Synthesis and biological activity profiles of atrial natriuretic factor (ANF) analogs

Several analogs of the atrial natriuretic factor (ANF) were synthesized by the solid-phase method using the acetamidomethyl (Acm) group for sulfhydryl protection. The compounds were tested in a receptor binding assay using bovine adrenal zona glomerulosa cell membranes and in the rat diuresis/natriuresis assay. Substitution of tyrosine in position 116 of ANF(101-126) and of the analog [3-Mpr105]ANF(105-126)(3-Mpr = 3-mercaptopropionic acid) did not alter the biological activity profiles and, therefore, these two analogs in radioiodinated form will be useful for enzymatic degradation and clearance studies. Replacement of 3-mercaptopropionic acid with 2-mercaptopropionic acid in [3-Mpr105]ANF(105-126) resulted in an analog with very low potency in both assay systems, presumably as a consequence of the steric bulk and/or local conformational restriction produced by the methyl group attached to the alpha-carbon in position 105. The analog [3-Mpr105,Nva109]ANF(105-126)(Nva = norvaline) showed very low affinity in the receptor binding assay but displayed considerable diuretic/natriuretic activity. The obtained biological activity profiles suggest that in comparison with other ANF peptides the des-amino ANF(105-126) analogs may have a somewhat longer half-life in vivo, or alternatively, may indicate a more complex situation of ANF receptor or binding site heterogeneity.     

Characterisation of atrial natriuretic peptide receptors in bovine ventricular sarcolemma

Analysis of [125I]-ANP binding data in an isolated bovine ventricular sarcolemmal membrane fraction revealed a single high affinity binding site (Kd approximately 5 x 10(-11) M). The ring deleted ANP analogue des [QSGLG]-ANP (4-23)-NH2 bound with a 1000-fold lower affinity indicating the absence of C-type receptors in this preparation. ANP stimulated guanylate cyclase activity by up to 2-fold with half-maximal activation at approximately 10(-9) M. Crosslinking [125I]-ANP to its receptor with disuccinimidyl suberate (DSS) revealed two radiolabelled bands of 120 kDa and 65 kDa on non-denaturing SDS-PAGE. Radioactive signals from both bands were lost by reducing the sample with beta-mercaptoethanol prior to electrophoresis, in which case a radioactive fragment of less than 5 kDa migrated with the dye front. These results suggest that the binding of ANP to both high and low molecular weight "receptor" proteins may be associated with the hydrolysis of the peptide.     

Atrial natriuretic peptide, ANP(99-126), receptors in rat thymocytes and spleen cells

A single class of saturable, specific binding sites for the circulating form of atrial natriuretic peptides, ANP(99-126), was identified in rat thymus and spleen and in isolated thymocytes and spleen cells using quantitative autoradiographic techniques. In the thymus, the relative potency of ANP analogs to inhibit [125I] ANP(99-126) binding was ANP(99-126) = ANP(103-126) greater than ANP(111-126) greater than ANP(103-125). ANP(103-123) could not displace [125I]ANP(99-126) binding. Addition of ANP(99-126) stimulated the formation of cyclic GMP in isolated thymocytes and spleen cells in a dose-dependent manner. Our results indicate that immune cells have specific ANP receptors which could be coupled to guanylate cyclase activation and may play a role in the regulation of the immune response.     

Binding sites of atrial natriuretic peptide in tree shrew adrenal gland

Adrenal gland binding sites for atrial natriuretic peptide-(99-126) (ANP) were quantitated in tree shrew (Tupaia belangeri) by incubation of adrenal sections with (3-[125I]-iodotyrosyl28) atrial natriuretic peptide-(99-126), followed by autoradiography with computerized microdensitometry. In the adrenal glands, there are three types of ANP binding sites. One is located in the zona glomerulosa (BMax 84 +/- 6 fmol/mg protein; Kd 122 +/- 9 pM); the second in the zona fasciculata and reticularis (BMax 29 +/- 2 fmol/mg protein; Kd 153 +/- 6 pM) and the third in the adrenal medulla (BMax 179 +/- 1 fmol/mg protein; Kd 70 +/- 2 pM). Besides the influence of ANP on the regulation of adrenocortical mineralcorticoid and glucocorticoid secretion our findings raise the possibility for a local site of action of atrial natriuretic peptide in the regulation of adrenomedullary catecholamines in the tree shrew, primates and man.     

Rat atrial natriuretic polypeptide stimulation of adrenal zona glomerulosa cell growth

Rat atrial natriuretic polypeptide (rANP) was found to stimulate [3H] thymidine incorporation into the DNA of bovine adrenal glomerulosa cells in a primary culture in a dose-dependent manner. The minimum effective dose was a very low concentration (10(-12) M of ANP), suggesting that ANP had a physiological effect. These findings are the first indication that ANP possesses growth-stimulating activity with regard to adrenal zona glomerulosa cells.     

Autoradiographic localization of [125I]-C-ANP compared to [125I]-ANP in rat tissue.

Whole-body autoradiography demonstrated the different distribution of [125I]-C-ANP and [125I]-ANP to rat tissues. Highest enrichment of radioactivity of both labelled peptides was found in the kidney. In some organs we found remarkable differences between [125I]-ANP and [125I]-C-ANP. In the kidney cortex, especially in the glomeruli, as well as in the endocardium, the zona glomerulosa and the medulla of the adrenal gland, where high levels of radioactivity after [125I]-ANP administration were detected, no or just few radioactivity was found after administration of [125I]-C-ANP. On the other hand in the kidney papilla and the outer subcortical medulla, characteristic blackening was found after [125I]-C-ANP administration. Those differences might be important for the understanding of pharmacological actions of ANP analogues.     

The role of the C-terminal region of rat brain natriuretic peptide in receptor selectivity.

Atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) have different C-terminal tail structures compared with the rather conservative ring structures which consist of 17 amino acid residues. To examine the different effects of the tail structures of ANP and BNP on their interaction with receptors, we synthesized several peptide analogs and measured their biological actions in three different assay systems. Deletion of the C-terminal tail from rat BNP did not effect the vasorelaxation activity against rat aorta, but it promoted cGMP production in cultured rat aortic smooth muscle cells (RASMC). Deletion of the C-terminal tail from rat ANP diminished both vasorelaxant and cGMP producing activities. In a binding competition assay with RASMC and [125I]rat ANP-(1-28), the competition activities of both ANP and BNP were greatly reduced by C-terminal deletion. In addition, we obtained agonists with novel receptor selectivity.     

Autoradiographic localizatio of [125I]-C-ANP compared to [125I]-ANP in rat tissue

Summary Whole-body autoradiography demonstrated the different distribution of [¹²⁵I]-C-ANP and [¹²⁵I]-ANP to rat tissues. Highest enrichment of radioactivity of both labelled peptides was found in the kidney. In some organs we found remarkable differences between [¹²⁵I]-ANP and [¹²⁵I]-C-ANP. In the kidney cortex, especially in the glomeruli, as well as in the endocardium, the zona glomerulosa and the medulla of the adrenal gland, where high levels of radioactivity after [¹²⁵I]-ANP administration were detected, no or just few radioactivity was found after administration of [¹²⁵I]-C-ANP. On the other hand in the kidney papilla and the outer subcortical medulla, characteristic blackening was found after [¹²⁵I]-C-ANP administration. Those differences might be important for the understanding of pharmacological actions of ANP analogues.This work is part of the doctoral thesis of Frank Heidemann to be presented at the Ludwig-Maximilians-Universität München, FRG     

Clearance receptor-binding atrial natriuretic peptides inhibit mitogenesis and proliferation of rat aortic smooth muscle cells.

The current studies were designed to explore the effects of C-receptor-binding atrial natriuretic peptide analogues on serum-induced mitogenesis in cultured rat aortic smooth muscle cells. To this end, rANF99-126 and a series of truncated (rANF103-126, rANF103-125), ring-deleted (des[Gln116, Ser117, Gly118, Leu119, Gly120]rANF102-121-NH2 (c-ANF) and linear des(Cys105, Cys121)rANF104-126 peptide analogues were used. The latter two peptides have been reported to be selective for the ANF-C receptor. In cells subcultured between passage 3 to 19, rANF99-126, rANF103-126, and rANF103-125 concentration-dependently (0.1-1000 nM) inhibited serum-induced (3H) thymidine incorporation with maximal inhibition observed at 1 microM for each peptide (approximately 40, 31 and 56%) respectively. Furthermore, des[Cys105, Cys121]rANF104-126 inhibited serum-induced (3H)thymidine incorporation concentration-dependently without altering basal or elevated cellular cAMP or cGMP levels. Moreover, the reduction in thymidine incorporation was associated with inhibition of serum-induced clonal cell proliferation. In contrast, c-ANF failed to inhibit serum-induced mitogenesis, yet at a concentration of 100 nM it antagonized the antimitogenic effects of des[Cys105, Cys121]rANF104-126 or rANF99-126 without having any effect on basal or elevated cellular cyclic nucleotide levels. We conclude that the antimitogenic effect of atrial peptides is mediated through interaction with the ANF-C receptor and may be independent of changes in cellular cyclic nucleotide levels.     

Superactive analogs of the atrial natriuretic peptide (ANP)

Three analogs of the atrial natriuretic peptide ANP(105-126), lacking the N-terminal exocyclic peptide segment and containing 2-mercaptoacetic acid, 3-mercaptopropionic acid or 4-mercaptobutyric acid in place of the cysteine residue in position 105 of the peptide sequence, were synthesized by the solid-phase method. The resulting des-amino analogs showed 2 to 4 times higher diuretic/natriuretic activity than the most active natural ANP and displayed a potent hypotensive effect as well. All three analogs were relatively less potent in various in vitro bioassays and in a binding assay, indicating that their high activities in vivo may be due to resistance to enzymatic degradation and to reduced non-specific tissue adsorption. These compounds not only will serve as useful pharmacologic tools but also represent prototypes for the development of further reduced-size ANP analogs.     

Purification and characterization of two types of atrial natriuretic factor receptors from bovine adrenal cortex: guanylate cyclase-linked and cyclase-free receptors

Atrial natriuretic factor (ANF) receptors with and without guanylate cyclase activity were simultaneously purified to apparent homogeneity from bovine adrenal zona glomerulosa cell membrane fractions. The particulate guanylate cyclase which co-purified with the ANF receptor showed one of the highest specific activity reported. The receptors with or without the guanylate cyclase activity showed high affinities to ANF (99-126). The receptor without the cyclase showed a high affinity to truncated ANF analogs, ANF (103-123) and ANF (105-121), whereas the cyclase-linked receptor had a much lower affinity to these analogs. Both of the receptors migrated as a single band with a molecular weight of 135,000 daltons on SDS-gel electrophoresis under non-reducing conditions. The 135,000 daltons band of the receptor without the cyclase was shifted to a 62,000 daltons band under reducing conditions, but the band for the cyclase-linked receptor was not shifted. These results demonstrated the presence of two subtypes of ANF receptor in bovine adrenal cortex and indicate two different modes of intracellular action of ANF.     

A linear analog of atrial natriuretic peptide (ANP) discriminates guanylate cyclase-coupled ANP receptors from non-coupled receptors

Atrial natriuretic peptide (ANP) contains a disulfide which is generally considered to be required for biological activity. A truncated linear ANP analog, des-Cys105,Cys121-ANP-(104-126) (referred to as analog I), that lacks the 2 cysteine residues of the parent peptide was synthesized. In competition binding studies using rabbit lung membranes, ANP-(103-126) and analog I displaced bound 125I-ANP-(103-126) from specific ANP binding sites 100 and 73%, respectively. The concentrations of ANP-(103-126) and analog I that produced 50% inhibition of radioligand binding to the membranes were 0.26 +/- 0.07 and 0.31 +/- 0.09 nM, respectively. Radioiodinated ANP-(103-126) and analog I were chemically cross-linked to binding sites on rabbit lung membranes, and the labeled membrane proteins were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. 125I-Analog I specifically labeled a 65,000-dalton protein and a 135,000-dalton protein which, under reducing conditions, dissociated into 65,000-dalton subunits. In contrast, 125I-ANP-(103-126) labeled specifically a nonreducible 135,000-dalton protein, in addition to the 65,000-dalton species and the reducible 135,000-dalton species. ANP-(103-126) (100 nM) stimulated rabbit lung particulate guanylate cyclase activity, whereas analog I, at the same concentration, had no effect on cyclic GMP production and did not antagonize the effect of ANP-(103-126). From these observations, we conclude that analog I is a selective ligand which binds to approximately 73% of the total ANP binding sites present in rabbit lung membranes. Unlike ANP-(103-126), analog I does not bind to the remaining 27% of the binding sites and does not activate guanylate cyclase. Binding to the cyclase-linked ANP receptor correlates with the specific labeling by 125I-ANP-(103-126) of the nonreducible 135,000-dalton membrane protein.     

Characterization of specific receptors for atrial natriuretic factor in bovine adrenal zona glomerulosa

We have recently shown that synthetic rat atrial natriuretic factor (ANF) directly inhibits mineralocorticoid and glucocorticoid secretion in cultured bovine adrenal cells with a potency of 100 pM. [125I]iodo-ANF was used in the present study to characterize potential receptor sites in bovine zona glomerulosa membranes. ANF binds to a class of high affinity binding sites with a pK of 10.2 and a density of 1.3 pmol/mg protein. Detailed competition curves with ANF document a class of high affinity sites with a pK of 10.2 and also a second class of lower affinity sites with a pK of 8.5. Nonspecific binding amounts to less than 10% of [125I]iodo-ANF binding at concentrations less than 100 pM. High affinity binding of [125I]iodo-ANF is reversible with a half-time of association of 15 minutes at 25 pM and a half-time of dissociation of 140 minutes. Monovalent cations Na, Li and K equipotently enhance [125I]iodo-ANF specific binding. Divalent cations Mg, Ca and Mn also increase [125I]iodo-ANF specific binding, with Mn being the most active cation. No effect of guanine nucleotide could be detected on ANF binding. The binding of [125I]iodo-ANF is very specific and is not inhibited by 1 microM angiotensin II, ACTH, VIP, somatostatin, Leu-enkephalin, dynorphin or by the N-terminal of POMC. The N-terminal fragment ANF-(1-16) is also completely inactive. Reduction of the disulfide bridge of ANF inactivates the peptide. This enabled the development of a highly specific radio-receptor assay for ANF with a minimum detectable dose of 2 femtomoles. The results document the specific receptor involved in the potent inhibitory effect of ANF on adrenal steroidogenesis and indicate that bovine adrenal zonal glomerulosa provide a highly sensitive system for studying the recently discovered atrial natriuretic factor.     

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.     

Functional heterogeneity of atrial natriuretic factor receptor in bovine adrenal zona glomerulosa is explained by an amiloride-sensitive high affinity molecular complex

The effects of amiloride on the molecular characteristics of the atrial natriuretic factor (ANF) receptor from bovine adrenal zona glomerulosa were studied by computer modeling of competitive binding data, by affinity labeling experiments, and by steric exclusion high performance liquid chromatography of solubilized receptor. The order of potency of a series of truncated ANF analogs in competing for 125I-ANF binding to bovine adrenal zona glomerulosa membranes was the same as that obtained for inhibition of aldosterone secretion. Deletion of amino acids at the COOH-terminal end drastically reduced the affinities of the peptides. Computer analysis of competition curves revealed that all ANF analogs tested show similar binding characteristics: shallow competition curves, discrimination of varying proportions of high and low affinity binding states, and sensitivity to amiloride which increases the proportion of the high affinity binding component. These results from binding studies are suggestive of potential heterogeneity of ANF binding sites. In contrast, results from affinity cross-linking experiments are consistent with the notion of a single receptor protein. Incubation of membranes with increasing concentrations of 125I-ANF-(99-126) up to 3 nM resulted in the labeling of a single band of Mr 130,000. The ability of ANF analogs to compete for the labeling of the Mr 130,000 band by 125I-ANF-(99-126) agreed well with their potency as inhibitors of 125I-ANF binding to intact membranes. Addition of amiloride caused a dose-dependent increase in the labeling of the Mr 130,000 band. A single Mr 130,000 band was also labeled in bovine aorta and LLC-PK1 cell membranes. In order to further investigate the molecular basis for the apparent heterogeneity of ANF binding we have prelabeled the membrane receptor with 125I-ANF-(99-126) prior to solubilization with octyl-beta-D-glucoside and chromatography on a Superose 6 steric exclusion column. The elution profile of the prelabeled receptor consistently showed two peaks of radioactivity with mean Stokes radii of 70 and 50 A. When amiloride was added to the incubation medium, the elution profile consisted almost exclusively of the 70-A peak. Quantitative analysis of the chromatographic profiles revealed that amiloride increases by 2-3 times the area of the 70-A peak. We conclude that the 70-A form represents a ternary complex of the receptor with an amiloride-sensitive effector protein.     

Differential changes in atrial natriuretic peptide and vasopressin receptor bindings in kidney of spontaneously hypertensive rat

To elucidate the role of atrial natriuretic peptide (ANP) and vasopressin (VP) in a hypertensive state, ANP and VP receptor bindings in spontaneously hypertensive rat (SHR) kidney were analyzed using the radiolabeled receptor assay (RRA) technique. Systolic blood pressure of SHR aged 12 weeks was statistically higher than that of age-matched Wistar Kyoto (WKY) rats. Maximum binding capacity (Bmax) of [125I]-ANP binding to the SHR kidney membrane preparations was statistically lower than that of WKY rats, but dissociation constant (Kd) was not significantly different. On the other hand, Bmax of [3H]-VP binding to the SHR kidney membrane preparations was statistically higher than that of WKY rats, but Kd were similar. Since the physiological action of ANP is natriuresis and VP is the most important antidiuretic hormone in mammalia, these opposite changes of ANP and VP receptor bindings in SHR kidney suggested that these peptides may play an important role in the pathophysiology of the hypertensive state, although it has not been confirmed as yet.     

High concentrations of a cGMP-stimulated phosphodiesterase mediate ANP-induced decreases in cAMP and steroidogenesis in adrenal glomerulosa cells.

An adrenal cGMP-stimulated phosphodiesterase (cGS-PDE) has been shown to mediate atrial natriuretic peptide (ANP)-induced reductions in aldosterone secretion and cAMP levels in primary bovine glomerulosa cells. High concentrations of cGS-PDE have been localized to the zona glomerulosa cell layer of the adrenal cortex using biochemical and immunological techniques. Immunoblot analysis using an affinity-purified, isozyme-specific antiserum revealed a single band that comigrated with a purified cGS-PDE (105 kDa) (1) and that was most highly concentrated in the outermost 1-2 mm of the cortex, representing the capsule and zona glomerulosa regions. Greater than 90% of the overall phosphodiesterase activity present in tissue extracts prepared from these regions was immunoprecipitated using a solid-phase monoclonal antibody reagent, indicating the cGS-PDE as the predominant phosphodiesterase isozyme. Immunohistochemical staining experiments of frozen thin sections of intact adrenal tissue revealed that the cGS-PDE present in this region was localized in the glomerulosa cells themselves. The role of this isozyme as a mediator of ANP-induced decreases in intracellular cAMP concentrations and aldosterone production was tested in primary cultures of bovine adrenal glomerulosa cells. In cells stimulated by ACTH, ANP treatment produced dose-dependent reductions in aldosterone secretion and cellular cAMP content over the same concentration range. Increases in aldosterone production elicited by three cell-permeable cAMP derivatives (8-bromo-cAMP, 8-p-chlorophenylthio-cAMP, and N6-2'-O-dibutyryl-cAMP) were antagonized by ANP, indicating a site of action distal to adenylate cyclase for this hormone. Because the relative magnitude of the ANP effect differed depending upon the derivative used, the three derivatives were compared with respect to their relative rates of in vitro hydrolysis by adrenal cGS-PDE. A positive correlation between their rates of hydrolysis and the degree to which the steroidogenic response produced by these derivatives was antagonized by ANP was demonstrated, further suggesting an ANP-induced activation of the cGS-PDE as being responsible for this effect. The possible contribution of an additional pathway mediated by an inhibitory guanine nucleotide binding regulatory protein (Gi) acting on adenylate cyclase was tested by pretreatment of primary glomerulosa cells with pertussis toxin. Levels of pertussis toxin sufficient to inhibit subsequent in vitro ribosylation did not significantly alter the ANP effect on aldosterone production, although a partial reduction in the ANP effect on cAMP levels was observed.(ABSTRACT TRUNCATED AT 400 WORDS)     

Development of p-benzoylbenzoylated [N,C,rANP(1-28)]pBNP32 (pBNP1) derivatives and affinity photolabeling of the bovine NPR-A receptor

Two Nalpha-benzophenone-substituted photoprobes, derived from the high affinity NPR-A chimeric agonist [N, C, rANP(1-28)]pBNP32 (pBNP1) were assembled by solid-phase peptide synthesis. [Nalpha-p-benzoylbenzoyl, Tyr2]pBNP1 (probe A), and [Nalpha-p-benzoylbenzoyl, Tyr18]pBNP1 (probe B) were synthesized and their affinity was tested on bovine zona glomerulosa membrane preparations. Both were found to exert ANP-type high affinities (Kd = 20 pM) with Kd of 10 pM and 30 pM for probe A, and probe B, respectively. Photolabeling of NPR-A with both analogs cross-linked specifically the 130 kDa monomeric NPR-A. The maximal irreversible ligand incorporations were estimated at 18% and 41% for probe A, and probe B, respectively. These results show that the N-terminus of the chimeric compound can be acylated with a large chemical function, such as the benzophenone moiety, without loosing its affinity for the NPR-A receptor. Furthermore, Leu2 or Leu18 can be substituted with tyrosine without disturbing the binding capacity of the ligand. Finally, it appears that the pBNP1 N-terminus is close to the receptor structure as irreversible incorporation is observed after photolabeling.     

A synthetic linear decapeptide binds to the atrial natriuretic peptide receptors and demonstrates cyclase activation and vasorelaxant activity

A linear decapeptide, [cyclohexylalanine 106]ANP-(105-114)NH2 (1), where ANP is atrial natriuretic peptide, was prepared by solid phase synthesis and purified by reverse-phase liquid chromatography. This novel peptide was found to bind to ANP receptors in rabbit lung membranes, to stimulate cGMP production in various tissues, and to fully relax precontracted rabbit aorta in a dose-dependent fashion. The potency of 1 in the various in vitro assays varies between one-twentieth and one-eightieth of the potency of the reference peptide, the 24-mer rat ANP-(103-126). The linear decapeptide 1, which encompasses amino acid residues from the rat ANP sequence (105-114), features a cyclohexylalanine residue instead of the phenylalanine 106 residue in the hormone sequence, a free sulfhydryl function at the N-terminal cysteine 105, and a carboxamide C terminus. Its disulfide dimer 6 was active in the rabbit aorta assay while the S-methyl cysteine 7 analogue was not active in the same assay at similar concentrations. The decapeptide 1 is of particular significance because it is the shortest analogue reported to date endowed with agonistic activity at the guanylate cyclase-coupled ANP receptor. In particular, it is interesting to compare its structure to the structures of other short linear analogues of ANP which are totally devoid of the ability to stimulate particulate guanylate cyclase activity.     

Vasorelaxant effects of and receptors for atrial natriuretic peptides in the mesenteric artery and aorta of the rat

Vasorelaxant effects of different atrial natriuretic peptides (ANP) were measured on rat aortic strips and mesenteric artery rings. These results were compared with the potency of the same peptides to displace 125I-labelled ANP (101-126) on membrane preparations of aorta and of mesenteric vascular bed. In aortic strips and mesenteric artery rings precontracted with phenylephrine (3 X 10(-8) and 10(-6) M, respectively), the order of potency of ANP was as follows: ANP (99-126) greater than ANP (101-126) greater than ANP (103-126) = ANP (103-125) much greater than ANP (103-123). In the displacement binding assays, the order of potency of ANP peptides was similar to that of the relaxation experiments: ANP (99-126) = ANP (101-126) greater than ANP (103-126) = ANP (103-125) much greater than ANP (103-123). When the vessels were precontracted by a smaller concentration of phenylephrine (10(-7) M in mesenteric artery and 10(-8) M in aorta), the IC50 of ANP (101-126) was significantly lower than when the higher concentration of phenylephrine was used. These results show that ANP receptors in the mesenteric artery and in the aorta have similar structural requirements, according to the order of potency of different length ANP, both for binding and myotropic responses.