Human umbilical vein endothelial cells express high affinity receptors for factor Xa

The binding of [¹²⁵I]-factor Xa to human umbilical vein endothelial cell (HUVEC) monolayers was studied. At 7°C, [¹²⁵I]-factor Xa bound to a single class of binding sites with a dissociation constant value of 6.6 ± 0.8 nM and a binding site density of 57,460 ± 5,200 sites/cell (n = 3). Association and dissociation kinetics were of a pseudo-first order and gave association and dissociation rate constant values of 0.15 × 10⁶ M^-1 s^-1 and 4.0 × 10^-4 s^-1, respectively. [¹²⁵I]-factor Xa binding was inhibited by factor Xa but was not affected by factor X, thrombin or monoclonal antibodies against factor V, antithrombin-III or tissue factor pathway inhibitor (TFPI) but was inhibited by an antibody specific for the effector cell protease receptor-1 (EPR-1), a well-known receptor of factor Xa on various cell types. [¹²⁵I]-factor Xa binding to HUVEC was not affected by various inhibitors of factor Xa such as DX 9065, pentasaccharide-antithrombin-III or TFPI. Factor Xa increased intracellular free calcium levels and phosphoinositide turnover in endothelial cells and, when added to HUVEC in culture, factor Xa was a potent mitogen, stimulating an increase in cell number at a 0.3 to 100 nM concentration. HUVEC-bound factor Xa promoted prothrombin activation in the presence of factor Va only. This effect was inhibited by both indirect and direct inhibitors of factor Xa. These findings indicate that HUVEC express functional high affinity receptors for factor Xa, related to EPR-1, which may be of importance in the regulation of coagulation and homeostasis of the vascular wall. J. Cell. Physiol. 172:36–43, 1997. © 1997 Wiley-Liss, Inc.     

Platelet-derived growth factor receptors form a high affinity state in membrane preparations. Kinetics and affinity cross-linking studies

The specific binding of 125I-PDGF (platelet-derived growth factor) to intact fibroblasts becomes relatively nondissociable during incubation at 37 degrees C. To characterize the interaction of PDGF with its receptors under conditions in which there is no receptor internalization, we have studied the binding of 125I-PDGF to membrane preparations derived from mouse 3T3 cells and rat liver. The binding sites had the affinity and specificity characteristics expected of PDGF receptors. At 37 degrees C (but not at 4 degrees C) the specific binding of 125I-PDGF to membranes gradually became nondissociable as assessed by either dilution or by addition of excess unlabeled PDGF. This tight binding was not due to a covalent interaction since the polyanionic compound suramin readily dissociated specifically bound 125I-PDGF. This property of suramin was used to expose rat liver PDGF receptors which were occupied by endogenous PDGF. Affinity cross-linking studies demonstrated that the formation of the nondissociable state of 125I-PDGF binding was associated with the binding of 125I-PDGF to a 160,000-dalton protein and to a 110,000-dalton species. The cross-linked binding sites could be adsorbed to wheat germ agglutinin and to anion exchange resins. The isoelectric point of both cross-linked species determined by two-dimensional gel electrophoresis was approximately 4.7. These data demonstrate that in membrane preparations, PDGF binds to an anionic 160,000-dalton glycoprotein which is likely to be the receptor. A high affinity state of PDGF binding, which is formed rapidly at 37 degrees C, can be dissociated by suramin.     

Specific, high affinity relaxin-like factor receptors.

The relaxin-like factor (RLF) is a circulating hormone that binds to specific membrane-bound uterine receptors in the mouse. Mono-iodinated RLF tracers were produced and characterized specifically to study the properties of the RLF receptor. The tracers bound to the RLF receptor in uterine crude membrane preparations with high affinity (73 nM for (125)I-Tyr(A9) RLF and 90 nM for (125)I-Tyr(A26) RLF) as determined by Scatchard analysis. The specificity of binding was confirmed by chemical cross-linking experiments. Binding of (125)I-Tyr(A9) RLF to the putative receptor was inhibited in the presence of a 640-fold excess of unlabeled human RLF but not by the same excess of human relaxin. SDS-gel electrophoresis of the RLF-receptor complex revealed a molecular mass of >200 kDa, which remained unchanged upon reduction. The size and the lack of subunit structure of the receptor is similar to the features reported for the relaxin receptor. In this regard both, the RLF and the relaxin receptor are different from the insulin- and the insulin-like growth factor-type 1 receptors. This observation supports the relaxin-likeness of this new factor not only toward potential target tissues but also as regards receptor features.     

Platelet-derived growth factor-BB and basic fibroblast growth factor directly interact in vitro with high affinity.

Platelet-derived growth factor-BB (PDGF-BB) and basic fibroblast growth factor (bFGF) are potent growth factors active on many cell types. The present study indicates that they directly interact in vitro. The interaction was investigated with overlay experiments, surface plasmon resonance experiments, and solid-phase immunoassays by immobilizing one factor or the other and by steady-state fluorescence analysis. The interaction observed was specific, dose-dependent, and saturable, and the bFGF/PDGF-BB binding stoichiometry was found to be 2:1. K(D)(1) for the first step equilibrium and the overall K(D) values were found to be in the nanomolar and in the picomolar range, respectively. Basic FGF/PDGF-BB interaction was strongly reduced as a function of time of PDGF-BB proteolysis. Furthermore, docking analysis suggested that the PDGF-BB region interacting with bFGF may overlap, at least in part, with the PDGF-BB receptor-binding site. This hypothesis was supported by surface plasmon resonance experiments showing that an anti-PDGF-BB antibody, known to inhibit PDGF-BB binding with its receptor, strongly reduced bFGF/PDGF-BB interaction, whereas a control antibody was ineffective. According to these data, the observed bFGF.PDGF-BB complex formation might explain, at least in part, previous observations showing that PDGF-BB chemotactic and mitogenic activity on smooth muscle cells are strongly inhibited in the presence of bFGF.     

Collagen-bound von Willebrand factor has reduced affinity for factor VIII

von Willebrand factor (vWf) is a multimeric adhesive glycoprotein that serves as a carrier for factor VIII in plasma. Although each vWf subunit displays a high affinity binding site for factor VIII in vitro, in plasma, only 2% of the vWf sites for factor VIII are occupied. We investigated whether interaction of plasma proteins with vWf or adhesion of vWf to collagen may alter the affinity or availability of factor VIII-binding sites on vWf. When vWf was immobilized on agarose-linked monoclonal antibody, factor VIII bound to vWf with high affinity, and neither the affinity nor binding site availability was influenced by the presence of 50% plasma. Therefore, plasma proteins do not alter the affinity or availability of factor VIII-binding sites. In contrast, when vWf was immobilized on agarose-linked collagen, its affinity for factor VIII was reduced 4-fold, with KD increasing from 0.9 to 3.8 nM. However, one factor VIII-binding site remained available on each vWf subunit. A comparable reduction in affinity for factor VIII was observed when vWf was a constituent of the subendothelial cell matrix and when it was bound to purified type VI collagen. In parallel with the decreased affinity for factor VIII, collagen-bound vWf displayed a 6-fold lower affinity for monoclonal antibody W5-6A, with an epitope composed of residues 78-96 within the factor VIII-binding motif of vWf. We conclude that collagen induces a conformational change within the factor VIII-binding motif of vWf that lowers the affinity for factor VIII.     

Platelet-derived growth factor. III. Identification of a platelet-derived growth factor receptor by affinity labeling

Two homobifunctional cross-linking reagents have been used to cross-link 125I-platelet-derived growth factor (PDGF) to a cell surface component with an approximate Mr = 164,000 that has many characteristics of a specific PDGF receptor. Excess unlabeled PDGF competed for labeling of this component, while high concentrations of fibroblast growth factor, insulin, epidermal growth factor, low density lipoprotein or acetylated low density lipoprotein had no effect. Preincubation of cells with 125I-PDGF at 37 degrees C reduced specific 125I-PDGF binding (down regulation) and produced a parallel decrease in the amount of the 164,000-dalton receptor available for labeling. The 164,000-dalton component contains at least some protein that is accessible to trypsin in the extracellular medium. A complex of comparable Mr is seen on all PDGF-responsive cell types examined, but not on a nonresponsive cell type. 125I-PDGF does not become covalently cross-linked to this component in the absence of a cross-linking reagent.     

Platelet-derived growth factor.

Platelet-derived growth factor (PDGF) is a potent activator for cells of mesenchymal origin. Two different PDGF chains termed A and B encoded by different genes have been identified leading to three different PDGF isoforms, the AA and BB homodimers and the AB heterodimer. All three forms have been observed in vivo and possess biological activity in vitro with the AA homodimer being the poorest cellular mitogen. The availability of highly purified recombinant PDGF isoforms was the initial basis for comparative studies in order to specify the different spectra of activity of the various PDGF species. This review is particularly focused on the AB heterodimer as from the standpoint of heterologous gene expression, this species is the one with the highest demands concerning expression and purification protocols. This explains the fact that, in comparison to PDGF-BB, only very limited data on the in vivo application of PDGF-AB are available so far.     

Human large granular lymphocytes express high affinity receptors for murine monoclonal antibodies of the IgG3 subclass

We have evaluated the ability of murine monoclonal antibodies to mediate antibody-dependent cell-mediated cytotoxicity (ADCC) by human lymphoid cells. Purified large granular lymphocytes (LGL) and interleukin 2-dependent cloned LGL lines having a CD2+/CD16+/CD3- phenotype were tested as effector cells in an ADCC assay by using a family of IgG isotype switch variant anti-Thy-1.1 antibodies against 51Cr-labeled Thy-1.1+ murine SL2 thymoma target cells, a system in which human cells have no spontaneous cytotoxicity. Cytotoxicity was greatest when using the IgG3, followed in rank order by the IgG2a and IgG2b. No cytotoxicity was observed with the IgG1 antibody. Because the antigen-binding regions of the antibodies are identical, the differences in cytotoxicity directly reflect the relative affinity of LGL Fc receptors for each antibody isotype.     

Characterization of specific high affinity receptors for human tumor necrosis factor on mouse fibroblasts

Mouse L-929 fibroblasts, an established line of cells, are very sensitive to lysis by human lymphotoxin (hTNF-beta). Specific binding of a highly purified preparation of hTNF-beta to these cells was examined. Recombinant DNA-derived hTNF-beta was radiolabeled with [3H]propionyl succinimidate at the lysine residues of the molecule to a specific activity of 200 microCi/nmol of protein. [3H]hTNF-beta was purified by high performance gel permeation chromatography and the major fraction was found to be monomeric by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The labeled hTNF-beta was fully active in causing lysis of L-929 fibroblasts and bound specifically to high affinity binding sites on these cells. Scatchard analysis of the binding data revealed the presence of a single class of high affinity receptors with an apparent Kd of 6.7 X 10(-11) M and a capacity of 3200 binding sites/cell. Unlabeled recombinant DNA-derived hTNF-beta was found to be approximately 5-fold more effective competitive inhibitor of binding than the natural hTNF-beta. The binding of hTNF-beta to these mouse fibroblasts was also correlated with the ultimate cell lysis. Neutralizing polyclonal antibodies to hTNF-beta efficiently inhibited the binding of [3H]hTNF-beta to the cells. We conclude that the specific high affinity binding site is the receptor for hTNF-beta and may be involved in lysis of cells.     

Design of high affinity cyclic pentapeptide ligands for kappa-opioid receptors.

Using results from our previously reported cyclic opioid peptide series and reliable models for mu-, delta-, and kappa-opioid receptors (MOR, DOR, and KOR, respectively) and their complexes with peptide ligands, we have designed and synthesized a series of cyclic pentapeptides of structure Tyr-C[D-Cys-Phe-Phe-X]-NH2, cyclized via disulfide, methylene, or ethylene dithioethers, and where X = D- or L-Cys; or D- or L-penicillamine (Pen; beta,beta-dimethylcysteine). Determination of binding affinities to MOR, DOR, and KOR revealed that members of this series with X = D- or L-Cys display KOR affinities in the low nanomolar range, demonstrating that a 'DPDPE-like' tetrapeptide scaffold is suitable not only for DOR and MOR ligands, but also for KOR ligands. The cyclic pentapeptides reported here are not, however, selective for KOR, rather they display significant selectivity and high affinity for MOR. Indeed, peptide 8, Tyr-C[D-Cys-Phe-Phe-Cys]-NH2-cyclized via a methylene dithioether, shows picomolar binding affinity for MOR ( = 16 pm) with more than 100-fold selectivity for MOR vs. DOR or KOR, and may be of interest as a high affinity, high selectivity MOR ligand. Nonetheless, the high affinity KOR peptides in this series represent excellent leads for the development of structurally related, selective KOR ligands designed to exploit structurally specific features of KOR, MOR, and DOR.     

Syntheses of novel high affinity ligands for opioid receptors

A series of novel high affinity opioid receptor ligands have been made whereby the phenolic-OH group of nalbuphine, naltrexone methiodide, 6-desoxonaltrexone, hydromorphone and naltrindole was replaced by a carboxamido group and the furan ring was opened to the corresponding 4-OH derivatives. These furan ring ‘open’ derivatives display very high affinity for μ and κ receptors and much less affinity for δ. The observation that these target compounds have much higher receptor affinity than the corresponding ring ‘closed’ carboxamides significantly strengthens our underlying pharmacophore hypothesis concerning the bioactive conformation of the carboxamide group.     

Platelet-derived endothelial cell growth factor.

Platelet-derived endothelial cell growth factor (PD-ECGF) is a 45 kDa single chain polypeptide which stimulates endothelial cell growth and chemotaxis in vitro and angiogenesis in vivo. Analysis of a full length PD-ECGF cDNA revealed an open reading frame coding for 482 amino acids without homology to other known proteins. No signal sequence was observed, and analysis of the biosynthesis and processing of PD-ECGF in a thyroid carcinoma cell line revealed that PD-ECGF is released only very slowly. PD-ECGF becomes covalently associated with nucleotide triphosphates (e.g., ATP) in vivo, as well as in vitro. The physiological significance of this posttranslational modification remains to be elucidated. The tissue distribution and target cell specificity of PD-ECGF suggest roles in angiogenesis (e.g., during wound healing and in the developing placenta), as well as in the maintenance of the integrity of the endothelial cell lining of large vessels.     

Characterization of two high affinity human interleukin-8 receptors.

Interleukin 8 (IL-8) and melanocyte growth-stimulatory activity/gro (MGSA) are structurally related proinflammatory cytokines that are chemoattractants and activators of neutrophils. Recently, cDNA clones encoding a high affinity IL-8 receptor (IL-8R-A) and a "low affinity" IL-8 receptor (IL-8R-B) have been isolated from human cDNA libraries. These two receptors have 77% amino acid identity and are members of the G protein-coupled superfamily of receptors with seven transmembrane domains. We have expressed these two receptors in mammalian cells and find that in this system both receptors bind IL-8 with high affinity (Kd approximately 2 nM). The receptor affinities differ for MGSA, however. IL-8R-A binds MGSA with low affinity (Kd approximately 450 nM); IL-8R-B binds MGSA with high affinity (Kd approximately 2 nM). The transfected cells respond to ligand binding with a transient increase in the intracellular Ca2+ concentration. A Ca2+ response is found for IL-8R-A following the binding of IL-8; no response is found for MGSA. A Ca2+ response for IL-8R-B follows the binding of both ligands. Blot hybridization with oligonucleotide probes specific for the two receptors shows that mRNA for both receptors is present in human neutrophils. Analysis of IL-8 and MGSA binding data on neutrophils as well as Ca2+ response and desensitization data shows that the presence of these two IL-8 receptors on the cell surface can account for the profile of these two ligands on neutrophils.     

Signal transduction by epidermal growth factor occurs through the subclass of high affinity receptors

Many cell types display two classes of epidermal growth factor receptor (EGFR) as judged from EGF binding studies; i.e., a major class of low affinity EGFR and a minor class of high affinity EGFR. We have studied their respective contribution to the cascade of events elicited by EGF in human A431 carcinoma cells, using anti-EGFR mAb 2E9. This antibody specifically blocks EGF binding to low affinity EGFR, without activating receptors in intact cells, and thus enables us to study the effects of exclusive EGF binding to high affinity EGFR. We show that blocking of low affinity EGFR by mAb 2E9 has almost no effect on the activation of the receptor protein-tyrosine kinase by EGF, suggesting that EGFR kinase activation occurs exclusively through the subclass of high affinity EGFR (5-10%). In addition, we provide evidence that high affinity EGFR exists both in monomeric and dimeric forms, and that cross-phosphorylation of low affinity EGFR by high affinity EGFR may take place in dimers of both receptor types. We demonstrate that the following early cellular response to EGF are also unimpaired in the presence of mAb 2E9: (a) inositol phosphate production, (b) release of Ca2+ from intracellular stores, (c) rise in intracellular pH, (d) phosphorylation of EGF on threonine residue 654, (e) induction of c-fos gene expression, and (f) alteration in cell morphology. As possible nonspecific side effects, we observed that the EGF induced Ca2+ influx and fluid-phase pinocytosis were inhibited in A431 cells in the presence of mAb 2E9. We conclude, therefore, that the activation of the EGFR signal transduction cascade can occur completely through exclusive binding of EGF to the subclass of high affinity EGFR.     

Macrophages express functional receptors for calcitonin-gene-related peptide.

The present study was designed to investigate whether non-activated macrophages express calcitonin (CT) or calcitonin-gene-related peptide (CGRP) receptors. To this end, we first analyzed whether CT and CGRP induce a cAMP accumulation in macrophages. Macrophages were treated for 2 min with increasing concentrations of either CT or CGRP in the presence or absence of IBMX. A dose-dependent cAMP accumulation was measured in response to CGRP with a half-maximal effect attained with 1 nM CGRP. CT failed at all doses to induce an accumulation of cAMP. The effects of CT and CGRP on the activation of the Na-H exchanger were next assessed by spectrofluorometry by using the pH-sensitive dye 2,7 biscarboxyethyl-5(6)-carboxyfluorescein (BCECF). Steady-state pHi of macrophages in a 7.4, HCO3-free solution (HEPES-buffered) was 7.04 +/- 0.08 (n = 22). pHi recovery following an NH4+/NH3 acid load was inhibited by the removal of Na+ or by the addition of the amiloride analog EIPA; therefore recovery is dependent on Na-H exchange activity. CT had no effect on steady-state pHi but CGRP increased pHi in a dose-dependent fashion (10(-12) to 10(-6) M). The pHi change induced by CGRP was due to the stimulation of the Na-H exchanger as CGRP enhanced the rate of recovery (dpHi/dt) from an acid load from 45.3 to 77.2 microMs-1 (n = 8, P less than 0.002) and was completely blocked by EIPA. These data indicate that CGRP both enhances the activity of the Na-H exchanger and increases intracellular cAMP, thus demonstrating that macrophages express functional CGRP receptors.     

Immobilized insulin for high capacity affinity chromatography of insulin receptors

Insulin receptors can be purified by affinity chromatography on immobilized insulin, but published methods all suffer from a rather low capacity of the affinity columns. By using insulin that has been protected in positions A1 and B29, we have been able to couple the insulin selectively through the B1 amino group to divinyl sulfone-activated agarose. The N terminus of the B-chain is the most innocuous site as far as receptor-insulin interaction is concerned, and this strategy allowed us to make affinity columns with capacities of several milligrams of receptor/ml of resin. The receptor used was the soluble ectodomain of the human insulin receptor, produced in transfected baby hamster kidney cells. The column preparation and the elution conditions are described in detail, as the efficacy of the purification depends strongly on both. The purity of the eluted receptors was so high that quantitative amino acid analysis fitted with theory. The molar absorption coefficient at 278.5 nm was 296,000 M-1 cm-1. Finally, it could be unequivocally established that the soluble receptor binds two molecules of insulin with equal affinity.     

Platelet-derived growth factor in human malignancy.

Platelet-derived growth factor (PDGF) was first implicated in the process of transformation when one of its peptide chains was found to be homologous to the viral sis oncogene (v-sis). Since that time, there have been multiple demonstrations of the transforming activity of v-sis in fibroblasts. Because of the near identity of the v-sis protein with the PDGF B chain, v-sis is thought to transform through an autocrine stimulatory mechanism of cell growth. Consistent with this view are studies which demonstrate inhibition of v-sis-mediated transformation by anti-PDGF antibodies. Expression of the cellular sis gene (c-sis) and its receptors, and secretion of PDGF-like factors have been demonstrated in many types of human malignant cells. Nevertheless, a causative role for c-sis in inducing or maintaining the transformed phenotype in human malignancies remains to be established. There are significant differences in structure between v-sis and c-sis. Studies of transforming ability have yielded conflicting results in transfection models, depending on the transfected vector and target cell type utilized. While there is compelling evidence for the involvement of PDGF in an autocrine growth mechanism in transformed fibroblasts, the evidence in human epithelial tumor types is less convincing because PDGF receptors are usually not detectable on the cell surface. The recent demonstration of intracellular co-localization of active PDGF precursors and PDGF receptors, however, supports the existence of an internal autocrine pathway independent of PDGF secretion. Further investigation of such a mechanism in de novo human malignancies is warranted to establish the role of PDGF in the development of these neoplasms.     

Evidence for two distinct phosphorylation pathways activated by high affinity immunoglobulin E receptors.

The high affinity receptor for immunoglobulin (Ig) E on mast cells, along with the antigen receptors on T and B cells and Fc receptors for IgG, belongs to a class of receptors which lack intrinsic kinase activity, but activate non-receptor tyrosine and serine/threonine kinases. Receptor engagement triggers a chain of signaling events leading from protein phosphorylation to activation of phosphatidylinositol-specific phospholipase C, an increase in intracellular calcium levels, and ultimately the activation of more specialized functions. IgE receptor disengagement leads to reversal of phosphorylation by undefined phosphatases and to inhibition of activation pathways. Here we show that phenylarsine oxide, a chemical which reacts with thiol groups and has been reported to inhibit tyrosine phosphatases, uncouples the IgE receptor-mediated phosphorylation signal from activation of phosphatidyl inositol metabolism, the increase in intracellular calcium levels, and serotonin release. Phenylarsine oxide inhibits neither the kinases (tyrosine and serine/threonine) phosphorylating the receptor and various cellular substrates nor, unexpectedly, the phosphatases responsible for the dephosphorylation following receptor disengagement. By contrast, it abolishes the receptor-mediated phosphorylation of phospholipase C-gamma 1, but not phospholipase C activity in vitro. Therefore the phosphorylation and activation of phospholipase C likely requires a phenylarsine oxide-sensitive element. Receptor aggregation thus activates at least two distinct phosphorylation pathways: a phenylarsine oxide-insensitive pathway leading to phosphorylation/dephosphorylation of the receptor and of various substrates and a sensitive pathway leading to phospholipase C-gamma 1 phosphorylation.     

Molecular identification of high and low affinity receptors for nicotinic acid

Nicotinic acid has been used clinically for over 40 years in the treatment of dyslipidemia producing a desirable normalization of a range of cardiovascular risk factors, including a marked elevation of high density lipoprotein and a reduction in mortality. The precise mechanism of action of nicotinic acid is unknown, although it is believed that activation of a G(i)-G protein-coupled receptor may contribute. Utilizing available information on the tissue distribution of nicotinic acid receptors, we identified candidate orphan receptors. The selected orphan receptors were screened for responses to nicotinic acid, in an assay for activation of G(i)-G proteins. Here we describe the identification of the G protein-coupled receptor HM74 as a low affinity receptor for nicotinic acid. We then describe the subsequent identification of HM74A in follow-up bioinformatics searches and demonstrate that it acts as a high affinity receptor for nicotinic acid and other compounds with related pharmacology. The discovery of HM74A as a molecular target for nicotinic acid may facilitate the discovery of superior drug molecules to treat dyslipidemia.