Concurrent signaling from Galphaq- and Galphai-coupled pathways is essential for agonist-induced alphavbeta3 activation on human platelets.

The integrin alphavbeta3 mediates platelet adhesion to the matrix protein osteopontin and likely is the predominant integrin mediating platelet adhesion to the matrix protein vitronectin. To address the mechanism that regulates alphavbeta3 activity in platelets, we measured the effect of the P2Y1 antagonist adenosine 3'-phosphate-5'-phosphate (A3P5P) and the P2Y12 antagonist AR-C66096 on ADP-stimulated platelet adhesion to osteopontin and vitronectin. Each antagonist completely inhibited platelet adhesion, implying that concurrent stimulation of P2Y1 and P2Y12 was required to activate alphavbeta3. The reducing agent dithiothreitol and Mn2+ also induced platelet adhesion to osteopontin, but did so without stimulating platelet activation. Thus, these data suggest that ADP stimulation regulates alphavbeta3 activity by perturbing the conformation of its extracellular domain. The actin polymerization inhibitors cytochalasin D and latrunculin A also induced platelet adhesion to osteopontin and vitronectin. Thus, alphavbeta3 activity in resting platelets appears to be constrained by the platelet cytoskeleton. Moreover, the effect of these agents was inhibited by A3P5P and AR-C66096 at micromolar and subnanomolar concentrations, respectively, suggesting that subthreshold platelet stimulation by ADP was required. Our data suggest that signals from both Galphaq- and Galphai-coupled receptors converge to release cytoskeletal constraints on alphavbeta3. We propose that the release of cytoskeletal constraints and a concurrent increase in affinity for ligands is responsible for alphavbeta3-mediated platelet adhesion.

Effect of the Pl(A2) alloantigen on the function of beta(3)-integrins in platelets.

The polymorphism responsible for the Pl(A2) alloantigen on the beta(3)-component of beta(3)-containing integrins is reported to be a risk factor for coronary thrombosis. This study examined the effect of Pl(A2) on the function of beta(3)-integrins using platelets from subjects homozygous and heterozygous for Pl(A1) and Pl(A2). There was overlap in the distribution of the dissociation constant (K(d)) and maximum fibrinogen binding (B(max)) values for fibrinogen binding to alpha(IIb)beta(3) on platelets from Pl(A1) and Pl(A2) homozygotes and Pl(A1)/Pl(A2) heterozygotes. However, whereas there was no statistical difference in these values for the Pl(A1) homozygotes and Pl(A2) heterozygotes, the K(d) for the Pl(A2) homozygotes was significantly lower than that for the Pl(A1)/Pl(A2) heterozygotes, but was not statistically different from that for the Pl(A1) homozygotes. No differences were detected in ADP sensitivity between platelets from Pl(A1) homozygotes and Pl(A1)/Pl(A2) heterozygotes, in the IC(50) for RGDS inhibition of fibrinogen binding to alpha(IIb)beta(3), in the alpha(v)beta(3)-mediated adhesion of platelets to osteopontin and vitronectin, and in the phorbol ester-stimulated adhesion to fibrinogen of B lymphocytes expressing alpha(IIb)beta(3) containing either the Pl(A1) or the Pl(A2) polymorphism. Finally, no differential effects of Pl(A2) on turbidometric platelet aggregation, platelet secretion, or platelet thrombus formation were found as measured in the PFA-100. Because no differences were detected in the ability of beta(3)-integrins to interact with ligands based on the presence or absence of the Pl(A2) polymorphism, the results suggest that factors unrelated to beta(3)-integrin function may account for the reported association of the Pl(A2) allele with coronary thrombosis.

RGD-containing peptides inhibit fibrinogen binding to platelet alpha(IIb)beta3 by inducing an allosteric change in the amino-terminal portion of alpha(IIb).

To determine the molecular basis for the insensitivity of rat alpha(IIb)beta(3) to inhibition by RGD-containing peptides, hybrids of human and rat alpha(IIb)beta(3) and chimeras of alpha(IIb)beta(3) in which alpha(IIb) was composed of portions of human and rat alpha(IIb) were expressed in Chinese hamster ovary cells and B lymphocytes, and the ability of the tetrapeptide RGDS to inhibit fibrinogen binding to the various forms of alpha(IIb)beta(3) was measured. These measurements indicated that sequences regulating the sensitivity of alpha(IIb)beta(3) to RGDS are located in the seven amino-terminal repeats of alpha(IIb). Moreover, replacing the first three or four (but not the first two) repeats of rat alpha(IIb) with the corresponding human sequences enhanced sensitivity to RGDS, whereas replacing the first two or three repeats of human alpha(IIb) with the corresponding rat sequences had little or no effect. Nevertheless, RGDS bound to Chinese hamster ovary cells expressing alpha(IIb)beta(3) regardless whether the alpha(IIb) in the heterodimers was human, rat, or a rat-human chimera. These results indicate that the sequences determining the sensitivity of alpha(IIb)beta(3) to RGD-containing peptides are located in the third and fourth amino-terminal repeats of alpha(IIb). Because RGDS binds to both human and rat alpha(IIb)beta(3), the results suggest that differences in RGDS sensitivity result from differences in the allosteric changes induced in these repeats following RGDS binding.

Stromal-derived factor 1 and thrombopoietin regulate distinct aspects of human megakaryopoiesis.

The role of the chemokine binding stromal-derived factor 1 (SDF-1) in normal human megakaryopoiesis at the cellular and molecular levels and its comparison with that of thrombopoietin (TPO) have not been determined. In this study it was found that SDF-1, unlike TPO, does not stimulate alpha(IIb)beta(3)(+) cell proliferation or differentiation or have an antiapoptotic effect. However, it does induce chemotaxis, trans-Matrigel migration, and secretion of matrix metalloproteinase 9 (MMP-9) and vascular endothelial growth factor (VEGF) by these cells, and both SDF-1 and TPO increase the adhesion of alpha(IIb)beta(3)(+) cells to fibrinogen and vitronectin. Investigating the intracellular signaling pathways induced by SDF-1 and TPO revealed some overlapping patterns of protein phosphorylation/activation (mitogen-activated protein kinase [MAPK] p42/44, MAPK p38, and AKT [protein kinase B]) and some that were distinct for TPO (eg, JAK-STAT) and for SDF-1 (eg, NF-kappa B). It was also found that though inhibition of phosphatidyl-inositol 3-kinase (PI-3K) by LY294002 in alpha(IIb)beta(3)(+) cells induced apoptosis and inhibited chemotaxis adhesion and the secretion of MMP-9 and VEGF, the inhibition of MAPK p42/44 (by the MEK inhibitor U0126) had no effect on the survival, proliferation, and migration of these cells. Hence, it is suggested that the proliferative effect of TPO is more related to activation of the JAK-STAT pathway (unique to TPO), and the PI-3K-AKT axis is differentially involved in TPO- and SDF-1-dependent signaling. Accordingly, PI-3K is involved in TPO-mediated inhibition of apoptosis, TPO- and SDF-1-regulated adhesion to fibrinogen and vitronectin, and SDF-1-mediated migration. This study expands the understanding of the role of SDF-1 and TPO in normal human megakaryopoiesis and indicates the molecular basis of the observed differences in cellular responses. (Blood. 2000;96:4142-4151)

The activation state of alphavbeta 3 regulates platelet and lymphocyte adhesion to intact and thrombin-cleaved osteopontin.

Cleavage of osteopontin by thrombin has been reported to enhance cell adhesion. We asked whether thrombin could regulate the alpha(v)beta(3)-mediated adhesion of platelets and B lymphocytes to this substrate. Although there was no difference in the extent or the avidity of thrombin- and ADP-stimulated platelet adhesion to intact or thrombin-cleaved human osteopontin, both the extent and avidity of phorbol ester-stimulated B cell adhesion to thrombin-cleaved osteopontin was significantly increased. Thus, these data suggest that the ability of alpha(v)beta(3) to recognize osteopontin can be differentially regulated in a cell-specific manner. To localize the alpha(v)beta(3) binding site on osteopontin, we measured cell adhesion to the two thrombin cleavage products of osteopontin and to a series of nested RGD-containing osteopontin peptides cross-linked to albumin. Whereas ADP-stimulated platelets adhered to the amino-terminal but not the carboxyl-terminal osteopontin fragment and to the osteopontin peptide RGDSVVYGLR, phorbol ester-stimulated B cells did not adhere to this peptide, although they did so in the presence of 1 mm Mn(2+). Thus, our data confirm that thrombin cleavage enhances the accessibility of the binding motif for alpha(v)beta(3) on osteopontin, but this enhancement is also a function of the activation state of alpha(v)beta(3). Moreover, they indicate that the sequence RGDSVVYGLR contains sufficient information to specify activation-dependent alpha(v)beta(3)-mediated platelet and lymphocyte adhesion.

A naturally occurring mutation near the amino terminus of alphaIIb defines a new region involved in ligand binding to alphaIIbbeta3.

Decreased expression of functional alphaIIbbeta3 complexes on the platelet surface produces Glanzmann thrombasthenia. We have identified mutations of alphaIIb(P145) in 3 ethnically distinct families affected by Glanzmann thrombasthenia. Affected Mennonite and Dutch patients were homozygous and doubly heterozygous, respectively, for a P(145)A substitution, whereas a Chinese patient was doubly heterozygous for a P(145)L substitution. The mutations affect expression levels of surface alphaIIbbeta3 receptors on their platelets, which was confirmed by co-transfection of alphaIIb(P145A) and beta3 cDNA constructs in COS-1 cells. Each mutation also impaired the ability of alphaIIbbeta3 on affected platelets to interact with ligands. Moreover, when alphaIIb(P145A) and beta3 were stably coexpressed in Chinese hamster ovary cells, alphaIIbbeta3 was readily detected on the cell surface, but the cells were unable to adhere to immobilized fibrinogen or to bind soluble fluorescein isothiocyanate-fibrinogen after alphaIIbbeta3 activation by the activating monoclonal antibody PT25-2. Nonetheless, incubating affected platelets with the peptide LSARLAF, which binds to alphaIIb, induced PF4 secretion, indicating that the mutant alphaIIbbeta3 retained the ability to mediate outside-in signaling. These studies indicate that mutations involving alphaIIb(P145 )impair surface expression of alphaIIbbeta3 and that the alphaIIb(P145A) mutation abrogates ligand binding to the activated integrin. A comparative analysis of other alphaIIb mutations with a similar phenotype suggests that these mutations may cluster into a single region on the surface of the alphaIIb and may define a domain influencing ligand binding. (Blood. 2000;95:180188)

The platelet cytoskeleton regulates the affinity of the integrin alpha(IIb)beta(3) for fibrinogen.

Agonist-generated inside-out signals enable the platelet integrin alpha(IIb)beta(3) to bind soluble ligands such as fibrinogen. We found that inhibiting actin polymerization in unstimulated platelets with cytochalasin D or latrunculin A mimics the effects of platelet agonists by inducing fibrinogen binding to alpha(IIb)beta(3). By contrast, stabilizing actin filaments with jasplakinolide prevented cytochalasin D-, latrunculin A-, and ADP-induced fibrinogen binding. Cytochalasin D- and latrunculin A-induced fibrinogen was inhibited by ADP scavengers, suggesting that subthreshold concentrations of ADP provided the stimulus for the actin filament turnover required to see cytochalasin D and latrunculin A effects. Gelsolin, which severs actin filaments, is activated by calcium, whereas the actin disassembly factor cofilin is inhibited by serine phosphorylation. Consistent with a role for these factors in regulating alpha(IIb)beta(3) function, cytochalasin D- and latrunculin A-induced fibrinogen binding was inhibited by the intracellular calcium chelators 1,2-bis(2-aminophenoxy)ethane-N,N,N', N'-tetraacetic acid acetoxymethyl ester and EGTA acetoxymethyl ester and the Ser/Thr phosphatase inhibitors okadaic acid and calyculin A. Our results suggest that the actin cytoskeleton in unstimulated platelets constrains alpha(IIb)beta(3) in a low affinity state. We propose that agonist-stimulated increases in platelet cytosolic calcium initiate actin filament turnover. Increased actin filament turnover then relieves cytoskeletal constraints on alpha(IIb)beta(3), allowing it to assume the high affinity conformation required for soluble ligand binding.

Regulation of alphaIIb beta3 function in human B lymphocytes.

We studied the function of the platelet integrin alphaIIb beta3 using a B lymphocyte model in which alphaIIb beta3 can be induced to interact with fibrinogen using phorbol myristate acetate (PMA). To determine whether a G protein-coupled receptor could also activate alphaIIb beta3 in lymphocytes, we coexpressed the human formyl peptide receptor (fPR) and alphaIIb beta3, finding that the fPR agonist formyl Met-Leu-Phe (fMLP)-stimulated lymphocyte adherence to immobilized fibrinogen and binding of soluble fibrinogen to the lymphocyte surface. The response to fMLP, but not PMA, was abrogated by pertussis toxin, indicating that the fPR was coupled to the G-protein Galphai, whereas the protein kinase C inhibitor bisindolylmaleimide I inhibited the response to both fMLP and PMA, indicating that signaling from the fPR included protein kinase C. On the other hand, the tyrosine kinase inhibitor genistein, the Syk inhibitor piceatannol, and the RhoA inhibitor C3 exoenzyme had no effect, implying that neither tyrosine phosphorylation nor the GTPase RhoA were involved. Furthermore, whereas micromolar concentrations of cytochalasin D inhibited the PMA-stimulated interaction of alphaIIb beta3 with fibrinogen, nanomolar concentrations actually induced fibrinogen binding to unstimulated cells. Our studies demonstrate that alphaIIb beta3 expressed in B lymphocytes can be activated by a physiologic agonist and outline an activating pathway that includes Galphai, protein kinase C, and the actin cytoskeleton.

A Leu117-->Trp mutation within the RGD-peptide cross-linking region of beta3 results in Glanzmann thrombasthenia by preventing alphaIIb beta3 export to the platelet surface.

We report a case of Glanzmann thrombasthenia in a Pakistani child whose platelets express less than 10% of the normal amount of alphaIIb beta3 on their surface. Single-stranded conformation polymorphism analysis of the exons of the patient's alphaIIb and beta3 genes showed an abnormality in exon 4 of the beta3 gene. Direct sequence analysis showed that the patient was homozygous for a T --> G nucleotide substitution in this exon, resulting in the replacement of a highly conserved Leu at position 117 with Trp. Heterologous expression of alphaIIb beta3 containing the beta3 mutation in COS-1 cells confirmed the pathogenicity of the Leu117 --> Trp substitution and showed that it resulted in the intracellular retention of malfolded alphaIIb beta3 heterodimers. Additional site-directed mutagenesis at position 117 indicated that, although the smaller hydrophobic amino acid Val could be substituted for the wild-type Leu, the larger hydrophobic amino acids Trp and Phe or the charged amino acids Asp and Lys were not tolerated. These studies indicate that Leu117 in beta3 plays a critical role in attaining the correct folded conformation of alphaIIb beta3. These studies also suggest that the hydrophobic side chain of Leu117 is likely folded into the interior of beta3, where it serves to stabilize internal packing of the protein and determines its overall shape.

Agonist-activated alphavbeta3 on platelets and lymphocytes binds to the matrix protein osteopontin.

The phosphorylated acidic glycoprotein osteopontin is present in the extracellular matrix of atherosclerotic plaques and the wall of injured but not normal arteries. To determine if osteopontin could serve as a substrate for platelet adhesion, we measured the adherence of resting and agonist-stimulated human platelets to immobilized recombinant human osteopontin. Agonist-stimulated but not resting platelets bound to osteopontin by a process that was mediated primarily by alphavbeta3. alphavbeta3-mediated adherence occurred at physiologic concentrations of calcium and was inhibited by an alphavbeta3-selective cyclic peptide. Assays using phorbol myristate acetate-stimulated transfected B lymphocytes expressing both alphavbeta3 and alphaIIbbeta3 confirmed that activated alphavbeta3 not activated alphaIIbbeta3 was responsible for the cellular adherence we measured. These studies indicate that alphavbeta3 can reside on the cell surface in an inactive state and can be converted to a ligand binding conformation by cellular agonists. Moreover, they suggest that platelet adherence to osteopontin mediated by activated alphavbeta3 could play a role in anchoring platelets to disrupted atherosclerotic plaques and the walls of injured arteries. By inhibiting alphavbeta3 function, it may be possible to inhibit platelet-mediated vascular occlusion with a minimal effect on primary hemostasis.

Effect of cytoplasmic domain mutations on the agonist-stimulated ligand binding activity of the platelet integrin alphaIIbbeta3.

Function of the platelet integrin alphaIIbbeta3 is regulated by agonist-generated signals interacting with its cytoplasmic tails. When alphaIIbbeta3 is expressed in Epstein-Barr virus-transformed B lymphocytes, stimulation of the cells with phorbol 12-myristate 13-acetate results in alphaIIbbeta3-mediated lymphocyte adherence to immobilized fibrinogen, as well as soluble fibrinogen binding to alphaIIbbeta3, indicating that agonists increase the affinity of alphaIIbbeta3 for fibrinogen in these cells. To address the contribution of the alphaIIb and beta3 cytoplasmic tails to this process, we mutated each tail and expressed the mutants in B lymphocytes. Truncation of the alphaIIb tail did not impair unstimulated or stimulated lymphocyte adherence to fibrinogen, regardless whether the truncation was proximal or distal to the conserved GFFKR sequence. However, deleting GFFKR or replacing it with alanines markedly reduced alphaIIbbeta3 expression due to impaired intracellular assembly of alphaIIbbeta3 heterodimers, probably due to a mutation-induced change in the conformation of alphaIIb. Introducing beta3 mutations known to impair alphaIIbbeta3 function in platelets into the cytoplasmic tail of beta3 in lymphocytes also impaired alphaIIbbeta3 function in these cells. These studies demonstrate that the cytoplasmic tail of alphaIIb is not required for alphaIIbbeta3 function in lymphocytes, although the presence of GFFKR in the alphaIIb tail is required for alphaIIb to interact with beta3. Additionally, they indicate that signals interacting with the beta3 cytoplasmic tail are responsible for the ability of agonists to stimulate alphaIIbbeta3 function.

Effect of mutagenesis of GPIIb amino acid 273 on the expression and conformation of the platelet integrin GPIIb-IIIa.

A G273D mutation immediately proximal to the first calcium binding domain of platelet GPIIb impairs the export of GPIIb-IIIa heterodimers to the platelet surface. To examine how this mutation might alter the structure of GPIIb, G273 was replaced by other amino acids and the resulting mutants were coexpressed with GPIIIa in COS-1 cells. Although replacement with Ala or Val had no effect on GPIIb-IIIa expression, replacement with Glu, Lys, Pro, or Asn caused intracellular retention of GPIIb-IIIa. Concurrently, the consequences of these replacements were examined by comparative modeling by introducing them into the analogous position of the first helix-loop-helix (HLH) motif of calmodulin, based on homology between the calcium binding domains of GPIIb and the calcium binding loops of HLH-containing proteins. The modeling revealed that as the side chain of the introduced amino acid increased in size, it progressively interfered with hydrophobic interactions between the incoming and outgoing helices of the motif. To test whether this observation also applies to GPIIb, V286, located immediately distal to the first GPIIb calcium binding domain, was replaced by Asp and Phe. Expression of these mutants in COS-1 cells also resulted in the intracellular retention of GPIIb-IIIa, suggesting that interactions between sequences that flank the first calcium binding domain of GPIIb affect its folding. Finally, the endoplasmic reticulum chaperone BiP was detected in immunoprecipitates of GPIIb-IIIa containing GPIIb with Ala, Val, Lys, or Pro, but not Gly, at position 273. This suggests that although BiP binding is a sensitive indication of the fidelity of GPIIb-IIIa folding, it is not sufficient to account for the intracellular retention of the heterodimer.

Glanzmann thrombasthenia due to a two amino acid deletion in the fourth calcium-binding domain of alpha IIb: demonstration of the importance of calcium-binding domains in the conformation of alpha IIb beta 3.

The integrin alpha IIb beta 3, a calcium-dependent heterodimer, plays a critical role in platelet aggregation. The alpha IIb subunit of the heterodimer contains four highly conserved putative calcium-binding domains in its extracellular portion. During studies of the molecular basis of Glanzmann thrombasthenia in a child of mixed Caucasian background whose platelets expressed little alpha IIb beta 3 on their surface, we found the patient heterozygous for a two amino acid deletion in the fourth alpha IIb calcium-binding domain. When this alpha IIb mutant was expressed in COS-1 cells, we found that the deletion did not interfere with the assembly of alpha IIb beta 3 heterodimers, but altered their conformation such that they were neither recognized by the heterodimer-specific antibody A2A9 nor able to undergo further intracellular processing or transport to the cell surface. These results suggest that the calcium-binding domains in alpha IIb play an important role maintaining the overall conformation of alpha IIb beta 3. To confirm this suggestion, we deleted each of the four 12 amino acid calcium-binding domains in alpha IIb by in vitro mutagenesis and expressed the mutants along with beta 3 in COS-1 cells. Each construct formed a heterodimer with beta 3, but none of the heterodimers interacted with A2A9 or underwent further intracellular processing. These data indicate that the calcium-binding domains in alpha IIb are not involved in alpha IIb beta 3 heterodimer formation, but their presence is required for the intracellular transport of alpha IIb beta 3 to the cell surface.

Agonist-stimulated ligand binding by the platelet integrin alpha IIb beta 3 in a lymphocyte expression system.

The ligand binding activity of the platelet integrin alpha IIb beta 3 is initiated by agonist-generated intraplatelet signals. We studied this process in vitro by expressing recombinant alpha IIb beta 3 in Epstein-Barr virus-immortalized B lymphocytes. We found that phorbol ester stimulation induced the adhesion of lymphocytes expressing alpha IIb beta 3 to immobilized fibrinogen. Moreover, replacement of the transmembrane and cytoplasmic domains of the alpha and beta subunits of alpha IIb beta 3 with those of alpha L beta 2 significantly increased adherence, whereas replacement of only the cytoplasmic domains significantly decreased adherence. This suggests that transmembrane segments are involved in the agonist-induced modulation of alpha IIb beta 3 activity. Similar results were seen when the alpha IIb beta 3 activation-dependent monoclonal antibody PAC-1 was substituted for immobilized fibrinogen. We also found that the adherence of lymphocytes expressing beta 3 with either of the two alpha IIb/alpha L chimeras was similar to that of cells expressing alpha IIb beta 3, whereas the adherence of cells expressing alpha IIb with either of the two beta 3/beta 2 chimeras was substantially decreased, suggesting that the identity of the cytoplasmic domain of beta 3, but not of alpha IIb, is critical for alpha IIb beta 3 function. This report indicates that B lymphocytes contain signal transduction pathways involving protein kinase C that can increase the ligand binding activity of alpha IIb beta 3 and demonstrates the utility of these cells as an expression system for the study of agonist-stimulated alpha IIb beta 3 function.

Determinants of the intracellular fate of truncated forms of the platelet glycoproteins IIb and IIIa.

The platelet glycoproteins GPIIb and GPIIIa are integral membrane proteins and form calcium-dependent heterodimers in the endoplasmic reticulum (ER). In the absence of heterodimer formation, GPIIb and GPIIIa are retained in the ER and degraded. To produce soluble forms of these proteins, we truncated each at a site just proximal to its transmembrane anchor and expressed the mutants in COS-1 cells. We found that both truncated GPIIIa (GPIIIatr) and GPIIIatr were secreted by the transfected cells. However, GPIIbtr was retained by the cells and was immunoprecipitated as a doublet with a 115,000 molecular weight protein. Incubation of transfected cells with the calcium ionophore A23187 or the calcium chelator 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid tetrakis(acetoxymethyl) ester (BAPTA-AM) failed to induce appreciable GPIIbtr secretion, suggesting that formation of intracellular calcium complexes was not a factor in GPIIbtr retention. Further, immunoblotting of immunoprecipitated GPIIbtr and GPIIIatr revealed that the chaperone binding protein (BiP) was associated with each, arguing that BiP alone was not responsible for GPIIbtr retention. These studies indicate that the intracellular retention of GPIIIa involves sequences located in the transmembrane or cytoplasmic domains of the molecule. GPIIb contains an additional retention signal located in the extracellular portion of the molecule whose effect is abrogated by formation of a GPIIb-IIIa heterodimer. This signal may be involved in the fate of nascent GPIIb monomers and the generation of correctly configured GPIIb-IIIa heterodimers.

Examination of the platelet membrane glycoprotein IIb-IIIa complex and its interaction with fibrinogen and other ligands by electron microscopy.

The platelet integrin, glycoprotein IIb-IIIa (GPIIb-IIIa), is a calcium-dependent heterodimer that binds fibrinogen, von Willebrand factor, and fibronectin after platelet activation. We examined GPIIb-IIIa alone and bound to these ligands by electron microscopy after rotary shadowing with platinum/tungsten. We found, as observed previously, that in the presence of detergent and 2 mM Ca2+, GPIIb-IIIa consists of an 8 x 12-nm globular head with two 18-nm flexible tails extending from one side. We also found that in the presence of EDTA, GPIIb-IIIa dissociates into two similar comma-shaped subunits, each containing a portion of the globular head and a single tail. Using monoclonal antibodies to GPIIb, GPIIIa, and the GPIIb-IIIa heterodimer, we found that the tails contained the carboxyl termini of each subunit, while the nodular head was composed of amino-terminal segments of both subunits. Electron microscopy of GPIIb-IIIa bound to fibrinogen revealed a highly specific interaction of the nodular head of GPIIb-IIIa with the distal end of the trinodular fibrinogen molecule and with the tails of GPIIb-IIIa extended laterally at an angle of approximately 98 degrees with respect to the long axis of fibrinogen. When a GPIIb-IIIa was bound to each end of a single fibrinogen, the tails were oriented to opposite sides of fibrinogen, enabling fibrinogen to bridge two adjacent platelets. Electron microscopy of GPIIb-IIIa bound to fibronectin revealed GPIIb/IIIa-binding sites approximately two-thirds of the distance from the amino terminus of each end of the fibronectin molecule, while GPIIb-IIIa was found to bind to von Willebrand factor protomers along a rod-like region near the central nodule of the molecule.

Study of the endoproteolytic cleavage of platelet glycoprotein IIb using oligonucleotide-mediated mutagenesis.

The precursor of platelet membrane glycoprotein IIb (GPIIb) undergoes endoproteolytic cleavage into heavy and light chains post-translation. Endoproteolysis occurs within a 17-amino acid stretch of the precursor that contains 4 arginine residues, 3 in dibasic sequences [Lys-Arg (855-856) and Arg-Arg (858-859)] and a single arginine at 871. To determine the site of GPIIb cleavage and its role in the function of the glycoprotein IIb/IIIa heterodimer, we mutated arginine 856, the di-arginine sequence 858-859, and arginine 871 and coexpressed the mutants with glycoprotein IIIa (GPIIIa) in COS-1 cells. Each GPIIb mutant formed recombinant GPIIb-IIIa heterodimers, but mutants lacking arginine at 856 or 858-859 failed to undergo cleavage. Nevertheless, heterodimers containing the uncleaved GPIIb were expressed on the cell surface. Because endoproteolysis most often occurs after arginines in dibasic sequences, we next expressed GPIIb mutants containing lysine at 856 or aspartic acid at 855 with GPIIIa. Both mutants were cleaved and surface-expressed, indicating that the dibasic sequence at 858-859, but not at 855-856, is required for GPIIb cleavage. Lastly, we tested the function of GPIIb-IIIa containing uncleaved GPIIb by measuring adhesion of transfected cells to immobilized fibrinogen. We found no difference in the adhesion of cells expressing either wild-type or mutant GPIIb, indicating GPIIb-IIIa heterodimers containing uncleaved GPIIb maintain their ability to interact with fibrinogen.

Effect of deletion of glycoprotein IIb exon 28 on the expression of the platelet glycoprotein IIb/IIIa complex.

We have isolated from an HEL cell cDNA library an alternatively spliced transcript for the platelet membrane glycoprotein IIb (GPIIb) that resulted from the deletion of the 34 amino acids of exon 28 of the GPIIb gene. Confirming an earlier report, we also detected this transcript in platelet mRNA. To determine the consequences of exon 28 deletion on the expression of the GPIIb/IIIa heterodimer, we expressed cDNA for GPIIb-28 in COS-1 cells, either individually or simultaneously with a cDNA for GPIIIa. When recombinant GPIIb-28 was expressed alone, it did not acquire resistance to the enzyme endo-beta-N-acetylglucosaminidase H, was not cleaved into heavy and light chains, and was not transported to the cell surface. However, when recombinant GPIIb-28 was coexpressed with recombinant GPIIIa, GPIIb/IIIa heterodimers were assembled. Nevertheless, these heterodimers failed to complete posttranslational processing and were degraded intracellularly. Exon 28 contains one site for Asn-linked glycosylation. To determine if loss of this glycosylation site was responsible for the effects of exon 28 deletion, we removed the site from the exon 28 of intact GPIIb by oligonucleotide-mediated mutagenesis. However, absence of the carbohydrate appended to exon 28 did not prevent normal GPIIb/IIIa heterodimer expression. Our studies indicate that absence of the amino acids encoded by GPIIb exon 28 sufficiently perturbs the quaternary configuration of the GPIIb/IIIa heterodimer to impair its subsequent intracellular transport and processing. They also indicate that this alternatively spliced form of GPIIb mRNA, although present in megakaryocytes, is unlikely to make a significant contribution to the GPIIb/IIIa complexes expressed on platelets.

Structure of platelet glycoprotein IIIa. A common subunit for two different membrane receptors.

The platelet membrane glycoprotein IIb/IIIa complex is a member of a family of alpha/beta heterodimers that function as receptors for adhesive proteins. In this report we describe the structure of the human beta subunit GPIIIa deduced from an analysis of 4.0 kb of overlapping cDNA sequences isolated from a human erythroleukemia (HEL) cell cDNA expression library. A continuous open reading frame encoding all 788 amino acids for GPIIIa was present. The deduced amino acid sequence included a 26-residue amino-terminal signal peptide, a 29-residue transmembrane domain near the carboxy terminus, and four tandemly repeated cysteine-rich domains of 33-38 residues. An exact correspondence of 128 amino acids from seven human platelet GPIIIa fragments with HEL GPIIIa indicates that HEL and platelet GPIIIa are the same gene product. The HEL GPIIIa sequence was compared with the sequences of the beta subunit for the human LFA-1/Mac-1/p150.95 complex and human endothelial cell GPIIIa, revealing a 38% similarity with the former and virtual identity with the latter. Northern blot analysis using RNA from both HEL and endothelial cells revealed two GPIIIa transcripts of 5.9 and 4.1 kb. However, HEL RNA, but not endothelial cell RNA, contained a transcript for GPIIb. This indicates that the GPIIIa-containing heterodimers in platelets and endothelial cells are not identical structures, but are members of a subfamily within the human family of adhesion protein receptors sharing an identical beta subunit.

Structure of the platelet membrane glycoprotein IIb. Homology to the alpha subunits of the vitronectin and fibronectin membrane receptors.

The platelet membrane glycoprotein IIb X IIIa heterodimer complex (GPIIb X IIIa) is the platelet receptor for adhesive proteins, containing binding sites for fibrinogen, von Willebrand factor, and fibronectin on activated platelets. GPIIb X IIIa also appears to be a member of a family of membrane adhesive protein receptors that plays a major role in cell-cell and cell-matrix interactions. GPIb is the larger component of this platelet receptor and is composed of two disulfide-linked subunits. In this report we describe the analysis of cDNA clones for human GPIIb that were isolated from a lambda gt11 expression library prepared using RNA from HEL cells. A total of 3.3 kilobases of cDNA was sequence, revealing a continuous open reading frame encoding both GPIIb subunits. The cDNA encodes 1039 amino acids: 137 constituting the smaller subunit, 871 constituting the larger subunit, and 30 constituting an NH2-terminal signal peptide. No homology was found between the larger and smaller subunits. The smaller subunit contains a 26-residue hydrophobic sequence near its COOH terminus that represents a potential transmembrane domain. Four stretches of 12 amino acids present in the larger subunit are homologous to the calcium binding sites of calmodulin and troponin C. Northern blot analysis using HEL cell RNA indicated that the mature mRNA coding for GPIIb is 4.1 kilobases in size. A comparison of the GPIIb coding region with available cDNA sequences of the alpha-chains of the vitronectin and fibronectin receptors revealed 41% DNA homology and 74% and 63% amino acid homology, respectively. Our data establish the amino acid sequence for the human platelet glycoprotein IIb and provide additional evidence for the existence of a family of cellular adhesion protein receptors.