-Tyr126) and its polypeptide precursor (Asn1-Tyr126). The occurrence of both precursor and mature forms of ANF within chromaffin granules indicates the endogenous character of ANF in the adrenal medulla and suggests the potential usefulness of cultured adrenal chromaffin cells for investigating the synthesis, maturation and secretion of atrial peptides.

Hypothyroidism modulates beta adrenergic receptor adenylate cyclase interactions in rat reticulocytes.

We have investigated alterations in beta adrenergic receptor binding sites of rat reticulocytes occurring in animals rendered hypothyroid by thyroidectomy. Beta adrenergic receptor interactions were assessed by measuring the number of (-)[3H]-dihydroalprenolol binding sites and the ability of an agonist to compete for occupancy of the receptors. The number of receptors was significantly reduced in cells from the hypothyroid animals. In addition, there were significant agonist-specific alterations in binding. Using computer assisted curve fitting techniques, it was found that the ability of (-)isoproterenol to stabilize a high affinity guanine nucleotide sensitive coupled form of the receptor was impaired. Reticulocytes from hypothyroid animals have, in addition, a reduction in the concentration of the nucleotide regulatory protein as assessed by the number of 42,000 Mr substrates for cholera toxin catalyzed ADP ribosylation. These alterations are associated with reductions in catecholamine and NaF stimulated adenylate cyclase activity. Diminished coupling of beta adrenergic receptors with other regulatory components of the adenylate cyclase system represents a mechanism by which altered thyroid states modulate beta adrenergic receptor function and beta adrenergic responsiveness of tissues.

Structure-activity relationships of atrial natriuretic factor (ANF) III correlation of receptor affinity with relative potency on aldosterone production in zona glomerulosa cells

The activity of various fragments of ANF as inhibitors of aldosterone secretion and as competitors of [125I] ANF (Arg101-Tyr126) binding to specific receptors was studied in bovine zona glomerulosa. Shortening or lengthening the N-terminal segment of ANF does not alter its biological activity while minimally altering affinity for its receptor. Removal of the C-terminal to Cys121 or expansion up to Arg128 leads to 1000-fold decrease in receptor affinity and activity. The results indicate the importance of the C-terminal segment of ANF in determining its active conformation.

Impaired formation of beta-adrenergic receptor-nucleotide regulatory protein complexes in pseudohypoparathyroidism.

Decreased activity of the guanine nucleotide regulatory protein (N) of the adenylate cyclase system is present in cell membranes of some patients with pseudohypoparathyrodism (PHP-Ia) whereas others have normal activity of N (PHP-Ib). Low N activity in PHP-Ia results in a decrease in hormone (H)-stimulatable adenylate cyclase in various tissues, which might be due to decreased ability to form an agonist-specific high affinity complex composed of H, receptor (R), and N. To test this hypothesis, we compared beta-adrenergic agonist-specific binding properties in erythrocyte membranes from five patients with PHP-Ia (N = 45% of control), five patients with PHP-Ib (N = 97%), and five control subjects. Competition curves that were generated by increasing concentrations of the beta-agonist isoproterenol competing with [125I]pindolol were shallow (slope factors less than 1) and were computer fit to a two-state model with corresponding high and low affinity for the agonist. The agonist competition curves from the PHP-Ia patients were shifted significantly (P less than 0.02) to the right as a result of a significant (P less than 0.01) decrease in the percent of beta-adrenergic receptors in the high affinity state from 64 +/- 22% in PHP-Ib and 56 +/- 5% in controls to 10 +/- 8% in PHP-Ia. The agonist competition curves were computer fit to a ternary complex model for the two-step reaction: H + R + N in equilibrium HR + N in equilibrium HRN. The modeling was consistent with a 60% decrease in the functional concentration of N, and was in good agreement with the biochemically determined decrease in erythrocyte N protein activity. These in vitro findings in erythrocytes taken together with the recent observations that in vivo isoproterenol-stimulated adenylate cyclase activity is decreased in patients with PHP (Carlson, H. E., and A. S. Brickman, 1983, J. Clin. Endocrinol. Metab. 56:1323-1326) are consistent with the notion that N is a bifunctional protein interacting with both R and the adenylate cyclase. It may be that in patients with PHP-Ia a single molecular and genetic defect accounts for both decreased HRN formation and decreased adenylate cyclase activity, whereas in PHP-Ib the biochemical lesion(s) appear not to affect HRN complex formation.

Binding of the opiate-like pentapeptide methionine-enkephalin to a particulate fraction from rat brain

The characteristics of stereospecific binding of [3H] met-enkephalin (15 Ci/mmole) were studied in a particulate fraction from rat brain. The binding assay was performed for 70 min at degrees C and the bound radioactivity separated by filtration through glass fiber filters (Whatman, GF/C). In the absence of sodium, binding of [3H] met-enkephalin could be described on the basis of two independent binding sites with apparent KDs of 2.1 and 53 nM, respectively. The data are also consistent with one class of binding sites showing negative cooperativity. In the presence of 100 mM NaCl, binding of [3H] met-enkephalin was 90-95% reduced, thus indicating the agonist properties of the peptide. The highly stereospecific binding of [3H] met-enkephalin was evidenced by the 10,000-fold greater potency of levorphanol than its analgesically inactive enantiomer dextrorphan to compete for [3H] met-enkephalin binding. Similar conclusions could be reached using levallorphan, (+)-3-hydro-N-allyl-morphinan, (-) methadone and (+) methadone. The apparent affinity of various opiate agonists and antagonists for the binding sites was closely correlated with their known pharmacological activity.