Atrial natriuretic factor R1 receptor from bovine adrenal zona glomerulosa: purification, characterization, and modulation by amiloride

The atrial natriuretic factor (ANF) R1 receptor from bovine adrenal zona glomerulosa was solubilized with Triton X-100 and purified 13,000-fold, to apparent homogeneity, by sequential affinity chromatography on ANF-agarose and steric exclusion high-performance liquid chromatography. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and silver staining of the purified receptor preparation in the absence or presence of dithiothreitol revealed a single protein band of Mr 130,000. Affinity cross-linking of 125I-ANF to the purified receptor resulted in the labeling of the Mr 130,000 band. The purified receptor bound ANF with a specific activity of 6.8 nmol/mg of protein, corresponding to a stoichiometry of 0.9 mol of ANF bound/mol of Mr 130,000 polypeptide. Starting with 500 g of adrenal zona glomerulosa tissue, we obtained more than 500 pmol of purified receptor with an overall yield of 9%. The purified receptor showed a typical ANF-R1 pharmacological specificity similar to that of the membrane-bound receptor. The homogeneous Mr 130,000 receptor protein displayed high guanylate cyclase activity [1.4 mumol of cyclic GMP formed min-1 (mg of protein)-1] which was not stimulated by ANF. This finding supports the notion that the ANF binding and the guanylate cyclase activities are intrinsic components of the same polypeptide. Finally, the purified ANF-R1 receptor retained its sensitivity to modulation by amiloride, suggesting the presence of an allosteric binding site for amiloride on the receptor protein.     

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.     

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.     

Identification of multiple binding sites for atrial natriuretic factor by affinity cross-linking in cultured endothelial cells

In a previous study, we found that atriopeptin I was much weaker (EC50 greater than 500 nM) than atrial natriuretic factor (ANF-(8-33)) (EC50 = 0.3 nM) at increasing cyclic GMP in cultured endothelial cells. In this study, we used the cross-linking reagent disuccinimidyl suberate to investigate whether the differences in activity were due to the presence of multiple ANF receptors. When 98% of the ANF-binding sites on endothelial cells were occupied by tyrosine-atriopeptin I after cross-linking, there was no difference in the concentration-response curve to ANF-(8-33) with regard to cyclic GMP accumulation. In contrast, when 96% of the binding sites were occupied by cross-linked ANF-(8-33), a 60% decrease in the maximal cyclic GMP response was observed after the readdition of ANF-(8-33). These results suggest that ANF-(8-33) is binding to an additional site that atriopeptin I does not effectively bind. Affinity cross-linking of 125I-ANF to intact endothelial cells resulted in the labeling of two sites of Mr approximately 66,000 and approximately 130,000. Approximately 94% of the 125I-ANF binding sites had an Mr approximately 66,000. Labeling of this site was inhibited by both tyrosine-atriopeptin I (KI = 0.9 nM) and ANF-(8-33) (KI = 0.09 nM). Although 0.1 microM tyrosine-atriopeptin (AP I) inhibited labeling of the 66,000-dalton site to nearly the same degree as ANF-(8-33), it produced only a 4-fold increase in cyclic GMP compared to a 400-fold increase with ANF-(8-33). These results suggest that the 66,000-dalton site is not coupled to guanylate cyclase and cyclic GMP formation. Tyrosine-AP I (KI greater than 10 nM) was much weaker at competing for the 130,000-dalton site than ANF-(8-33) (KI = 0.075 nM). Because the EC50 for cyclic GMP stimulation for tyrosine-AP I (greater than 100 nM) and ANF-(8-33) (0.4 nM) is closer to the KI values for the 130,000-dalton protein, this site probably mediates the marked stimulation of cyclic GMP. Our results demonstrate that endothelial cells contain two binding sites for ANF-(8-33) and suggest that only the less abundant site (Mr approximately 130,000) is the receptor coupled to the activation of guanylate cyclase.     

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.     

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.     

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.     

Post-translational modification of the protein-synthesis initiation factor eIF-4D by spermidine in rat hepatoma cells.

The structural characteristics and glycoprotein nature of the human growth hormone (hGH) receptor in cultured lymphocytes (IM-9 cell line) were studied with the use of a bifunctional reagent (disuccinimidyl suberate) to couple 125I-hGH covalently to intact cells. After cross-linking, the hormone-receptor complexes were analysed by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. A single band of Mr 140,000 was identified under reducing conditions. The labelling of this band was blocked by unlabelled hGH but not by insulin, ovine prolactin, bovine or ovine growth hormones. The Mr 140,000 band was immunoprecipitated by either anti-hGH antibody or by a monoclonal antibody against rat liver growth hormone receptor. In the absence of reductant two major bands of Mr 270,000 and 140,000 were found. On two-dimensional gel electrophoresis, with the first dimension in the absence of reductant and the second in its presence, the Mr 270,000 complex generated the Mr 140,000 band. The nature of the oligosaccharide chains of the receptor was studied by treatment with different glycosidases. The electrophoretic mobility of the Mr 140,000 receptor complex was markedly increased after digestion with endoglycosidase F but showed no or little change after digestion with endoglycosidase H. The Mr 140,000 band was also sensitive to neuraminidase treatment. In addition the 125I-hGH-receptor complex was adsorbed by immobilized wheat germ agglutinin and to a smaller extent by immobilized concanavalin A, lentil lectin, ricin I and ricin II. In conclusion, taking into account that hGH is a Mr 22,000 polypeptide, the binding subunit of the GH receptor in human IM-9 lymphocytes has an Mr of approx. 120,000. The native receptor may exist as a homodimer of the binding subunit formed by disulphide bonds. Furthermore, the GH receptor subunit contains asparagine N-linked type of oligosaccharide chains. Most, if not all, of these chains are of the complex type and appear to be sialylated whereas no high-mannose type chains are detectable in the mature form of the receptor.     

Association of the atrial natriuretic factor receptor with guanylate cyclase in solubilized rat glomerular membranes

The elution profile of solubilized rat glomerular membranes from a gel filtration column showed two peaks of 125I-ANF (atrial natriuretic factor) binding (367 +/- 21, 156 +/- 12 KDa). Over 85% of the total binding for the extract was in the 367 KDa peak. Guanylate cyclase activity was correlated with 125I-ANF specific binding. ANF activation of guanylate cyclase was also observed. As observed previously with particulate membrane, Scatchard-analysis of ANF binding data with the solubilized extract was consistent with a two-site model. Both affinities (Kd's), 4 pM and 1 nM, are within the range of blood concentrations reported for ANF. These observations suggest that most rat glomerular ANF receptors are large molecular complexes coupled with guanylate cyclase in the 300-350 KDa size range.     

Use of the heterobifunctional cross-linker m-maleimidobenzoyl N-hydroxysuccinimide ester to affinity label cholecystokinin binding proteins on rat pancreatic plasma membranes

The binding of 125I-cholecystokinin-33 (125I-CCK-33) to its receptors on rat pancreatic membranes was decreased by modification of membrane protein sulfhydryl groups. Sulfhydryl modifying reagents also caused an accelerated release of bound 125I-CCK-33 from its receptor. Because of the presence of an essential sulfhydryl group(s) in CCK receptor binding we studied the application of the heterobifunctional (SH,NH2) cross-linker, m-maleimidobenzoyl N-hydroxysuccinimide ester (MBS), to affinity label 125I-CCK-33 binding proteins on rat pancreatic plasma membranes. Analysis of the cross-linked products by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography revealed that this heterobifunctional cross-linker affinity labeled a major Mr = 80,000-95,000 protein previously identified as part of the CCK receptor on the basis of affinity labeling using homobifunctional and heterobifunctional photoreactive cross-linkers. Additional proteins of Mr greater than 200,000, and Mr = 130,000-140,000 were affinity labeled using MBS. The efficiency of the cross-linking reaction between 125I-CCK-33 and its membrane binding proteins with MBS was significantly greater than that obtained with NH2-directed homobifunctional reagents such as disuccinimidyl suberate. The efficiency of cross-linking could be dramatically improved by reduction of membrane proteins with low-molecular weight thiols prior to binding and cross-linking. The differential labeling patterns of the CCK binding proteins obtained with chemical cross-linkers of similar length but different chemical reactivity underscores the need for caution in predicting native receptor structure from affinity labeling data alone. Using the same pancreatic plasma membrane preparation and 125I-insulin, the Mr = 125,000 alpha-subunit of the insulin receptor was affinity labeled using MBS as cross-linker, demonstrating its utility in identifying other peptide hormone receptors.     

A quantitative autoradiographic study of 125I atrial natriuretic factor in the heart of a teleost fish (Conger conger).

Quantitative receptor autoradiographic study of 125I-atrial natriuretic peptide factor (ANF) in the heart of a teleost fish Conger conger has shown that a heterogenous distribution of 125I-ANF binding exists in the different cardiac regions. Elevated ANF binding densities (3,790 fmol/mg protein) were encountered in the innermost layer (tunica intima) of the bulbus arteriosus while lower binding levels (293-403 fmol/mg protein) were revealed in atrium and ventricle. In order to determine 125I-ANF binding characteristics (KD, Bmax) in the above cardiac sites, saturation binding assays were carried out. The results show that low 125I-ANF KD values (28.8-52.6 pM) were found in the atrium and in the bulbus arteriosus with respect to the higher KD values (373 pM) of the ventricle. The number of binding sites were respectively 632 and 1,279 fmol/mg protein for the atrium and the ventricle, while a substantially elevated Bmax of 7,235 fmol/mg protein was found for the bulbus arteriosus. These results may furnish some insights concerning ANF receptor binding activity and its putative regulatory role of different cardiac functions.     

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)     

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.     

Identification of a receptor for atrial natriuretic factor in rabbit aorta membranes by affinity cross-linking

Binding sites in rabbit aorta membranes for atrial natriuretic factor (ANF) have been specifically and covalently labeled by two methods. In the first, the photoreactive analog of ANF, 125I-azidobenzoyl-ANF, was synthesized and used to photoaffinity label ANF receptors. In the second, 125I-ANF was covalently attached to its binding site by treatment of the 125I-ANF-receptor complex with bifunctional cross-linking agents. Analysis of the labeled proteins by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography revealed that by both methods the same three protein bands were labeled. These bands had apparent molecular masses of 60,000, 70,000, and 120,000 daltons. With the photoaffinity label, half-maximal inhibition of labeling of each of these bands was achieved when approximately 200 pM of unlabeled ANF was included in the binding assay. These results suggest that these three different polypeptides are specific components of ANF receptors in rabbit aorta membranes.     

Radiolabeling of the interferon-alpha receptor

The action of alpha interferon (IFN-alpha) is initiated by its binding to a specific cell-surface glycoprotein, the IFN-alpha receptor, which is not well characterized. IFN-alpha A was reacted with an 125I-labeled, cleavable, heterobifunctional reagent. The derivatized IFN-alpha A was bound to human Daudi cells and photoactivated, forming a covalent IFN/receptor complex of apparent molecular weight 130,000-140,000 by SDS-polyacrylamide gel electrophoresis. Cleavage of the complex produced a new 125I-labeled 110 kDa band, representing the 125I-labeled IFN-alpha receptor free of IFN-alpha. This result provides a better estimate of the apparent molecular weight of the IFN-alpha receptor, and also provides a tool for tracking the migration of the free receptor in SDS-polyacrylamide gel electrophoresis.     

Regulation of ANF receptor internalization: involvement of extracellular calcium.

Receptor mediated internalization of 125I-ANF (99-126) and the underlying mechanism was studied in PC12 cells. Phosphorylation of PC12 cell plasma membrane proteins at 0 degrees C or 37 degrees C was not altered in presence of ANF (99-126) or c-ANF (4-23). Exposure of cells to phorbol 12-myristate 13-acetate (PMA, 100 ng/ml) did not alter the endocytic rate or extent of 125I-ANF (99-126) internalization. When cells were treated with a combination of PMA and the calcium ionophore A23187, internalization was not stimulated. Incubation with A23187 (10 microM) alone decreased 125I-ANF (99-126) internalization by 22% in Ca2+ containing medium. Cell surface binding increased 10% in the presence of Ca2+ compared to Ca2+ free medium, irrespective of the presence of A23187. Ca2+ appears to play an important role in the binding of ANF to the receptor and initiation of ligand-receptor complex internalization. Activation of protein kinase C or receptor phosphorylation is not an essential step in initiating ANF receptor internalization.     

Two distinct forms of receptors for atrial natriuretic factor in bovine adrenocortical cells. Purification, ligand binding, and peptide mapping

The atrial natriuretic factor (ANF) receptor of bovine adrenal cortex was solubilized with Triton X-100 and purified by sequential chromatography on ANF-(99-126)-agarose, GTP-agarose, and wheat germ agglutinin-Sepharose. Two subtypes of ANF receptors were isolated, both of which showed specific ANF binding, whereas one of the ANF receptor subtypes also possessed significant cyclase activity. Both of the receptors showed high capacities (Bmax = 5.7-6.8 nmol/mg of protein) and high affinities (Kd = 54-68 pM) for ANF-(99-126). The cyclase-free receptor had high affinity (Ki = 150-220 pM) to C-terminal truncated ANF analogs, whereas the cyclase-containing receptor had a much weaker affinity (Ki = 10(6)-10(7) pM). When treated with dithiothreitol, the purified cyclase-containing and cyclase-free ANF receptors migrated as a single band at Mr 135,000 and 62,000, respectively, in sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purified cyclase-free receptor is not a product derived from the cyclase-containing receptor because (i) two proteins with Mr of 135,000 and 62,000 were specifically labeled with 4-azidobenzoyl 125I-ANF-(102-126) in nonsolubilized intact membranes; (ii) the truncated ANF analogs (10(4) pM) prevented the photolabeling of the 62,000-dalton protein but not that of the 135,000-dalton protein; and (iii) two-dimensional peptide mapping showed more than 90% difference between the profiles of the two purified ANF receptor subtypes. This study provides first direct evidence for the existence of two distinct ANF receptors which are different not only in their pharmacological properties but also in their primary structure.     

Demonstration of insulin-like growth factor (IGF-I and -II) receptors and binding protein in human breast cancer cell lines

The insulin like growth factors (IGFs), potent mitogens for a variety of normal and transformed cells, have been reported to be secreted by several human breast cancer cell lines (BC). We have investigated the binding characteristics of IGF-I and -II in four human BC: MCF-7, T-47D, MDA 231 and Hs578T. Binding studies in microsomal membrane preparations detected high specific binding for both IGF in all four BC studied. Cross-linking with 125I-IGF-I, followed by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) under reduced conditions, revealed the presence of an alpha subunit of apparent Mr = 130,000 in MCF-7, T-47D and MDA 213 cells. When 125I-IGF-II was cross-linked, a major band of apparent Mr = 260,000 was seen in all BC. This band was inhibited by IGF-II, but not by insulin. Cross-linking of 125I-IGF-I to conditioned media from BC demonstrated the presence of three binding proteins of apparent Mr = 45,000, 36,000 and 29,000 in all BC but T-47D, in which the 36,000 band was not seen. These data demonstrate that BC possess classical receptors for both IGF-I and -II and, furthermore, that BC produce specific binding proteins for these growth factors.     

Co-purification of an atrial natriuretic factor receptor and particulate guanylate cyclase from rat lung

An atrial natriuretic factor (ANF) receptor from rat lung was solubilized with Lubrol-PX and purified by sequential chromatographic steps on GTP-agarose, DEAE-Sephacel, phenyl-agarose, and wheat germ agglutinin-agarose. The ANF receptor was enriched 19,000-fold. The purified receptor has a binding profile and properties that correspond to the affinity and specificity found in membranes and crude detergent extracts. Polyacrylamide gel electrophoresis of the purified preparation in the presence of sodium dodecyl sulfate and dithiothreitol showed the presence of one major protein band with a molecular mass of 120,000 daltons. When purified preparations were incubated with 125I-ANF, then cross-linked with disuccinimidyl suberate, the 120,000-dalton protein was specifically radiolabeled. This high affinity binding site for ANF co-purified with particulate guanylate cyclase. Particulate guanylate cyclase was purified to a specific activity of 19 mumol cyclic GMP produced/min/mg of protein utilizing Mn-GTP as substrate. This represented a 15,000-fold purification compared to the initial lung membrane preparation with Lubrol-PX. Gel permeation high performance liquid chromatography and glycerol density gradient sedimentation studies of the purified preparation also resulted in co-migration of specific ANF binding and guanylate cyclase activities. The co-purification of these activities suggests that both ANF binding and guanylate cyclase activities reside in the same macromolecular complex. Presumably ANF binding occurs at the external membrane surface and cyclic GMP synthesis at the internal membrane surface of this transmembrane glycoprotein.     

Atrial natriuretic factor and sodium nitroprusside increase cyclic GMP in cultured rat lung fibroblasts by activating different forms of guanylate cyclase.

We used cultured rat lung fibroblasts to evaluate the role of particulate and soluble guanylate cyclase in the atrial natriuretic factor (ANF)-induced stimulation of cyclic GMP. ANF receptors were identified by binding of 125I-ANF to confluent cells at 37 degrees C. Specific ANF binding was rapid and saturable with increasing concentrations of ANF. The equilibrium dissociation constant (KD) was 0.66 +/- 0.077 nM and the Bmax. was 216 +/- 33 fmol bound/10(6) cells, which corresponds to 130,000 +/- 20,000 sites/cell. The molecular characteristics of ANF binding sites were examined by affinity cross-linking of 125I-ANF to intact cells with disuccinimidyl suberate. ANF specifically labelled two sites with molecular sizes of 66 and 130 kDa, which we have identified in other cultured cells. ANF and sodium nitroprusside produced a time- and concentration-dependent increase in intracellular cyclic GMP. An increase in cyclic GMP by ANF was detected at 1 nM, and at 100 nM an approx. 100-fold increase in cyclic GMP was observed. Nitroprusside stimulated cyclic GMP at 10 nM and at 1 mM a 500-600-fold increase in cyclic GMP occurred. The simultaneous addition of 100 nM-ANF and 10 microM-nitroprusside to cells resulted in cyclic GMP levels that were additive. ANF increased the activity of particulate guanylate cyclase by about 10-fold, but had no effect on soluble guanylate cyclase. In contrast, nitroprusside did not alter the activity of particulate guanylate cyclase, but increased the activity of soluble guanylate cyclase by 17-fold. These results demonstrate that rat lung fibroblasts contain ANF receptors and suggest that the ANF-induced stimulation of cyclic GMP is mediated entirely by particulate guanylate cyclase.