Therapeutic expression of the platelet-specific integrin, alphaIIbbeta3, in a murine model for Glanzmann thrombasthenia

Integrins mediate the adhesion of cells to each other and to the extracellular matrix during development, immunity, metastasis, thrombosis, and wound healing. Molecular defects in either the alpha- or beta-subunit can disrupt integrin synthesis, assembly, and/or binding to adhesive ligands. This is exemplified by the bleeding disorder, Glanzmann thrombasthenia (GT), where abnormalities of the platelet-specific integrin, alphaIIbbeta3, prevent platelet aggregation following vascular injury. We previously used a retrovirus vector containing a cDNA cassette encoding human integrin beta3 to restore integrin alphaIIbbeta3 on the surface of megakaryocytes derived from peripheral blood stem cells of GT patients. In the present study, bone marrow from beta3-deficient (beta3-/-) mice was transduced with the ITGbeta3-cassette to investigate whether the platelet progeny could establish hemostasis in vivo. A lentivirus transfer vector equipped with the human ITGA2B gene promoter confined transgene expression to the platelet lineage. Human beta3 formed a stable complex with murine alphaIIb, effectively restoring platelet function. Mice expressing significant levels of alphaIIbbeta3 on circulating platelets exhibited improved bleeding times. Intravenous immunoglobulin effectively diminished platelet clearance in animals that developed an antibody response to alphaIIbbeta3. These results indicate the feasibility of targeting platelets with genetic therapies for better management of patients with inherited bleeding disorders.     

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)     

A novel 196Leu to Pro substitution in the beta3 subunit of the alphaIIbbeta3 integrin in a patient with a variant form of Glanzmann thrombasthenia

Glanzmann thrombasthenia (GT) is an inherited disorder where an absence of platelet aggregation is associated with quantitative or qualitative abnormalities of the alphaIIbbeta3 integrin. In rare patients, amino acid substitutions have provided information on the functional significance of specific domains within alphaIIb or beta3. We now report an elderly male GT patient (R.M.) from the south west of France whose platelets possess a small residual expression of alphaIIbbeta3. Furthermore, the integrin failed to undergo the necessary conformational changes following platelet activation to permit the binding of fibrinogen or activation-dependent monoclonal antibodies despite the presence of an RGD-binding site. Screening of the alphaIIb and beta3 genes by PCR-SSCP revealed a heterozygous mutation at position 685 in exon 5 of the beta3 gene leading to a 196Leu to Pro substitution. 196Leu is a highly conserved amino acid of beta3. The other beta3 allele appeared to be silent. This mutation, inherited from his mother and present in other family members with intermediate levels of alphaIIbbeta3, was close to the MIDAS-like domain of beta3, a fact that appears to explain its effect on alphaIIbbeta3 activation and fibrinogen binding.     

AlphaIIbG236E causes Glanzmann thrombasthenia by impairing association with beta3

Glanzmann thrombasthenia (GT) is a recessively inherited bleeding disorder caused by the quantitative or qualitative deficiency of the platelet fibrinogen receptor, integrin alphaIIbbeta3. The N-terminal domain of the alphaIIb subunit is folded in a beta-propeller that plays the role of binding fibrinogen and associating with the ligand-binding region of beta3. Analysing the mutations of Italian GT patients we found that a patient had a alphaIIb G236E missense substitution that substitutes a glycine from the highly conserved PhiPhiGPhi motif of blade 4 of the beta-propeller. To verify experimentally the effect of the substitution of glycine 236 human embryonic kidney (HEK) cells were transfected with normal or mutated alphaIIb in conjunction with normal beta3. Using flow cytometry analysis we found the percentage of HEK cells transfected with alphaIIbG236Ebeta3 that reacted with anti alphaIIbbeta3 was very low. In HEK cells transfected with either alphaIIbbeta3 or alphaIIbG236Ebeta3 and lysed, when immunoblotting was done in non-reducing conditions a band reacting with an antibody against alphaIIb was present in both lysates, although less intense in cells transfected with alphaIIbG236Ebeta3. In reducing condition alphaIIb from cells transfected with alphaIIbbeta3 was nearly all mature, while in cells transfected with alphaIIbG236Ebeta3 the ratio pro-alphaIIb: alphaIIb was 1 : 1, with signs of degradation of the mutated protein. Cell lysates were then immunoprecipitated with antibodies against alphaIIb and immunoblotted with an antibody reacting with beta3. While in immunoblots from cells transfected with alphaIIbbeta3 a band corresponding to beta3 was strongly detectable, in immunoblots originating from cells transfected with alphaIIbG236Ebeta3 no band at the same level of normal beta3 was detected. Immunofluorescence studies showed accumulation of alphaIIbG236Ebeta3 in the endoplasmic reticulum and minimal transport to the Golgi. In conclusion we demonstrated that the alphaIIbG236E mutation causes GT by impairing the association with beta3 during biogenesis of the receptor.     

A Leu55 to Pro substitution in the integrin alphaIIb is responsible for a case of Glanzmann's thrombasthenia

Glanzmann's thrombasthenia (GT) is a hereditary bleeding disorder caused by a quantitative or qualitative defect in the integrin alphaIIbbeta3. A new mutation, a T to C substitution at base 258 in the alphaIIb gene, leading to the replacement of Leu55 with Pro, was found by sequence analysis of a patient's alphaIIb cDNA. In transfection experiments using COS7 cells, the cells co-transfected with the mutated alphaIIb cDNA containing C258 and wild-type beta3 cDNA scarcely expressed the alphaIIbbeta3 complex. The Leu55 to Pro substitution in the alphaIIb gene was found to be responsible for this case of Glanzmann's thrombasthenia.     

Megakaryocytes derived from embryonic stem cells implicate CalDAG-GEFI in integrin signaling

Fibrinogen binding to integrin alphaIIbbeta3 mediates platelet aggregation and requires agonist-induced "inside-out" signals that increase alphaIIbbeta3 affinity. Agonist regulation of alphaIIbbeta3 also takes place in megakaryocytes, the bone marrow cells from which platelets are derived. To facilitate mechanistic studies of inside-out signaling, we describe here the generation of megakaryocytes in quantity from murine embryonic stem (ES) cells. Coculture of ES cells for 8-12 days with OP9 stromal cells in the presence of thrombopoietin, IL-6, and IL-11 resulted in the development of large, polyploid megakaryocytes that produced proplatelets. These cells expressed alphaIIbbeta3 and platelet glycoprotein Ibalpha but were devoid of hematopoietic stem cell, erythrocyte, and leukocyte markers. Mature megakaryocytes, but not megakaryocyte progenitors, specifically bound fibrinogen by way of alphaIIbbeta3 in response to platelet agonists. Retrovirus-mediated expression of the reporter gene, green fluorescent protein, in ES cell-derived megakaryocytes did not affect viability or alphaIIbbeta3 function. On the other hand, retroviral expression of CalDAG-GEFI, a Rap1 exchange factor identified by megakaryocyte gene profiling as a candidate integrin regulator, enhanced agonist-induced activation of Rap1b and fibrinogen binding to alphaIIbbeta3 (P < 0.01). These results establish that ES cells are a ready source of mature megakaryocytes for integrin studies and other biological applications, and they implicate CalDAG-GEFI in inside-out signaling to alphaIIbbeta3.     

Mutations in the beta3 gene giving rise to type I Glanzmann thrombasthenia in two families in Portugal

Glazzmann thrombasthenia is an inherited bleeding syndrome in which an absence of platelet aggregation is associated with quantitative or qualitative deficiencies of the alphaIIbbeta3 integrin. We now describe biochemical and molecular studies on two Portuguese families where platelets lack both surface and intracellular pools of alphaIIbbeta3. DNA extraction was followed by PCR-SSCP analysis of all exons and intronic boundaries in the alphaIIb and beta3 genes. Migration abnormalities were found for PCR fragments encompassing exon 12 (family 1) and exon 10 (family 2). For patient 1, there was a homozygous G to T transition at position 1846 which resulted in a stop codon at codon 616 in the beta3 gene. For patient 2, direct sequencing revealed a homozygous 1347C insert which led to a stop codon at codon 444 in the beta3 gene. For both patients a single mutated allele was inherited from each parent. Evidence is accumulating that nonsense mutations leading to a truncated beta3 may be a frequent cause of type I Glanzmann thrombasthenia in the Iberian peninsula.     

A nonsynonymous SNP in the ITGB3 gene disrupts the conserved membrane-proximal cytoplasmic salt bridge in the alphaIIbbeta3 integrin and cosegregates dominantly with abnormal proplatelet formation and macrothrombocytopenia

We report a 3-generation pedigree with 5 individuals affected with a dominantly inherited macrothrombocytopenia. All 5 carry 2 nonsynonymous mutations resulting in a D723H mutation in the beta3 integrin and a P53L mutation in glycoprotein (GP) Ibalpha. We show that GPIbalpha-L53 is phenotypically silent, being also present in 3 unaffected pedigree members and in 7 of 1639 healthy controls. The beta3-H723 causes constitutive, albeit partial, activation of the alphaIIbbeta3 complex by disruption of the highly conserved cytoplasmic salt bridge with arginine 995 in the alphaIIb integrin as evidenced by increased PAC-1 but not fibrinogen binding to the patients' resting platelets. This was confirmed in CHO alphaIIbbeta3-H723 transfectants, which also exhibited increased PAC-1 binding, increased adhesion to von Willebrand factor (VWF) in static conditions and to fibrinogen under shear stress. Crucially, we show that in the presence of fibrinogen, alphaIIbbeta3-H723, but not wild-type alphaIIbbeta3, generates a signal that leads to the formation of proplatelet-like protrusions in transfected CHO cells. Abnormal proplatelet formation was confirmed in the propositus's CD34+ stem cell-derived megakaryocytes. We conclude that the constitutive activation of the alphaIIbbeta3-H723 receptor causes abnormal proplatelet formation, leading to incorrect sizing of platelets and the thrombocytopenia observed in the pedigree.     

Application of high-throughput screening to identify a novel alphaIIb-specific small- molecule inhibitor of alphaIIbbeta3-mediated platelet interaction with fibrinogen

Small-molecule alphaIIbbeta3 antagonists competitively block ligand binding by spanning between the D224 in alphaIIb and the MIDAS metal ion in beta3. They variably induce conformational changes in the receptor, which may have undesirable consequences. To identify alphaIIbbeta3 antagonists with novel structures, we tested 33 264 small molecules for their ability to inhibit the adhesion of washed platelets to immobilized fibrinogen at 16 muM. A total of 102 compounds demonstrated 50% or more inhibition, and one of these (compound 1, 265 g/mol) inhibited ADP-induced platelet aggregation (IC(50): 13+/- 5 muM), the binding of soluble fibrinogen to platelets induced by mAb AP5, and the binding of soluble fibrinogen and a cyclic RGD peptide to purified alphaIIbbeta3. Compound 1 did not affect the function of GPIb, alpha2beta1, or the other beta3 family receptor alphaVbeta3. Molecular docking simulations suggest that compound 1 interacts with alphaIIb but not beta3. Compound 1 induced partial exposure of an alphaIIb ligand-induced binding site (LIBS), but did not induce exposure of 2 beta3 LIBS. Transient exposure of purified alphaIIbbeta3 to eptifibatide, but not compound 1, enhanced fibrinogen binding ("priming"). Compound 1 provides a prototype for small molecule selective inhibition of alphaIIbbeta3, without receptor priming, via targeting alphaIIb.     

Evidence for megakaryocyte engraftment following reduced-intensity conditioning

Assessment of donor chimerism is becoming increasingly important in patients undergoing reduced-intensity conditioning (RIC) allogeneic bone marrow transplants, due to the possibility of mixed chimeras. This regimen has been used successfully for patients with leukemia and genetic disorders with donor chimerism occurring in the myeloid, lymphoid, and/or erythroid lineages. Less toxic RIC expands the potential application of stem cell transplants to patients with nonmalignant disorders of hematopoiesis, such as the severe form of Glanzmann thrombasthenia, who previously were not considered suitable candidates based on risk-benefit analysis. To assess megakaryocyte/platelet chimerism after stem cell transplantation conducted with RIC, we used restriction fragment length polymorphism (RFLP) and sequence analyses of the HPA-3 polymorphism in the megakaryocyte/platelet-specific glycoprotein alphaIIb. In this study we show that at 23 weeks post-RIC, a leukemia patient acquired the HPA-3 donor phenotype at the DNA and platelet RNA levels.     

alphaIIbbeta3 biogenesis is controlled by engagement of alphaIIb in the calnexin cycle via the N15-linked glycan

Although much is known about alphaIIbbeta3 structure and function, relatively little is understood about its biogenesis. Thus, we studied the kinetics of pro-alphaIIb production and degradation, focusing on whether proteasomal degradation or the calnexin cycle participates in these processes. In pulse-chase analyses, the time to half-disappearance of pro-alphaIIb (t1/2) was the same in (1) HEK293 cells transfected with (a) alphaIIb plus beta3, (b) alphaIIb alone, (c) mutant V298FalphaIIb plus beta3, or (d) I374TalphaIIb plus beta3; and (2) murine wild-type and beta3-null megakaryocytes. Inhibition of the proteasome prolonged the t1/2 values in both HEK293 cells and murine megakaryocytes. Calnexin coprecipitated with alphaIIb from HEK293 cells transfected with alphaIIb alone, alphaIIb plus beta3, and V298FalphaIIb plus beta3. For proteins in the calnexin cycle, removal of the terminal mannose residue of the middle branch of the core N-linked glycan results in degradation. Inhibition of the enzyme that removes this mannose residue prevented pro-alphaIIb degradation in beta3-null murine megakaryocytes. alphaIIb contains a conserved glycosylation consensus sequence at N15, and an N15Q mutation prevented pro-alphaIIb maturation, complex formation, and degradation. Our findings suggest that pro-alphaIIb engages the calnexin cycle via the N15 glycan and that failure of pro-alphaIIb to complex normally with beta3 results in proteasomal degradation.     

Impaired megakaryocytopoiesis in type 2B von Willebrand disease with severe thrombocytopenia

In type 2B von Willebrand disease, there is spontaneous binding of mutated von Willebrand factor (VWF) multimers to platelets. Here we report a family in which severe thrombocytopenia may also be linked to abnormal megakaryocytopoiesis. A heterozygous mutation in the VWF A1 domain gave a R1308P substitution in an interactive site for glycoprotein Ibalpha (GPIbalpha). Electron microscopy showed clusters of platelets in close contact. Binding of antibodies to the GPIbalpha N-terminal domain was decreased, whereas GPIX and GPV were normally detected. In Western blotting (WB), GPIbalpha, alphaIIb, and beta3 were normally present. Proteins involved in Ca(2+) homeostasis were analyzed by quantitating platelet mRNA or by WB. Plasma membrane Ca(2+) ATPase (PMCA)-4b and type III inositol trisphosphate receptor (InsP(3)-R3) were selectively increased. The presence of degradation products of polyadenosine diphosphate (ADP)-ribose polymerase protein (PARP) suggested ongoing caspase-3 activity. These were findings typical of immature normal megakaryocytes cultured from peripheral blood CD34(+) cells with TPO. Significantly, megakaryocytes from the patients in culture produced self-associated and interwoven proplatelets. Immunolocalization showed VWF not only associated with platelets, but already on the megakaryocyte surface and within internal channels. In this family, type 2B VWD is clearly associated with abnormal platelet production.     

Mutation of the beta1-tubulin gene associated with congenital macrothrombocytopenia affecting microtubule assembly

Congenital macrothrombocytopenia is a genetically heterogeneous group of rare disorders. We identified the first TUBB1 mutation, R318W, in a patient with congenital macrothrombocytopenia. The patient was heterozygous for Q43P, but this single-nucleotide polymorphism (SNP) did not relate to macrothrombocytopenia. Although no abnormal platelet beta1-tubulin localization/marginal band organization was observed, the level of beta1-tubulin was decreased by approximately 50% compared with healthy controls. Large and irregular bleb protrusions observed in megakaryocytes derived from the patient's peripheral blood CD34(+) cells suggested impaired megakaryocyte fragmentation and release of large platelets. In vitro transfection experiments in Chinese hamster ovary (CHO) cells demonstrated no incorporation of mutant beta1-tubulin into microtubules, but the formation of punctuated insoluble aggregates. These results suggested that mutant protein is prone to aggregation but is unstable within megakaryocytes/platelets. Alternatively, mutant beta1-tubulin may not be transported from the megakaryocytes into platelets. W318 beta1-tubulin may interfere with normal platelet production, resulting in macrothrombocytopenia.     

Two novel mutations in the alpha IIb calcium-binding domains identify hydrophobic regions essential for alpha IIbbeta 3 biogenesis

The recently published crystal structure of the external domains of alphaVbeta3 confirms the prediction that the aminoterminal portion of alphaV, which shares 40% homology with alphaIIb, folds into a beta-propeller structure and that the 4 calcium-binding domains are positioned on the bottom of the propeller. To gain insight into the role of the calcium-binding domains in alphaIIb biogenesis, we characterized mutations in the second and third calcium-binding domains of alphaIIb in 2 patients with Glanzmann thrombasthenia. One patient inherited a Val298Phe mutation in the second domain, and the other patient inherited an Ile374Thr mutation in the third domain. Mammalian cell expression studies were performed with normal and mutant alphaIIb and beta3 cDNA constructs. By flow cytometry, expression of alphaIIb Val298Phe/beta3 in transfected cells was 28% of control, and expression of alphaIIbIle374Thr/beta3 was 11% of control. Pulse-chase analyses showed that both mutant pro-alphaIIb subunits are retained in the endoplasmic reticulum and degraded. Mutagenesis studies of the Val298 and Ile374 residues showed that these highly conserved, branch-chained hydrophobic residues are essential at these positions and that biogenesis and expression of alphaIIbbeta3 is dramatically affected by structural variations in these regions of the calcium-binding domains. Energy calculations derived from a new model of the alphaIIb beta-propeller indicate that these mutations interfere with calcium binding. These data suggest that the alphaIIb calcium-binding domains play a key structural role in the beta-propeller, and that the structural integrity of the calcium-binding domains is critical for integrin biogenesis.     

Postpartum hemorrhage successfully treated with recombinant factor VIIa in Glanzmann thromboasthenia

Glanzmann thrombasthenia is an inherited hemorrhagic disorder characterized by severe reduction or absence of platelet aggregation in response to multiple physiologic agonists due to qualitative or quantitative abnormalities of platelet glycoprotein (GP) IIb/IIIa. Treatment of bleeding episodes may require platelet transfusion. However, repeated platelet transfusions may result in GPIIb/IIIa and/or HLA immunization, and development of platelet refractoriness. Recently, a number of reports have suggested that recombinant factor VIIa product (rFVIIa) may be a therapeutic alternative in these situations. We have used rFVIIa to treat a 34-year-old primigravida woman for postpartum bleeding. She had been diagnosed with Glanzmann thrombasthenia at 32 years of age. At 37 weeks gestation, she underwent elective caesarean section uneventfully with platelet transfusion. Nine days later, she developed vaginal bleeding and received twenty units of platelet concentrates every day, but bleeding persisted. Thereafter, 4.8 mg intravenous rFVIIa was administered three times, which immediately arrested the bleeding. These results demonstrate that rFVIIa is effective for severe bleeding in Glanzmann thrombasthenia patients, especially in those with antiplatelet antibodies and/or platelet transfusion refractoriness.     

Upregulation of osteoclast alpha2beta1 integrin compensates for lack of alphavbeta3 vitronectin receptor in Iraqi-Jewish-type Glanzmann thrombasthenia

Osteoclasts utilize alphavbeta3 integrin adhesion to bone matrix during bone resorption. We have generated osteoclasts from the peripheral blood of Iraqi-Jewish patients with Glanzmann thrombasthenia (GT) who are completely deficient in beta3 integrin and exhibit a haemorrhagic diathesis resulting from the absence of platelet alphaIIbbeta3. We show that, in contrast to osteoclasts generated from normal subjects or patients with alphaIIb integrin deficiency, GT osteoclasts lack alphavbeta3. These osteoclasts exhibited a two- to fourfold increase in alpha2 and beta1 integrin expression, whereas other alphav integrins, including alphavbeta5, were not significantly affected. An accompanying decrease in bone resorption was observed, with 44% and 59% declines in pit number and depth, respectively, and resorption lacunae showed abnormal morphology on scanning electron microscopy. However, osteoclasts from GT developed in similar numbers to controls and exhibited an otherwise 'normal' phenotype. We conclude that the observed rise in alpha2beta1 expression compensates for the chronic genetic deficiency of alphavbeta3 in osteoclasts from patients with GT and is sufficient to enable bone resorption to proceed, albeit to a submaximal extent. This explains why Iraqi-Jewish patients with GT do not have osteopetrosis.     

Recent development of peptides from glycoproteins IIb (alphaIIb) and IIIa (beta3) that inhibit platelet fibrinogen binding

The glycoprotein (GP) IIb/IIIa (alphaIIbbeta3) found on platelets binds fibrinogen when platelets are activated, thereby mediating the platelet aggregation process. Blockading of alphaIIbbeta3 has been proposed to prevent platelet aggregation independent of the substance(s) responsible for activating the platelets. This inhibition of platelet aggregation is thought to be an effective therapeutic approach to various thromboembolic syndromes. The development of various forms of alphalambdapietaalpha;IIbbeta3 inhibitors has resulted in the inhibition of platelet aggregation, although studies of alphaIIbbeta3 receptor function and various alphaIIbbeta3 inhibitors have demonstrated the potential for these agents to produce effects on other aspects of platelet function as well as having non-platelet effects. This review describes the newly derived peptides from 1) glycoprotein IIb (alphaIIb) that interferes with platelet aggregation by inhibiting the binding of fibrinogen to alphaIIbbeta3 and from 2) GP IIIa (beta3) by blocking the alphaIIbbeta3 complex formation. These peptides may become effective agents to block the interaction of ADP, type I collagen, and type III collagen (type I collagen and type III collagen are present in abundant amounts in blood vessel walls) with platelets.