Tomoyuki Sano

Microbial polysaccharide, HS-142-1, competitively and selectively inhibits ANP binding to its guanylyl cyclase-containing receptor

During the search for ANP receptor ligands of microbial origin, we isolated a novel polysaccharide, HS-142-1, from culture broth of Aureobasidium sp. HS-142-1 inhibited [125I]-rANP binding to ANP receptor in rabbit kidney cortex membranes with an IC50 of 0.3 mu g/ml, but gave no effects on specific binding of [125I]-Endothelin nor [125I]-Angiotensin II to their respective receptors in bovine lung membranes. HS-142-1 competitively and selectively inhibited ANP binding to its guanylyl cyclase-containing receptor purified from solubilized bovine adrenocortical membranes and blocked cGMP production elicited by ANP. HS-142-1 is the first non-peptide antagonist selective for ANP functional receptor and will be a powerful tool to elucidate the physiological functions of ANP.

HS-142-1, a novel nonpeptide atrial natriuretic peptide (ANP) antagonist, blocks ANP-induced renal responses through a specific interaction with guanylyl cyclase-linked receptors

HS-142-1, a novel microbial product, blocked 125I-labeled rat atrial natriuretic peptide (rANP) (= ANF(99-126)) binding to bovine adrenocortical membranes, where guanylyl cyclase-containing receptors are predominantly expressed. However, HS-142-1 only slightly inhibited [125I]rANP binding to bovine lung membranes where only a small portion of binding sites are coupled to guanylyl cyclase. Further, HS-142-1 only recognized the 135 kDa ANP receptor, which is considered to be the guanylyl cyclase-containing receptor based on the results obtained in affinity cross-linking studies with bovine adrenocortical and lung membranes. Under identical conditions, Atriopeptin I selectively recognized guanylyl cyclase-free receptors both in binding and affinity cross-linking experiments. When injected intravenously (1 mg/kg) to anesthetized rats, HS-142-1 abolished ANP-induced diuresis and natriuresis. These results suggest that HS-142-1 works in vivo through a specific interaction with the ANP functional receptor, and that HS-142-1 will be a powerful tool for understanding the physiological roles of ANP in distinction from its pharmacological effects.

Effects of HS-142-1, a novel non-peptide ANP antagonist, on diuresis and natriuresis induced by acute volume expansion in anesthetized rats

In this study we used HS-142-1, a novel non-peptide antagonist for the atrial natriuretic peptide (ANP) receptor, to clarify the possible physiological significance of ANP in acute hypervolemia. Substantial volume expansion in anesthetized rats induced a strong diuresis and natriuresis. These renal responses were significantly blocked by HS-142-1 at a dose of 3.0 mgkg-1 i.v. This observation suggests that ANP and its guanylyl cyclase-coupled receptor are, under the present conditions, physiologically involved that appears to be responsible for the renal responses in the volume homeostasis.

HS-142-1, a novel non-peptide ANP antagonist, blocks the cyclic GMP production elicited by natriuretic peptides in PC12 and NG108-15 cells

HS-142-1 is a novel non-peptide antagonist for atrial natriuretic peptide (ANP) receptor. The effect of HS-142-1 on the cyclic GMP production elicited by natriuretic peptides in neuronal cell lines, PC12 and NG108-15 was examined. Natriuretic peptides such as ANP, brain natriuretic peptide (BNP), and C-type natriuretic peptide (CNP) enhanced cyclic GMP production in a dose-dependent manner. HS-142-1 inhibited cyclic GMP accumulation elicited by natriuretic peptides in a dose-dependent fashion in both cells. The results suggest that HS-142-1 will be an important tool for identification and understanding of the mechanisms by which natriuretic peptides act in nervous systems.

HS-142-1, A novel polysaccharide of microbial origin, specifically recognizes guanylyl cyclase-linked ANP receptor in rat glomeruli

HS-142-1, a novel polysaccharide, of microbial origin had been characterized as a specific antagonist of guanylyl cyclase-linked atrial natriuretic peptide (ANP) receptors (ANP-GC receptor) in bovine adrenal cortex. The effect of HS-142-1 on ANP receptors of rat glomeruli were examined. HS-142-1 blocked rat ANP (r-ANP)-stimulated cGMP production in a concentration-dependent manner, although it caused only slight inhibition in the specific binding of [125I]-rANP to the glomeruli where only a small portion of the binding sites are coupled to guanylyl cyclase. HS-142-1 recognized the 135K ANP receptor which is thought to be ANP-GC receptors but did not recognized 60K receptor, guanylyl cyclase-free type from affinity cross-linking studies with glomerular membranes. These results indicate that HS-142-1 is a specific antagonist for the ANP-GC receptor in rat glomeruli, and that it will be a powerful tool for understanding the physiological roles of ANP in renal responses.

HS-142-1, a Novel Non-peptide Antagonist for Atrial Natriuretic Peptide Receptor, Selectively Inhibits Particulate Guanylyl Cyclase and Lowers Cyclic GMP in LLC-PK1 Cells

HS-142-1, a novel atrial natriuretic peptide (ANP) antagonist isolated from the culture broth of Aureobasidium sp., selectively inhibits ANP-induced cyclic GMP accumulation in porcine kidney epithelial LLC-PK1 cells. At concentrations from 0.1 to 100 μg/ml (= 2.5 × 10(-8) - 2.5 × 10(-5) M, given the mean molecular weight is 4, 000), HS-142-1 prevents intracellular cyclic GMP accumulation initiated by 10(-8) M rat ANP in a dose-dependent manner, but not cyclic GMP accumulation produced by 10(-5) M sodium nitroprusside. HS-142-1 alone has no effects on the basal level of cyclic GMP seen in the absence of ANP. No change of intracellular cyclic AMP was observed upon the treatment of the cells with HS-142-1. Further, the selectivity of HS-142-1 for the guanylyl cyclase-linked receptor was confirmed by affinity labeling studies with bovine adrenocortical membranes. HS-142-1 specifically abolished the labeling of the guanylyl cyclase-linked 135-kDa band in a dose-dependent manner, but not the labeling of the 60-kDa band not coupled to the guanylyl cyclase. These results show that HS-142-1 selectively inhibits ANP-mediated accumulation of cyclic GMP in LLC-PK1 cells through interacting with guanylyl cyclase-linked receptors.