Spectrum of the mutations in Bernard-Soulier syndrome.

Bernard-Soulier syndrome (BSS) is a rare autosomal recessive bleeding disorder characterized by defects of the GPIb-IX-V complex, a platelet receptor for von Willebrand factor (VWF). Most of the mutations identified in the genes encoding for the GP1BA (GPIbα), GP1BB (GPIbß), and GP9 (GPIX) subunits prevent expression of the complex at the platelet membrane or more rarely its interaction with VWF. As a consequence, platelets are unable to adhere to the vascular subendothelium and agglutinate in response to ristocetin. In order to collect information on BSS patients, we established an International Consortium for the study of BSS, allowing us to enrol and genotype 132 families (56 previously unreported). With 79 additional families for which molecular data were gleaned from the literature, the 211 families characterized so far have mutations in the GP1BA (28%), GP1BB (28%), or GP9 (44%) genes. There is a wide spectrum of mutations with 112 different variants, including 22 novel alterations. Consistent with the rarity of the disease, 85% of the probands carry homozygous mutations with evidence of founder effects in some geographical areas. This overview provides the first global picture of the molecular basis of BSS and will lead to improve patient diagnosis and management.

Molecular determinants of platelet delta storage pool deficiencies: an update.

Delta storage pool deficiency (δ-SPD) is a rare heterogeneous group of platelet disorders characterized by a reduction in the number or content of dense granules. δ-SPD causes a mild to moderate bleeding diathesis characterized mainly by mucocutaneous bleeding. Currently, no specific treatment is available and the therapeutic approach is based on prevention of excessive bleeding. However, during the last few years, important insights into the pathophysiology of δ-SPD have been achieved using mouse models and dense granule deficiency-associated congenital diseases, such as Hermansky-Pudlak syndrome and Chediak-Higashi syndrome. It thus appears that δ-SPD represents a genetically heterogeneous group of intracellular vesicle biogenesis and/or trafficking disorders. This review summarizes recent data regarding the molecular mechanisms together with clinical features of the different types of δ-SPD. Although the molecular basis of isolated inherited δ-SPD remains currently unknown, next-generation sequencing strategies should enable researchers to identify the causative genes. Identification of those genes should contribute to our understanding of the pathophysiology, represent useful tools for genetic diagnosis, and eventually lead to new specific therapeutic approaches.

[Blood platelets]. / Les plaquettes sanguines.

Studies of inherited platelet disorders have led to major advances in our knowledge of platelet physiology, thus permitting the development of antiplatelet agents that are now widely used to treat vascular diseases. New therapeutic strategies have also resulted from a better understanding of megakaryocytopoiesis, notably including the use of thrombopoietin analogs for immune thrombocytopenias.

Multiple intra-abdominal venous thrombosis in ulcerative colitis: role of MDCT for detection.

Patients with ulcerative colitis are at increased risk for venous thrombosis. We report herein the case of a 28-year-old woman who developed multiple intraabdominal venous thrombosis, including partial Budd-Chiari syndrome in association with intracranial venous thrombosis and pulmonary embolism during the relapse of a known ulcerative colitis. Multidetector-row computed tomography (MDCT) allowed depiction of multiple intraabdominal sites of thrombosis including right and medial hepatic veins, left portal vein, splenic vein and left ovarian vein and demonstrated complete resolution of the multiple thrombi after anticoagulant therapy. The association of partial Budd-Chiari syndrome with other thrombi involving portal, splenic and ovarian veins in association with ulcerative colitis, has, to our knowledge never been reported yet. In addition, the potential role of MDCT in the detection of possible multiple thrombosis in patients with ulcerative colitis has never been emphasized.

Pegylated interferon-alfa-2a induces complete hematologic and molecular responses with low toxicity in polycythemia vera.

Interferon-alpha (IFN-alpha) is a nonleukemogenic treatment of polycythemia vera (PV) able to induce cytogenetic remissions. Its use is limited by toxicity, leading to treatment discontinuation in approximately 20% of patients. We completed a phase 2 multicenter study of pegylated IFN-alpha-2a in 40 PV patients. Objectives included evaluation of efficacy, safety, and monitoring of residual disease using JAK2V617F quantification (%V617F). Median follow-up was 31.4 months. At 12 months, all 37 evaluable patients had hematologic response, including 94.6% complete responses (CRs). Only 3 patients (8%) had stopped treatment. After the first year, 35 patients remained in hematologic CR, including 5 who had stopped pegylated IFN-alpha-2a. Sequential samples for %V617F monitoring, available in 29 patients, showed %V617F decrease in 26 (89.6%). Median %V617F decreased from 45% before pegylated IFN-alpha-2a to 22.5%, 17.5%, 5%, and 3% after 12, 18, 24, and 36 months, respectively. Molecular CR (JAK2V617F undetectable) was achieved in 7 patients, lasting from 6(+) to 18(+) months, and persisted after pegylated IFN-alpha-2a discontinuation in 5. No vascular event was recorded. These results show that pegylated IFN-alpha-2a yields high rates of hematologic and molecular response in PV with limited toxicity, and could even eliminate the JAK2 mutated clone in selected cases. Available at www.clinicaltrials.gov as #NCT00241241.

[Vascular complications of essential thrombocythemia]. / Manifestations vasculaires au cours des thrombocytémies essentielles.

Vascular manifestations are the main clinical complication of essential thrombocythemia (ET). They include arterial thrombosis (30-40% of patients), venous thrombosis (5%), and ischemia due to microcirculatory disorders. Their incidence is highest at disease onset and diminishes gradually thereafter. The pathophysiology of ET involves dysmegakaryocytopoiesis, leading to platelet, leukocyte and vascular endothelial cell activation. The recent discovery of the V617F mutation of the JAK2 tyrosine kinase in 50-60% of patients with ET defined a new subgroup resembling polycythemia vera. This review examines biological findings and their correlation with the risk of thrombosis. Until now, stratification of the vascular risk has relied on a clinical case-control study showing that thrombotic and vascular complications are more frequent in patients over 60 and those with a history of thrombosis. These criteria, along with a rapid increase in thrombocytosis (>1500 G/L) leading to an increase in the bleeding risk, define a high-vascular-risk subgroup of patients warranting cytoreductive therapy. Although many biological markers of dysmegakaryocytopoiesis and cellular hyperactivation have been linked to an increase in the thrombotic risk, none is available for large-scale prediction of an intermediate vascular risk. The role of the JAK2 V617F mutation itself is controversial. Whatever the ET subgroup, antiplatelet therapy is largely used, based on the results of the ECLAP prospective controlled trial that showed a statistically significant reduction in thrombotic complications in patients receiving aspirin for polycythemia vera, a very similar myeloproliferative disorder.

The role of JAK2 V617F mutation, spontaneous erythropoiesis and megakaryocytopoiesis, hypersensitive platelets, activated leukocytes, and endothelial cells in the etiology of thrombotic manifestations in polycythemia vera and essential thrombocythemia.

Exaggerated erythropoiesis and megakaryocytopoiesis are present at a variable extent in polycythemia vera (PV) and essential thrombocythemia (ET). With the recent discovery of the V617F mutation in the Janus kinase 2 (JAK2) tyrosine kinase in almost all cases of PV and in a subset of patients with ET, studies are now pending to assess the role of this mutation in the hematopoietic cell activation process and/or in the occurrence of thromboses in ET and PV. The JAK2 V617F point mutation makes the normal hematopoietic progenitor cells hypersensitive to thrombopoietin, erythropoietin, and myeloid progenitor cells, leading to trilinear hematopoietic myeloproliferation. This will have three main clinical consequences during long-term follow-up. First, spontaneous growth of enlarged mature megakaryocytes in ET/PV with overproduction of hypersensitive platelets results in a broad spectrum of platelet-mediated microvascular circulatory disturbances, which are very sensitive to low-dose aspirin. Second, spontaneous growth of erythropoiesis with the overproduction of erythrocytes leads to classic PV with increased hemoglobin, hematocrit, and red cell mass. This is associated with a high frequency of major arterial and venous thrombotic complications in addition to platelet-mediated microvascular circulatory disturbances of thrombocythemia. Third, the slowly progressive myeloid (granulocytic) metaplasia in bone marrow and spleen is complicated by secondary myelofibrosis caused by a megakaryocytic/granulocytic cytokine storm in about one fourth to one third of JAK2 V617F-positive PV patients after long-term follow-up, with no tendency of leukemic transformation as long as they are not treated with myelosuppressive agents. Randomized clinical trials directly comparing phlebotomy versus hydroxyurea or interferon alpha versus hydroxyurea in PV with progressive disease are lacking. Heterozygous V617F mutation is enough to produce the clinical picture of ET with a slight tendency to increased hemoglobin and hematocrit (early PV mimicking ET). Homozygous V617F mutation is associated with the clinical picture of classic PV and with a higher tendency to secondary myelofibrosis, but with no increased leukemia unless other biological or genetic factors come into play, such as myelosuppressive agents or the acquisition of additional biologic or genetic defects. Depending on the biological background of individual patients, heterozygous and homozygous JAK2 V617F ET/PV may preferentially induce myeloid metaplasia with myelofibrosis with a relative suppression of megakaryocytic and erythropoietic myeloproliferation leading to clinical pictures of fibrotic chronic idiopathic myelofibrosis (CIMF) or agnogenic myeloid metaplasia. The main conclusion is that JAK2 V617F is a 100% specific clue to a new distinct clonal myeloproliferative disorder. JAK2 V617F-positive ET/PV and CIMF should be distinguished from wild-type JAK2 ET, rare cases of PV, and CIMF, and should be evaluated during life-long follow-up.

High molecular response rate of polycythemia vera patients treated with pegylated interferon alpha-2a.

V617F JAK2 mutation is a reliable molecular marker of polycythemia vera (PV), potentially useful to monitor the effect of treatments in this disease. In a phase 2 study of pegylated (peg) IFN-alpha-2a in PV, we performed prospective sequential quantitative evaluation of the percentage of mutated JAK2 allele (%V617F) by real-time polymerase chain reaction (PCR). The %V617F decreased in 24 (89%) of 27 treated patients, from a mean of 49% to a mean of 27% (mean decrease of 44%; P < .001), and no evidence for a plateau was observed. In one patient, mutant JAK2 was no longer detectable after 12 months. In 3 patients homozygous for the mutation, reappearance of 50% of wild-type allele was observed during treatment. The results seem to confirm the hypothesis that IFN-alpha preferentially targets the malignant clone in PV and show that %V617F assessment using a quantitative method may provide the first tool to monitor minimal residual disease in PV. This trial was registered at www.clinicaltrials.gov as #NCT00241241.

Defective collagen-induced platelet activation in two patients with malignant haemopathies is related to a defect in the GPVI-coupled signalling pathway.

The occurrence of a thrombocytopathy concomitantly to the development of a malignant haemopathy has been reported for some time, but little is known about the mechanism(s) involved in the platelet dysfunction. Platelet glycoprotein VI (GPVI) has now been identified as a principal platelet receptor for collagen. In this paper, we report the cases of two patients with a myelodysplasia and a B lymphopathy, respectively, who presented with thrombocytopathy in relation to a defective GPVI-mediated platelet reactivity to collagen. Thus, with regard to the different steps of adhesion, activation secretion or aggregation, patients' platelet responses to collagen and to the GPVI specific agonists, collagen related peptide (CRP) or convulxin were null or dramatically impaired. Platelet responses to other agonists ADP, TRAP, Arachidonic acid were normal or showed only a moderate decrease. GPVI content was repeatedly normal, and binding of specific ligands, such as convulxin, satisfactory. Nevertheless, specific activating monoclonal antibodies and convulxin failed to induce platelet secretion; collagen, CRP or convulxin were unable to provoke calcium mobilisation. Furthermore, using a perfusion chamber model, we showed that ex vivo collagen-induced thrombi formation was very impaired. Taken together, these data provide evidence, for the first time, of an acquired defect in GPVI-mediated platelet reactivity to collagen, which reflects data observed in constitutional GPVI deficiencies, in two patients with malignant haemopathies.

Dissociation between fibrinogen and fibrin interaction with platelets in patients with different subtypes of Glanzmann's thrombasthenia: studies in an ex vivo perfusion chamber model.

To explore the possible role of a residual or variant alphaIIbbeta3 integrin (alphaIIbbeta3) in thrombogenesis, we used a new ex vivo perfusion chamber model to examine blood from patients with different subtypes of Glanzmann's thrombasthenia (GT). Non-anticoagulated blood was perfused through capillaries coated with type III collagen for 4.5 min (shear rate: 1600/s). Platelet deposition was quantified as platelet adhesion and mean thrombus size volume; fibrin and von Willebrand Factor (VWF) were specifically revealed by immunohistochemistry. In two patients with variant and in one patient with type II GT, platelet adhesion was maximal and we observed an unexpected formation of thrombi that were smaller than normal in size. These thrombi were surrounded by a thick meshwork that displayed a strong staining for fibrin and VWF. In two patients with heterozygous GT, platelet adhesion and thrombogenesis were normal. In two patients with type I GT, there was no thrombus formation, although platelet adhesion was also maximal. These data suggest the existence of a substitute pathway for thrombogenesis mediated by fibrin and possibly alphaIIbbeta3 (alphaIIbbeta3 at a reduced level, as in type II, and/or abnormal) as this fibrin network was not observed in type I GT with no alphaIIbbeta3. These interactions might facilitate haemostasis and even lead to thrombosis under certain favourable conditions. Furthermore, these data might have pharmacological relevance to the development of anti-alphaIIbbeta3 antithrombotic agents.