Atrial natriuretic peptide, oxytocin, and vasopressin increase guanosine 3',5'-monophosphate in LLC-PK1 kidney epithelial cells

The effect of atrial natriuretic peptide (ANP), arginine vasopressin (AVP), and oxytocin (OT) on cAMP and cGMP accumulation was investigated in LLC-PK1 kidney epithelial cells. The addition of ANP, AVP, and OT to intact cells produced a time- and concentration-dependent increase in cGMP accumulation. ANP produced a 1.7-fold increase in cGMP at 10 pM and a maximal 28-fold increase in cGMP at 1 microM. ANP had no effect on basal or AVP-induced stimulation of cAMP accumulation. OT was 10-fold more potent than AVP at increasing cGMP levels, producing a 2.1-fold increase in cGMP at 0.1 nM, whereas AVP was 100-fold more potent at increasing cAMP levels. At a concentration of 1 microM, AVP and OT produced a maximal 12 to 14-fold increase in cGMP, while OT and AVP produced 50- and 90-fold increase in cAMP, respectively. The selective OT agonist [Thr4, Gly7]oxytocin was very effective at increasing cGMP, but not at increasing cAMP levels. The V2-vasopressin agonist [deamino-Pen1,Val4, D-Arg8]vasopressin did not increase cGMP levels, but produced a 20-fold increase in cAMP levels. The addition of ANP together with either AVP or OT produced an additive increase in cGMP content. Simultaneous addition of AVP and OT did not lead to a greater increase in cAMP or cGMP levels. These results suggest that the AVP- and OT-induced increase in cGMP is mediated by OT receptors, whereas the increase in cAMP is probably mediated by vasopressin receptors. ANP increased the activity of particulate guanylate cyclase by 6-fold, while AVP and OT has no effect on particulate guanylate cyclase activity. The relatively selective inhibitor of soluble guanylate cyclase, methylene blue, had no effect on the ANP-induced increase in cGMP content in intact cells, but produced a 50% inhibition of the increase in cGMP by AVP and OT. Methylene blue did not alter the stimulation of cAMP by AVP or OT. These results demonstrate that ANP, AVP, and OT increase cGMP in LLC-PK1 kidney epithelial cells. The increase in cGMP by ANP is mediated by particulate guanylate cyclase, whereas AVP and OT probably increase cGMP by interacting with OT receptors coupled to soluble guanylate cyclase.     

Atrial natriuretic peptide and sodium nitroprusside stimulate cyclic GMP accumulation by avian skin fibroblasts and epiphyseal growth-plate chondroprogenitor cells

Chondroprogenitor cells derived from avian tibia epiphyseal growth plate, and skin fibroblasts were cultured in vitro. In the fibroblasts, human (1-28) and rat (5-28) atrial natriuretic peptide (ANP) stimulated cyclic GMP (cGMP) production in a dose-dependent manner without affecting cAMP. Sodium nitroprusside also stimulated cGMP accumulation by chondroprogenitor cells and fibroblasts, but the maximum cGMP accumulation elicited by sodium nitroprusside was much lower than that obtained with ANP. The effects of ANP and sodium nitroprusside on chondroprogenitor cells and skin fibroblasts were additive. Human ANP increased cGMP production by the particulate fraction prepared either from chondroprogenitor cells or fibroblasts. Sodium nitroprusside, at concentrations of up to 1 mmol/l, did not affect cGMP production by the particulate fraction prepared from either cell type. The present study provides additional evidence that avian growth-plate chondroprogenitor cells and skin fibroblasts are targets for ANP. ANP and nitroprusside activate different guanylate cyclase isoenzymes--the particulate and soluble forms of the enzyme respectively. The data suggest that most of the guanylate cyclase activity in these cells is localized in the particulate fraction.     

Correlation of nitric oxide and atrial natriuretic peptide changes with altered cGMP homeostasis in liver cirrhosis.

BACKGROUND: Cyclic GMP (cGMP) concentration is increased in plasma of patients with liver cirrhosis. Three possible mechanisms may contribute: increased cGMP synthesis by soluble (activated by nitric oxide), or particulate (activated by atrial natriuretic peptide (ANP)) guanylate cyclase or increased release from cells. AIM: The aim of this work was to analyze the possible contributors to increased plasma cGMP and to assess whether changes in the parameters of the system vary with the degree of liver disease (Child Pugh score) or by the presence of ascites. METHODS: We measured cGMP in plasma and lymphocytes, soluble guanylate cyclase activation by nitric oxide in lymphocytes, nitrates and nitrites and ANPs (activator of particulate guanylate cyclase) in plasma. We analyzed the correlation between changes in different parameters to discern which parameters contribute to increased plasma cGMP. RESULTS: The plasma content of nitrates+nitrites, ANP and cGMP are increased. Activation of soluble guanylate cyclase by nitric oxide is increased in patients while basal cGMP in lymphocytes is decreased. CONCLUSIONS: Both increased ANP and increased activation of soluble guanylate cyclase by nitric oxide contribute to increased plasma cGMP in patients. The concentrations of ANP and cGMP in plasma increase with the degree of disease and are higher in patients with ascites.     

Effect of water deprivation and salt loading on atrial natriuretic peptide-stimulated guanylate cyclase activity in the rat subfornical organ

The effect of water deprivation and salt loading on rat atrial natriuretic peptide (99-126) (rANP)-stimulated guanylate cyclase activity was investigated in the rat subfornical organ. rANP stimulated the formation of cGMP in rat subfornical organ crude homogenates in a dose- and time-dependent manner. An elevated responsiveness to rANP-induced cGMP production was observed in the subfornical organ after 4 days of water deprivation; on the contrary, after salt loading the response to the cGMP-generating effects of ANP were less pronounced than those in the corresponding control tissue. Our results suggest that cGMP mediates at least some of the central actions of rANP through the activation of specific receptors in localized target sites, and they provide evidence suggesting that the guanylate cyclase-coupled ANP-binding sites are susceptible to the regulatory mechanism described in the rat subfornical organ.     

Atrial natriuretic peptide inhibits spontaneous rat oocyte maturation

We report results of experiments demonstrating a dose-dependent inhibition of spontaneous maturation (resumption of meiosis) in rat oocyte-cumulus complexes by atrial natriuretic peptide (ANP). The inhibition was persistent over the time period studied. The ANP analog Tyr8-ANP, which mediates smooth muscle relaxation in other organs without elevating cGMP levels, did not inhibit the spontaneous maturation. ANP, but not Tyr8-ANP, dose-dependently stimulated cGMP accumulation in oocyte-cumulus complexes. Furthermore, sodium nitroprusside (SNP), that stimulates a soluble form of guanylate cyclase, inhibited spontaneous maturation in oocyte-cumulus complexes and stimulated cGMP accumulation in oocyte-cumulus complexes. Neither ANP nor SNP stimulated cAMP accumulation. In oocytes where the surrounding cumulus cells had been removed neither ANP nor SNP inhibited the spontaneous maturation. These results demonstrate that cumulus cells, but not the oocyte itself, have ANP receptors and guanylate cyclases. Furthermore, ANP, via cGMP, can influence oocyte meiosis, suggesting a possible involvement of ANP and cGMP in the control of the meiotic process in rat oocytes.     

心房利钠肽与心血管疾病

心房利钠肽属于利钠肽家族,其通过与受体结合激活鸟苷酸环化酶,促进细胞内环鸟苷酸水平升高而发挥生物学功能。心房利钠肽具有利钠、利尿、舒张血管平滑肌、抑制细胞增殖等多种作用,在维持血压,水、钠平衡以及在心血管疾病的病理生理过程中发挥重要作用。     

Ovarian cyclic GMP concentration and guanylate cyclase activity in immature rats after treatment with pregnant mare serum gonadotrophin

We have previously reported that the LH-induced decrease in the concentration of ovarian cyclic GMP (cGMP) in the rabbit was accompanied by a drop in ovarian guanylate cyclase activity. The present experiments were carried out to see if the increase in cGMP concentration that occurs in immature rat ovaries after stimulation with pregnant mare serum gonadotrophin (PMSG) is also accompanied by changes in guanylate cyclase activity. Total ovarian cGMP, along with ovarian weight, was found to be increased at 16 h after PMSG treatment. Ovarian concentrations of cGMP, however, increased only after that period (at 20, 24 and 48 h) and the increase was progressive. Guanylate cyclase activity was found in both the cytosol and 100 000 g particulate fractions of the immature rat ovaries. Forty-three hours after PMSG treatment, activity in the particulate fraction was found to be significantly increased. This increase in guanylate cyclase activity was also found at 20 h but not at 16 h. Thus, the increase in ovarian cGMP concentration in immature rats after PMSG treatment was accompanied by increased guanylate cyclase activity.     

Characterization by affinity cross-linking of a receptor for atrial natriuretic peptide in cultured human thyroid cells associated with reductions in both adenosine 3',5'-monophosphate production and thyroglobulin secretion

We have previously identified specific atriopeptin (ANP) receptors in cultured human thyroid cells and demonstrated that ANP reduced thyroglobulin (Tg) secretion. In this report the relationship of Tg inhibition to cyclic nucleotide intermediate pathways was explored, and the thyroidal ANP receptor was characterized by affinity cross-linking. Concentrations of Tg, cGMP, and cAMP were measured in medium from thyroid cells cocultured with ANP. ANP significantly inhibited cAMP production at the lower concentration of 0.1 nmol/L and stimulated cGMP levels at a higher concentration of 10 nmol/L. The percentage of inhibition of Tg release over the ANP range of 0.01-10 nmol/L appeared to parallel cAMP, but not cGMP, levels, suggesting that ANP acts via a cAMP pathway in the thyroid. Affinity cross-linking studies characterizing the ANP receptor in thyrocytes and a bovine endothelial cell line known to be cGMP responsive to ANP indicated a single unit ANP receptor of 140 kD coupled to guanylate cyclase in endothelial cells, while a 70-kD receptor was found in thyroid cells which specifically binds to ANP, atriopeptin-I, and atriopeptin-III. These studies in thyrocytes suggest that reduced Tg release may be mediated by a specific single 70-kD ANP receptor associated with an inhibitor cAMP pathway and provide additional insight into the nature of a newly described thyroid-ANP interaction.     

Sodium nitroprusside inhibition of parathyroid hormone release is not mediated through cyclic GMP

Sodium nitroprusside effected a rapid, dose-dependent increase in intracellular cGMP accumulation in freshly dispersed bovine parathyroid cells. The effect was half-maximal between 10(-4) and 3 X 10(-4)M, maximal at 3 X 10(-3)M nitroprusside and could be amplified (approximately 50%) by the addition of methylisobutylxanthine (4 X 10(-4)M). The dose-response characteristics were similar to those previously described for the inhibition of cAMP accumulation and PTH release by this agent. Neither dibutyryl cGMP (10(-3)M) nor 8'-bromo-cGMP (10(-3)M) mimicked the inhibitory effect of nitroprusside on cAMP accumulation or PTH release. Dose-dependent stimulation of guanylate cyclase was found in a particulate preparation of parathyroid cells; activity was maximal at 10(-4)M nitroprusside while higher concentrations appeared to inhibit the enzyme. Nitroprusside significantly reduced both (-)isoproterenol and guanine nucleotide-stimulated adenylate cyclase activity in the particulate preparation with maximum inhibition between 10(-3)-10(-2)M. cGMP concentrations as high as 10(-4)M did not affect agonist-stimulated cAMP synthesis. Thus, although the kinetic and dose-response characteristics of the nitroprusside effect on cGMP suggest a linkage to its previously described effects on cAMP and PTH secretion, no direct evidence was found to indicate a causal relationship between the two. Rather it would appear that the effects on the adenylate and guanylate cyclase enzymes occur in parallel, possibly the result of some common primary perturbation of cellular physiology.     

Epidermal growth factor enhances guanylate cyclase activity in vivo and in vitro

Epidermal growth factor (EGF) increases DNA synthesis and cell division both in vivo and in vitro. The mechanism by which EGF increases growth and DNA synthesis is unknown. Since the intracellular messenger cGMP stimulates DNA synthesis, the present investigation was designed to determine if EGF might have part of its mechanism of action through activating guanylate cyclase [EC 4.6.1.2], the enzyme that catalyzes the formation of cGMP. EGF enhanced soluble and particulate guanylate cyclase activities as well as cGMP levels 2- to 3-fold in hypophysectomized and nonhypophysectomized tissues both in vivo and in vitro. EGF increased guanylate cyclase activity 0.5 h after ip injection in mice, and this increased activity was still present 12 h later. Guanylate cyclase activity was increased to a greater extent secondary to EGF in hypophysectomized cecum compared to nonhypophysectomized cecum. Dose-response curves revealed that maximal stimulation of guanylate cyclase by EGF occurred at 1 nM. There was no augmented guanylate cyclase activity when the concentration of EGF was decreased to 0.01 nM. The data in this investigation suggest that guanylate cyclase may play a role in the mechanism of action of EGF.     

Regulation of hepatic nuclear guanylate cyclase.

In immunohistochemical studies of rat liver tissue slices and purified nuclei, adenosine 3':5'-cyclic monophosphate (cAMP) and guanosine 3':5'-cyclic monophosphate (cGMP) immunofluorescence on the nuclear membrane are sequentially increased after glucagon administration. An explanation for the increased cGMP immunofluorescence was sought in experiments in which guanylate cyclase [GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2]activity of hepatic subcellular fractions was determined. The results showed that a nuclear guanylate cyclase exists which can be distinguished from the soluble and crude particulate guanylate cyclases. The activity of the nuclear enzyme was increased by 35% in nuclei isolated from rats 30 min after glucagon injection, the time at which maximal nuclear membrane cGMP immunofluorescence is observed. Because glucagon altered both cAMP location and levels prior to the observed changes in nuclear cGMP metabolism, the hypothesis that cAMP acted as the second messenger was tested. In vitro incubation of nuclei isolated from control rats with 10(-5) M cAMP produced a 25% increase in nuclear guanylate cyclase activity. With nuclei isolated from glucagon-treated rats, no significant increase in enzyme activity was observed; this indicates that maximal stimulation of nuclear guanylate cyclase by cAMP occurred at levels that are obtained in vivo after glucagon administration. These findings suggest that hepatic nuclear cGMP content may be regulated by a specific organelle guanylate cyclase and that cAMP may be one of the determinants of this enzyme's activity.     

Atrial natriuretic peptide receptors in human endometrial stromal cells.

Atrial natriuretic peptide (ANP) has been shown to affect water and ion transport and specific ANP binding has been identified in several secretory tissues. ANP commonly acts via stimulation of membrane-bound particulate guanylate cyclase with the production of cyclic guanosine monophosphate (cGMP). We questioned whether ANP played a role in the complex cyclic transformation of the endometrium into a secretory tissue, and whether its action was cGMP mediated. Endometrium was obtained by biopsy in regularly menstruating women and stromal cells were isolated and cultured for use in this study. ANP competitive binding assays were performed using 125I-labeled ANP (0.1 nmol/L) and increasing concentrations of unlabeled ANP (0-1000 nmol/L). Optimal binding was obtained after 3-h incubation at 4 C and binding characteristics, including dissociation constant and binding site quantity, were estimated by Scatchard analysis. Specific, high affinity (dissociation constant, 0.078 +/- 0.004 nmol/L) and low capacity (4,877 +/- 1,951 binding sites/cell) ANP binding was identified, with nonspecific binding representing less than or equal to 16% of total binding. Evaluation of ANP-stimulated cyclic nucleotide production revealed an increase in cGMP production, with a 7-fold increase at 1000 nmol/L ANP, and no effect on cAMP production. In conclusion, we have identified specific high affinity receptors for ANP in human endometrial cells, suggesting a role for ANP in endometrial cell function and/or development mediated via cGMP production. We propose that ANP may affect local salt and water metabolism, may be involved in the secretory evolution of glandular and stromal cells, and may further facilitate endometrial development via modulation of local vascular tone and endothelial permeability.     

Cyclic GMP phosphodiesterase and guanylate cyclase activities in rabbit ovaries and the effect of in-vivo stimulation with LH

The activities of guanylate cyclase and cyclic GMP (cGMP) phosphodiesterase, enzymes that are responsible for maintaining tissue levels of cGMP, were determined in the ovaries of rabbits killed without treatment or 4 h after administration of LH. Ovarian activities of the two enzymes were determined in the 100 000 g supernatant fraction (cytosol) and the resulting pellet (particulate fraction). Significant phosphodiesterase and cyclase activities were detected in both the cytosol and particulate fractions. Administration of LH had no significant effect on phosphodiesterase activity in either of the tissue fractions. On the other hand, LH caused a significant drop in guanylate cyclase activity in the cytosol and particulate fractions. This drop in the cyclase activity may be the cause of the decreased rabbit ovarian concentrations of cGMP that we have previously observed after LH stimulation.     

Limitations of compensation by endogenous atrial natriuretic peptide in heart failure.

To evaluate the role of endogenous atrial natriuretic peptide (ANP) in patients with congestive heart failure (CHF), the relationship between plasma ANP and cyclic guanosine monophosphate (cGMP) levels and the prognosis of patients with CHF was examined. In patients with chronic mild to moderate CHF, there was a positive correlation between plasma ANP and cGMP levels (r = 0.81, p less than 0.001). However, there was no significant correlation between these plasma levels in patients with chronic severe CHF, in whom the cGMP concentration reached a plateau in spite of high levels of ANP. The ANP extraction level and the cGMP production level in the pulmonary and systemic circulation correlated significantly in patients with mild CHF. In contrast, there was no significant correlation between the 2 parameters in patients with severe CHF, and the molar ratios of cGMP production to ANP extraction in the pulmonary and systemic circulation were significantly lower than those in patients with mild CHF. In 44 patients with chronic severe CHF who were followed up over 2 years, plasma ANP levels provided more sensitive and specific prognostic information than any other parameters. These results indicate that ANP receptors coupled to guanylate cyclase may be down-regulated in patients with chronic severe CHF, suggesting that high plasma ANP levels as a prognostic predictor may be associated with limitations of compensation by endogenous ANP.     

Atrial and brain natriuretic peptides enhance dopamine accumulation in cultured rat hypothalamic cells including dopaminergic neurons.

Dopamine accumulation in hypothalamic cells by atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) was analyzed using newborn rat hypothalamic cells in culture. Both ANP and BNP caused a dose-dependent increase in [3H]-dopamine accumulation in the cells. ANP increased [3H]-dopamine accumulation significantly within 20 min. The effects of ANP and BNP on dopamine accumulation paralleled an increase in intracellular cGMP concentration. (Bu)2-cGMP and sodium nitroprusside, a stimulator of the soluble form of guanylate cyclase, also enhanced [3H]-dopamine accumulation. ANP had no effect on efflux of [3H] radioactivity after [3H]-dopamine uptake. These results suggest that a change in cGMP is one of the intermediate steps in dopamine accumulation in hypothalamic cells by ANP and BNP.     

Expression and functional roles of guanylate cyclase isoforms in BRIN-BD11 β-cells

This study has assessed the expression and functional significance of cGMP-dependent signalling components in BRIN-BD11 cells. RT-PCR analysis revealed the expression of two subunits of soluble guanylate cyclase (sGC) suggesting the presence of an α2/β1 heterodimer. The expression of three particulate guanylate cyclases (pGC) was also detected (GC-A, GC-B and GC-C), as well as two cGMP-selective PDE isoforms (PDE5A and PDE9). Stimulation of BRIN-BD11 cells with agonists selective for sGC (NO, YC-1 and BAY 41-2272), GC-A (atrial natriuretic peptide (ANP) or GC-C (guanylin) caused an elevation in cGMP, and in the case of sGC, this was blocked by the selective inhibitor 1H-[1,2,4]oxadiazolo-[4,3-a]quinoxalin-1-one (ODQ). The stimulatory effects of each activator on cGMP levels were further potentiated by the PDE5A inhibitor, zaprinast. Treatment of cells with sGC activators induced a loss of viability and increased insulin secretion. However these effects were not attenuated by ODQ suggesting that they were independent of a rise in cGMP. A modest increase in β-cell death and insulin secretion were also observed in guanylin and ANP treated cells, although the latter only reduced cell viability in the presence of a PDE5A inhibitor. Taken together, the data reveal that BRIN-BD11 cells express several functionally active enzymes capable of modulating cGMP levels, and they imply that signalling through these proteins may impact upon β-cell viability. The results further suggest that pGC isozymes can also regulate insulin secretion but that the pool of cGMP controlling insulin release is small relative to the global cGMP concentration in the cell.     

Expression and functional roles of guanylate cyclase isoforms in BRIN-BD11 β-cells

This study has assessed the expression and functional significance of cGMP-dependent signalling components in BRIN-BD11 cells. RT-PCR analysis revealed the expression of two subunits of soluble guanylate cyclase (sGC) suggesting the presence of an α2/β1 heterodimer. The expression of three particulate guanylate cyclases (pGC) was also detected (GC-A, GC-B and GC-C), as well as two cGMP-selective PDE isoforms (PDE5A and PDE9). Stimulation of BRIN-BD11 cells with agonists selective for sGC (NO, YC-1 and BAY 41-2272), GC-A (atrial natriuretic peptide (ANP) or GC-C (guanylin) caused an elevation in cGMP, and in the case of sGC, this was blocked by the selective inhibitor 1H-[1,2,4]oxadiazolo-[4,3-a]quinoxalin-1-one (ODQ). The stimulatory effects of each activator on cGMP levels were further potentiated by the PDE5A inhibitor, zaprinast. Treatment of cells with sGC activators induced a loss of viability and increased insulin secretion. However these effects were not attenuated by ODQ suggesting that they were independent of a rise in cGMP. A modest increase in β-cell death and insulin secretion were also observed in guanylin and ANP treated cells, although the latter only reduced cell viability in the presence of a PDE5A inhibitor. Taken together, the data reveal that BRIN-BD11 cells express several functionally active enzymes capable of modulating cGMP levels, and they imply that signalling through these proteins may impact upon β-cell viability. The results further suggest that pGC isozymes can also regulate insulin secretion but that the pool of cGMP controlling insulin release is small relative to the global cGMP concentration in the cell.     

Distribution and characterization of natriuretic peptide receptors in the kidney of the toad, Bufo marinus.

The location and characteristics of atrial natriuretic peptide binding sites in the kidney of the toad, Bufo marinus, were determined. Specific (125)I-rANP binding sites were observed on glomeruli and blood vessels, but little if any binding was observed over regions corresponding to the renal tubules. (125)I-rANP binding in tissue sections and/or isolated membranes was completely displaced in the presence of 1 microM rat ANP, frog ANP, and porcine C-type natriuretic peptide (membranes only); however, residual binding remained after incubation with 1 microM of the NPR-C ligand, C-ANF, indicating the presence of two distinct binding sites. Electrophoresis of kidney membranes cross-linked to (125)I-rANP identified specific bands at approximately 70 and 140 kDa which correspond to the monomeric mass of NPR-C and the guanylate cyclase receptors, respectively. In addition, rat ANP, frog ANP, and porcine CNP stimulated a significant increase in cGMP production rates in membrane preparations, while C-ANF had no stimulatory effect. Two partial cDNA clones generated using primers based on conserved regions of vertebrate natriuretic peptide receptors showed high homology to an NPR-C and the natriuretic peptide guanylate cyclase receptors (NPR-GC), respectively. This study provides evidence that the kidney of B. marinus contains both NPR-C and NPR-GC and that the glomerulus is potentially the principal site of ANP regulation in the kidneys.     

The role of Ca2+ and calmodulin in the regulation of atrial natriuretic peptide-stimulated guanosine 3',5'-cyclic monophosphate accumulation by isolated mouse Leydig cells

We have investigated the role of Ca2+ and calmodulin in the stimulation of cGMP formation by mouse Leydig cells in response to rat atriopeptin-II (rAP-II). Removal of extracellular Ca2+ had no influence on the levels of cGMP accumulated by the cells stimulated with rAP-II. The amounts of testosterone produced by unstimulated and rAP-II-stimulated cells were, however, reduced by 50% in the absence of Ca2+ from the incubation medium. Addition of ionomycin to the Leydig cells led to a dose-related inhibition of rAP-II-stimulated cGMP formation, but the basal cGMP level was not affected. These experiments were carried out in the presence of a phosphodiesterase inhibitor. The inhibitory effect of ionomycin was absolutely dependent upon the presence of Ca2+ in the medium. The guanylate cyclase activity required the presence of a cation, and Mn2+, Mg2+, or Ca2+ could function as the required cation. There was no direct inhibition of the cyclase activity by Ca2+ up to as high a concentration as 8 mM. Furthermore, three structurally unrelated calmodulin antagonists, W7, trifluoperazine, and calmidazolium, but not W5, caused a dose-related inhibition of rAP-II-stimulated cGMP accumulation by the cells. The inhibitory effect of calmodulin antagonists was not exerted directly at the level of guanylate cyclase activity, since the particulate enzyme was not inhibited by any of these drugs. We conclude, therefore, that extracellular Ca2+ is not essential for rAP-II-mediated stimulation of cGMP formation by mouse Leydig cells, at least under the short term incubation conditions used. An excessive ionophoretic influx of Ca2+ into the cells impairs the ability of rAP-II to stimulate cGMP formation. Therefore, it appears that a finely regulated level of intracellular Ca2+ is required for optimal activation of atrial natriuretic peptide-responsive guanylate cyclase in mouse Leydig cells, and calmodulin plays an important role in this process.     

Atrial natriuretic factor elicits an endothelium-independent relaxation and activates particulate guanylate cyclase in vascular smooth muscle.

A 26 amino acid synthetic peptide fragment of atrial natriuretic factor (ANF) relaxed isolated rabbit aortic segments in which the endothelium was either intact or functionally destroyed. The relaxations were temporally associated with increases in levels of cGMP with no change in the levels of cAMP. The ANF-induced increases in cGMP were also observed in aortic segments pretreated with calcium-free buffer or the cGMP phosphodiesterase inhibitor M&B 22,948. Qualitatively similar results were obtained for sodium nitroprusside. ANF selectively activated particulate guanylate cyclase, having no effect on the soluble form of the enzyme. Thus, the direct (endothelium-independent) vasodilator effect of ANF may be mediated via increased tissue levels of cGMP. ANF appears to increase vascular cGMP levels by activation of particulate guanylate cyclase.