Identification and characterization of three distinct atrial natriuretic factor receptors. Evidence for tissue-specific heterogeneity of receptor subtypes in vascular smooth muscle, kidney tubular epithelium, and Leydig tumor cells by ligand binding, photoaffinity labeling, and tryptic proteolysis

Three distinct atrial natriuretic factor (ANF) receptors have been identified and characterized from rat thoracic aortic cultured vascular smooth muscle (RTASM) cells, kidney tubular epithelium (MDCK), and Leydig tumor (MA-10) cells. These include 1) a disulfide-linked 140-kDa protein found in RTASM cells, which was reduced by dithiothreitol (DTT) to 70 kDa, 2) a 120-135-kDa single polypeptide protein, specific to MDCK and MA-10 cells whose Mr was not reduced by DTT, and 3) a 66-70-kDa protein prevalent in both RTASM and MDCK cells, which was not reduced by DTT. After incubation of RTASM cells with 4-azidobenzoyl 125I-ANF, labeling of the 140-kDa protein was blocked by both full-length ANF(99-126) and truncated ANF103-123. In contrast, the labeling of the 120-kDa receptor in MDCK cells was blocked only by full-length ANF(99-126). However, labeling of the 68-70-kDa receptor in both RTASM and MDCK cells was blocked by full-length ANF(99-126) and truncated ANF(103-123). Binding of 125I-ANF(99-126) to RTASM and MDCK cells was rapid, specific, and saturable with a Kd of 1.5 x 10(-10) M and binding capacity (Bmax) of 2.1 x 10(5) sites/RTASM cell and Kd 4.5 x 10(-10) M and Bmax 5 x 10(4) sites/MDCK cell, respectively. Binding of 125I-ANF(99-126) to RTASM cells was displaced with both full-length ANF(99-126) and truncated ANF(103-123), however, binding to MDCK cells was efficiently displaced only with full-length ANF. Both ANF(99-126) and ANF(103-123) stimulated cGMP in RTASM cells but only ANF(99-126) elicited cGMP in MDCK cells. Tryptic proteolysis of the high Mr single chain receptor produced only a 68-kDa fragment, whereas disulfide-linked 140-kDa receptor yielded 52-, 38-, 26-, and 14-kDa fragments. These data provide direct biochemical evidence for three distinct ANF receptors which might be linked to diverse physiological functions of ANF such as natriuresis in the kidney, vasorelaxation in vascular smooth muscle, and steroidogenic responsiveness in Leydig cells.     

Dynamics of atrial natriuretic factor-guanylate cyclase receptors and receptor-ligand complexes in cultured glomerular mesangial and renomedullary interstitial cells.

The dynamics of the guanylate cyclase receptor of atrial natriuretic factor (GCA-ANF receptor) were investigated in cultured glomerular mesangial and renomedullary interstitial cells from the rat. In these cells, the GCA-ANF receptor did not mediate internalization and lysosomal hydrolysis of 125I-ANF1-28 and did not undergo ligand-induced endocytosis. Glomerular mesangial cells were able, however, to mediate internalization and lysosomal hydrolysis of 125I-ANF1-28 via clearance ANF (C-ANF) receptors and to promote rapid receptor-mediated internalization and lysosomal hydrolysis of 125I-(Sar1) angiotensin II. Radioligand specifically bound to surface GCA-ANF receptors was rapidly dissociated at 37 degrees C (k(off) greater than 0.8 min-1), with a Q10(30-37 degrees C) greater than 6. The dissociation was markedly slower at subphysiological temperatures (Q10(4-30 degrees C), 2-3) or in the presence of 0.5 mM amiloride. The results demonstrate that the GCA-ANF receptor, contrary to C-ANF receptors and most other polypeptide hormone receptors, is a membrane resident protein that does not mediate internalization and lysosomal hydrolysis of ligand. The termination of the interaction of ANF with GCA-ANF receptors results from a physiological process that leads to rapid dissociation of receptor-ligand complexes. The unique dynamics of GCA-ANF receptor-ligand complexes are likely to contribute importantly to stimulus-response homeostasis of ANF.     

Phorbol and calcium decreased atriopeptin response in a human renal cell line.

We investigated regulation of atrial natriuretic factor (ANF)-stimulated cellular cGMP accumulation (ANF-s-cGMP) in an ANF-responsive human renal cell line, SK-NEP-1. Dose-response data indicated that the EC50 for ANF(99-126) was 1.1 x 10(-9) M. Brain natriuretic peptide (10(-6) M) increased cGMP to a level indistinguishable from that of ANF (10(-6) M). [Met-(O)]ANF was only half as potent as ANF, and atriopeptin I (10(-6) M) did not increase cGMP over basal levels. Preincubation of SK-NEP-1 cells with ANF, but not atriopeptin I (API), for two hours or longer, caused a concentration-dependent down-regulation of ANF-s-cGMP. Phorbol 12-myristate 13-acetate (PMA), a protein kinase C (PKC) activator, and A23187 and its 4-bromo derivative, calcium ionophores, inhibited ANF-s-cGMP in a dose-dependent manner. A23187 inhibition was calcium dependent and promoted net cGMP degradation. Thirty-six hour preincubation with PMA, a procedure used to down-regulate PKC, abolished acute PMA inhibition of ANF-s-cGMP without having an effect on ANF-s-cGMP or on 4-bromo-A23187 inhibition thereof. These data indicate that PKC activation specifically inhibited ANF-s-cGMP but that PKC was not required for ANF-s-cGMP in SK-NEP-1 cells. Thus structurally related ANF peptides, protein kinase C (PKC) activators, calcium ionophores are potential modulators of ANF-s-cGMP in cells from this human renal cell line.     

Identification and characterization of atrial natriuretic factor receptors in the rat retina

The characteristics of atrial natriuretic factor (ANF) receptors where studied in rat retinal particulate preparations. Specific 125I-ANF binding to retinal particulate preparations was greater than 90% of total binding and saturable at a density (Bmax) of 40 +/- 8 fmol/mg protein with an apparent dissociation constant (Kd) of 6.0 +/- 2.0 pM (n = 3). Apparent equilibrium conditions were established within 30 min. The Kd value of 125I-ANF binding calculated by kinetic analysis was 4.0 pM. The Bmax of 60 +/- 10 fmol/mg protein and the Kd of 5 +/- 2 pM, calculated by competition analysis, were in close agreement with the values obtained from Scatchard plots or kinetic analysis. The 125I-ANF binding to retinal particulate preparations was not inhibited by 1 microM concentration of somatostatin, vasopressin, vasoactive intestinal peptide, adrenocorticotropin, thyrotropin releasing hormone, or leu-enkephalin. The rank order of potency of the unlabelled atrial natriuretic peptides for competing with specific 125I-ANF (101-126) binding sites was rANF (92-126) greater than rANF (101-126) greater than rANF (99-126) greater than rANF (103-126) greater than Tyro-Atriopeptin I greater than hANF (105-126) greater than rANF (1-126). Similar results have been obtained in peripheral tissues and mammalian brain, indicating that central and peripheral ANF-binding sites have somewhat similar structural requirements. Affinity cross-linking of 125I-ANF to retinal particulate preparations resulted in the labelling of two sites of molecular weight 140 and 66 kDa, respectively. This demonstration of specific high-affinity ANF receptors suggests that the peptide may act as a neurotransmitter or neuromodulator in the retina.     

Atrial natriuretic factor receptor on cultured Leydig tumor cells: ligand binding and photoaffinity labeling

Atrial natriuretic factor (ANF) is a peptide hormone discovered recently from the heart atrium that possesses potent natriuretic and vasorelaxant activities. Recently we found that ANF markedly stimulates intracellular cGMP and almost completely inhibits cAMP accumulation in testicular interstitial tumor cells [Pandey, K. N., Kovacs, W. J., & Inagami, T. (1985) Biochem. Biophys. Res. Commun. 133, 800-806]. These actions of ANF suggest the presence of ANF receptors in testicular interstitial cells. In this study, cultured murine Leydig tumor cells have been shown to contain specific binding sites for ANF. Saturation binding studies indicated a single class of binding sites with a Kd of 5 X 10(-9) M at a density of 2 X 10(6) sites/cell. The binding of mono[125I]iodo-ANF (125I-ANF) was competed by unlabeled ANF in a dose-dependent manner. Hormones unrelated to ANF such as angiotensin I, bovine luteinizing hormone, and human chorionic gonadotropin were not able to compete against 125I-ANF. The binding of 125I-ANF was rapid, reaching maximum levels in 15 min at 4 degrees C. At 37 degrees C, the cell-bound 125I label was quickly decreased. Pretreatment of cells with NH4Cl, chloroquine, or NaN3 resulted in significant increases in maximum levels of the cell-bound 125I radioactivity. A photoaffinity reagent for ANF receptor was prepared by reacting ANF with succinimido 4-azidobenzoate, and resultant 4-azidobenzoyl- (AZB-) ANF was purified by high-performance liquid chromatography (HPLC). AZB-ANF was radioiodinated by use of chloramine T and purified again by HPLC.(ABSTRACT TRUNCATED AT 250 WORDS)     

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.     

Secretion of immunoreactive ANF from FRTL-5 rat thyroid cells: regulation by calcium ionophore A23187.

Atrial natriuretic factor-like immunoreactivity (ir-ANF) was characterized in a continuous line of rat thyroid follicular cells (FRTL-5) and the influence of the calcium ionophore A23187 on ir-ANF secretion was examined. Ir-ANF was identified by immunohistochemical staining as primarily reticular and juxtanuclear in short-term cultures, and more peripheral and granular in longer-term cultures, suggesting a process of ir-ANF packaging into secretory granules. The accumulation of ir-ANF granules was dependent upon the presence of thyrotropin (TSH) in the medium. Secreted ir-ANF was characterized using reversed-phase, high-performance liquid chromatography (RP-HPLC) and radioimmunoassay as a single peak eluting one fraction earlier than 125I-labeled rat ANF (99-126) (i.e., circulating atrial ANF) included as an internal standard. A23187 treatment of cells exhibiting primarily reticular ir-ANF caused a change to a pattern of more distinct, peripherally localized granules. This change occurred within 1 h after A23187 treatment and was dependent on the presence of Ca2+ in the medium. In cultures containing primarily ir-ANF granules, A23187 (0.5 micrograms/ml) induced a peripheral translocation of the granules at 30 min and a complete degranulation by 7 h. Enzyme-linked immunoadsorbent assay (EIA) confirmed a dose-dependent effect of A23187 on ir-ANF release into the medium. These results suggest that some of the effects of Ca2+ in the thyroid could be ascribed to its mobilization and release of ir-ANF, which in turn may have autocrine effects on thyroid follicular cells.     

Binding and internalization of atrial natriuretic factor by high-affinity receptors in A10 smooth muscle cells

A10 smooth muscle cells, derived from embryonic rat thoracic aorta, responded to the atrial natriuretic factor (ANF) with increased levels of cyclic GMP. These cells possess high-affinity (apparent Kd = 50 pM) plasma membrane receptors for ANF. Internalization of ANF at 37 degrees C was indicated by the following: approximately 25% of the 125I-ANF associated with the cells at elevated temperatures could not be dissociated from the surface of the cells, but could be released by permeabilization with saponin, and the amount of nondissociable ANF increased in the presence of chloroquine. In whole cells and in membranes, a single polypeptide of 60,000 Da was specifically labeled by a photoaffinity analog of 125I-ANF, as well as by crosslinking, and an IC50 of 80 pM for inhibition of the labeling by ANF was observed. The ANF receptor in A10 cells was distinguished from that in rabbit aorta by its high affinity for shorter and linear analogs of ANF, as well as by a different photolabeling pattern.     

Identification of the receptor for atrial natriuretic factor on cultured vascular cells

Binding experiments with 125I-atrial natriuretic factor (ANF) followed by covalent attachment with disuccimidyl suberate show that the peptide binds predominantly to a protein of apparent molecular mass of 66,000 daltons on the cell surface of cultured bovine aortic smooth muscle cells. A minor protein species of 180,000 Mr is also visualized after cross-linking. Endothelial cells, however, whose ANF binding parameters differ substantially from smooth muscle cells, also appear to have qualitatively identical 125I-ANF binding proteins. The identity of these putative proteins, as the ANF receptor, is confirmed by findings that covalent attachment of 125I-ANF is saturable, concentration-dependent, and competed by nanomolar concentrations of unlabeled ANF. Furthermore, other peptide hormones such as angiotensin II, glucagon, or insulin are ineffective in competing for 125I-ANF binding and cross-linking to the receptor.     

Ligand-induced desensitization of 125I-epidermal growth factor internalization

The internalization of 125I-epidermal growth factor (EGF) by A431 cells was investigated. Control cells were able to internalize over 80% of receptor-bound 125I-EGF. By contrast, cells treated with EGF before incubation with 125I-EGF internalized only 50% of the surface-bound radioligand. The ligand-induced decrease in 125I-EGF internalization showed a dose response to EGF with half-maximal effect occurring at 3 nM. The alteration in the extent of 125I-EGF internalization did not require extended treatment with high concentrations of the hormone. When the internalization of picomolar versus nanomolar concentrations of EGF were compared, the lower concentrations of 125I-EGF were more completely internalized than the higher concentrations of radioligand. These data are consistent with the hypothesis that occupation of the EGF receptor by hormone rapidly leads to the activation of cellular processes which effectively desensitize the system to further ligand-induced internalization. The decrease in the extent of ligand internalization occurred in cells in which the protein kinase C (Ca2+/phospholipid-dependent enzyme) activity had been down-regulated by prolonged treatment with 12-O-tetradecanoyl-phorbol-13-acetate implying that the desensitization process is independent of protein kinase C. However, the effects of EGF on the extent of hormone internalization could be mimicked by the addition of A23187 and could be prevented by pretreatment of the cells with calmodulin antagonists suggesting the possibility that Ca2+-calmodulin is involved in the regulation of EGF receptor internalization in A431 cells.     

Synthetic atrial natriuretic factor induces release (possibly receptor-mediated) of vasopressin from rat posterior pituitary

The synthetic fragment (Arg 101-Tyr 126) of atrial natriuretic factor (ANF) induces release of arginine vasopressin from the isolated posterior lobe of the rat hypophysis in vitro. At a physiological concentration (3 X 10(-10)M) ANF was three times more effective than 61 mM KCL. In vitro binding studies with 125I-ANF revealed the presence of high affinity receptor sites displaying a pK = 9.9, a Kd = 0.14 nM, a Bmax = 20 fmol/posterior lobe and and IC50 = 200 pM. These results suggest that arginine vasopressin release by synthetic atrial natriuretic factor may be receptor mediated.     

Depolarization-Induced Increase in Surface Binding and Internalization of 125I-Nerve Growth Factor by PC 12 Pheochromocytoma Cells

The binding and internalization of 125I-nerve growth factor (NGF) by PC12 pheochromocytoma cells was studied as a function of extracellular potassium concentration. Both surface-bound and internalized fractions of 125I-NGF associated with the cells under depolarizing conditions (50 mM K+) increased to 144 +/- 28% (average +/- SEM, six different cell preparations) and to 176 +/- 12% (n = 6), respectively, of those observed at 6.0 mM K+. Scatchard-type analysis of the data indicates increased sites for the binding and internalization of iodinated NGF by the cells. Similar enhancement was observed for cells treated with NGF as well. This voltage-dependent phenomenon was reversible, and also observed in the presence of veratridine. Moreover, withdrawal of extracellular Ca2+ abolished high K+-induced modulation of 125I-NGF binding and internalization, indicating that this effect may be mediated by Ca2+.     

Regulation of insulin receptor internalization in vascular endothelial cells by insulin and phorbol ester

Phorbol 12-myristate 13-acetate (PMA) was used to examine the role of insulin receptor phosphorylation in the regulation of insulin receptor internalization in vascular endothelial cells. Association of 125I-insulin in rat capillary and bovine aortic endothelial cells preincubated with PMA was increased by 80 and 64% over control, respectively. The increase was due to enhanced 125I-insulin internalization as opposed to an effect on surface-bound hormone. PMA had no significant effect on 125I-insulin degradation or on release of internalized insulin from the cells. Internalization of 125I-labeled insulin receptor was determined by the resistance of labeled receptor to trypsinization. At 10 degrees C, nearly all of the labeled receptor was sensitive to removal by trypsin, indicating that it was exposed on the cell surface. Exposure of labeled cells to insulin (100 nM) at 37 degrees C resulted in the rapid appearance of trypsin-resistant insulin receptor, indicating receptor internalization. Steady state for receptor internalization was attained at 10-15 min. When surfaced-labeled cells were preincubated with PMA at 37 degrees C, the rate of insulin receptor internalization was increased by 3.6 +/- 0.2-fold and 2.1 +/- 0.5-fold at 1 and 5 min of insulin exposure, respectively (ED50 at 16 nM PMA). This effect of PMA was associated with an increase in serine phosphorylation of the insulin receptor. Thus, PMA increased insulin internalization in the endothelial cells by modulating the insulin-induced internalization of the receptor. The additive effects of PMA and insulin on insulin receptor phosphorylation suggest that the phorbol ester and insulin act via independent signaling mechanisms.     

Degradation of atrial natriuretic factor in the rat.

The biologically active circulating form of atrial natriuretic factor (ANF) in the rat is the 28-amino-acid peptide ANF-(Ser-99-Tyr-126). Degradation of this peptide in vivo as well as in vitro, in whole blood, in plasma and by the isolated mesenteric artery was investigated. Studies in vivo in the rat demonstrated that the elimination and degradation of ANF was extremely fast: within 3 min more than 95% of the injected immunoreactive material was eliminated from circulation. The production of a short C-terminal peptide was detected on injection of 125I-ANF-(Ser-99-Tyr-126) into the rat. This peptide increased proportionately with incubation time. Experiments in vitro in the presence of whole blood or plasma did not cause any major destruction of ANF even after incubation for 60 min. After this prolonged incubation in plasma, ANF-(Ser-99-Tyr-126) was partially converted into ANF-(Ser-103-Tyr-126), a less potent peptide. Isolated mesenteric-artery preparation appeared to degrade ANF in a manner very similar to the system in vivo. These results suggest that degradation of ANF may occur either after internalization in the vascular cells or by a membrane-bound enzyme in the vasculature.     

Superoxide anion release by human endothelial cells: synergism between a phorbol ester and a calcium ionophore

In order to study the signal transduction mechanism of human endothelial cells (EC), the regulation of superoxide anion (O2-)release in EC has been investigated using the calcium ionophore A23187 and phorbol myristate acetate (PMA), a potential activator of the Ca2+ activated, phospholipid-dependent protein kinase, designated "protein kinase C." PMA enhanced O2- release from EC, and this enhancement occurred regardless of the presence or absence of extracellular Ca2+. A similar increase was produced by A23187; omission of extracellular Ca2+ prevented this increase. Simultaneous stimulation with PMA and A23187 produced a large increase in O2- release at submaximal concentrations of these agents, which, when added separately, caused minimal effects. These findings indicate that the activation of protein kinase C and mobilization of Ca2+ evoked by PMA and A23187 respectively are synergistically effective for eliciting a full physiological response of EC in the generation and release of O2-.     

Vascular atrial natriuretic factor receptor subtypes are not independently regulated by atrial peptides

The regulation of the atrial natriuretic factor (ANF) receptor system in cultured rat vascular smooth muscle cells (RVSMC) was examined following long term pretreatment of these cells with rANF99-126 or with any one of a series of truncated and ring-deleted analogs. The latter analogs are reported to bind selectively the ANF-C or clearance receptor. Initial competition binding studies revealed that all analogs examined showed comparable apparent receptor binding affinities (Ki values did not differ by more than 10-fold). In contrast, the extent of interaction of the ANF analogs with the receptor pool coupled to particulate guanylate cyclase (the ANF-B receptor) was much more variable, with some ligands failing to stimulate cGMP production or particulate guanylate cyclase over the concentrations tested. Pretreatment of cells for 24 h with rANF99-126 or any of the truncated analogs that interact with the ANF-B receptor caused a dose- and time-dependent decrease in the number of ANF binding sites (99% of which are uncoupled in RVSMC) without any change in affinity. Examination of the binding activity following pretreatment of the cells with ANF suggested that the observed reduction in 125I-rANF99-126 binding capacity was not because of the retention of the peptide on its receptor. Furthermore, this down-regulation was associated with desensitization of particulate guanylate cyclase resulting in a decreased responsiveness of intracellular cGMP accumulation to ANF. In contrast, however, analogs selective for the ANF-C receptor pool failed to cause down-regulation or desensitization. These findings suggest that ANF-C receptors in RVSMC are not independently down-regulated by selective ligands but that nonselective analogs that down-regulate and desensitize the ANF-B receptor system can by some cooperative mechanism reduce the size of the predominant ANF-C receptor pool in these cells.     

Affinity cross-linking of atrial natriuretic factor to its receptor in bovine adrenal zona glomerulosa

125I-Labeled atrial natriuretic factor (ANF) was covalently cross-linked to its binding sites in bovine adrenal zona glomerulosa membranes using the hydrophilic cross-linker bis(sulfosuccinimidyl) suberate. Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the presence of 2-mercaptoethanol revealed that two protein bands with apparent Mr 68,000 and 114,000 were specifically labeled. The labeling of the two bands was prevented in a dose-dependent fashion by unlabeled ANF with a significant inhibition observed at 10(-10) M. High concentrations of angiotensin II and adrenocorticotropic hormone did not compete with 125I-ANF for binding and cross-linking. The dose-response curve for inhibition of covalent cross-linking of 125I-ANF by unlabeled ANF coincided with the dose-response curve for inhibition of binding to the receptor. No radioactive bands were observed in liver membranes. Experiments in which adrenal membranes were prepared and incubated in the presence of protease inhibitors showed no difference in the labeling pattern. Electrophoresis in the absence of reductant showed that the affinity-labeled species are not derived from larger disulfide-linked components. The apparent molecular weight of the two labeled species was not affected by a 100-fold variation in cross-linker concentration, and the labeling of both species increased in parallel. Possible relationships between the two labeled species are discussed.     

entaaification of Atrial Natriuretic Factor Receptor of Neuroblastoma N4TG1 Cells: Binding Characteristics and Photoaffinity Labeling

We have found specific receptors for atrial natriuretic factor (ANF) in cultured neuroblastoma cells (N4TG1) of peripheral ganglionic origin. Scatchard analysis of the displacement binding revealed noninteracting, single-class binding sites with a KD of 1 X 10(-10) M and a density (Bmax) of 110,000-150,000 sites/cell. The cell-bound 125I-ANF was displaced by unlabeled ANF in a dose-dependent manner. Hormones unrelated to ANF such as angiotensins, adrenocorticotropic hormone, or arginine vasopressin were ineffective in displacing the cell-bound radioactivity. Using azidobenzoyl-125I-ANF as a photoaffinity ligand, an ANF receptor with an apparent Mr of 138,000 was identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. The addition of unlabeled ANF (1 microM) to the incubation medium completely abolished the labeling of this protein band, but atriopeptin I (1 microM) or angiotensins I, II, and III (each 1 microM) were not effective in inhibiting the affinity labeling. The treatment of the neuroblastoma cells with ANF stimulated intracellular cyclic GMP levels in a dose-dependent manner with an EC50 of 5 nM. ANF (1 X 10(-7) M) stimulated cyclic GMP accumulation in less than 5 min by 30-fold as compared to the controls.     

Intracellular Ca2+ and phorbol esters synergistically inhibit internalization of epidermal growth factor in pancreatic acini.

The association of 125I-labelled epidermal growth factor (125I-EGF) with mouse pancreatic acinar cells was inhibited by secretagogues which increase intracellular free Ca2+ concentrations. These agents included cholecystokinin-octapeptide (CCK8) and the Ca2+ ionophore A23187. Inhibition by CCK8 was blocked by lowering the incubation temperature from 37 degrees C to 15 degrees C. Moreover, in contrast with studies of intact acini, the binding of 125I-EGF to isolated acinar membrane particles was not affected either by CCK8, or by varying the level of Ca2+ in the incubation medium. These results indicated, therefore, that the inhibition of 125I-EGF association with acinar cells required intact cells that are metabolically active. Since intact cells at 37 degrees C are known to internalize bound EGF rapidly, acid washing was used to distinguish membrane-associated hormone from internalized hormone. Under steady-state conditions 86% of the 125I-EGF associated with the acini was found to be internalized by this technique. When agents that increased intracellular Ca2+ were tested they all markedly reduced the amount of internalized hormone, whereas surface binding was only minimally affected. The phorbol ester 12-O-tetradecanoyl-phorbol 13-acetate (TPA), which is known to activate protein kinase C, a Ca2+-regulated enzyme, also inhibited the association of EGF with acini. This inhibition was similar to that induced by elevated intracellular Ca2+. To test whether these two inhibitory phenomena were related, the effects of TPA in combination with the Ca2+ ionophore A23187 were examined. At low concentrations the effects were synergistic, whereas at high concentrations the maximal level of inhibition was not changed. We suggest therefore that elevated intracellular Ca2+ and phorbol esters may inhibit EGF internalization by a mechanism involving activation of protein kinase C.     

Antigen-induced biphasic diacylglycerol formation in RBL-2H3 cells: the late sustained phase due to phosphatidylcholine hydrolysis is dependent on protein kinase C

Exposure to antigen (Ag) caused a biphasic 1,2-diacylglycerol (DG) production in [3H]myristic acid-labeled RBL-2H3 cells; the early, small transient phase and the second large sustained phase. The accumulation of phosphatidic acid (PA) or phosphatidylethanol (PEt) in the presence of ethanol was paralleled by the second-phase DG generation. Ag-induced formation of phosphocholine and choline in [3H]choline-labeled cells suggested the hydrolysis of phosphatidylcholine (PC) by phospholipases C and D. Treatment with phorbol myristate (PMA) or A23187 caused increases in [3H]DG and water-soluble [3H]choline metabolites. In protein kinase C (PKC) down-regulated cells, PEt formation was markedly reduced. In these cells DG production induced by Ag and A23187 was largely suppressed, thus indicating that PKC would play an important regulatory role for PC hydrolysis. However, because the A23187 treatment showed significant accumulation of water-soluble choline metabolites in PKC down-regulated cells, an increase in intracellular Ca2+ is another factor regulating PC hydrolysis. Taken together, these results may indicate that PC hydrolysis in response to Ag is dependent on PKC and Ca2+.