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  • 1
    Publication Date: 2015-02-05
    Description: Key Points DNM2-dependent endocytosis in MKs regulates megakaryopoiesis, thrombopoiesis, and bone marrow homeostasis.
    Print ISSN: 0006-4971
    Electronic ISSN: 1528-0020
    Topics: Biology , Medicine
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  • 2
    Publication Date: 2015-12-03
    Description: Blood platelets are produced in the bone marrow by megakaryocytes (MKs) in a process that requires extensive intracellular membrane rearrangements. These include the formation of the demarcation membrane system (DMS), the surface-connected membrane extension that invaginates into the cell body and further develops to provide membranes for future platelets. The precise molecular mechanisms responsible for these unique membrane rearrangements remain poorly understood. We have recently shown that Dnm2fl/fl Pf4-Cre mice specifically lacking the large GTPase dynamin 2 (DNM2) in MKs develop severe macrothrombocytopenia due to impaired receptor-mediated endocytosis (RME) (Bender, Giannini et al. Blood. 2015;125(6):1014-1024). Specifically, Dnm2fl/fl Pf4-Cre MKs accumulate arrested endocytic clathrin-coated vesicles that obstruct DMS formation. The actin nucleating factor Arp2/3 complex and polymerized actin clustered with clathrin at sites of impaired RME in Dnm2fl/fl Pf4-Cre MKs. We hypothesized that a DNM2 partner recruits actin-regulatory proteins at sites of RME and investigated the contribution of the F-BAR protein PACSIN2, an internal component of the initiating DMS (Jurak Begonja, Pluthero et al. Blood. 2015;126(1):80-88), in DMS formation and platelet production, as PACSIN2 interacts with DNM2 and actin-regulatory proteins such as N-WASP and filamin A (FlnA). Pacsin2-/- mice developed mild thrombocytopenia with slightly enlarged and shallow platelets. The DMS appeared less well defined and platelet territories were not readily visualized in Pacsin2-/- MKs. Pacsin2-/- Dnm2fl/fl Pf4-Cre mice lacking both PACSIN2 and DNM2 in MKs were further generated to determine the contribution of PACSIN2 in clathrin and actin clustering in Dnm2fl/fl Pf4-Cre MKs. Strikingly, PACSIN2 genetic deletion significantly improved the severe thrombocytopenia of Dnm2fl/fl Pf4-Cre mice. Specifically, PACSIN2 deletion abrogated the accumulation of clathrin and actin clusters, thereby unclogging DMS formation, which appeared as elongated maze-like membrane tubules in Pacsin2-/- Dnm2fl/fl Pf4-Cre MKs. Our results show that DNM2 terminates PACSIN2-dependent actin polymerization that accompanies RME, thereby allowing membrane rearrangements required for DMS formation. Disclosures No relevant conflicts of interest to declare.
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  • 3
    Publication Date: 2015-12-03
    Description: Somatic mutations in calreticulin (CALR), an endoplasmic reticulum (ER) chaperone protein, are found in up to 40% of patients with myeloproliferative neoplasms (MPN). All pathologic CALR mutations are out-of-frame insertion and/or deletions (indels) in exon 9, generating a 1 base-pair (bp) frame shift and a common mutant-specific C-terminus, with the most common mutation being a 52 bp deletion (del52). The observation that CALR mutations are mutually exclusive with other MPN-initiating mutations such as JAK2V617F suggests a key pathogenic role for mutant CALR. To determine if mutant CALR alone is sufficient to induce MPN we began by over-expressing CALR-del52 in a retroviral bone marrow transplant (BMT) mouse model. We found that CALR-del52-expressing mice develop thrombocytosis and megakaryocytic hyperplasia, recapitulating the megakaryocyte-specific phenotype of CALR-mutant MPN patients. These findings suggest that the thrombopoietin receptor, MPL plays a key role in the pathogenesis of mutant CALR-driven MPN. To evaluate the role of MPL in mutant CALR driven oncogenesis, we over-expressed CALR-del52 in interleukin-3 (IL-3)-dependent Ba/F3 hematopoietic cells. We found that CALR-del52 over-expression results in transformation to IL3-independent growth only in Ba/F3 cells co-expressing MPL, but not in parental Ba/F3 cells or Ba/F3 cells co-expressing the EPO receptor (EPOR) or the G-CSF receptor (GCSFR). We found similar results in human cytokine-dependent UT-7 cells. We also introduced +1 frameshift mutations into the endogenous Calr locus in Ba/F3-MPL cells using CRISPR/Cas9 gene editing and successfully engendered IL-3 independent growth, indicating that endogenous levels of mutant Calr expression are sufficient for transformation. Together, these data indicate that MPL is specifically required for the transforming capacity of mutant CALR. Using RNA-sequencing followed by gene set enrichment analysis (GSEA), we confirmed that mutant CALR transformed Ba/F3-MPL cells display strong enrichment of Stat5 and Stat3 gene expression signatures. Concordantly, we also saw differential phosphorylation of Stat5 and Stat3 in these cells. Furthermore, we found that the IL-3 independent proliferation of mutant CALR expressing Ba/F3-MPL cells is decreased upon shRNA-mediated knockdown of Jak2, and that differential activation of Stat5 and Stat3 is abrogated by the JAK2 inhibitor, ruxolitinib. Together, these data demonstrate that mutant CALR signals through the JAK/STAT axis downstream of MPL. We next sought to define the specific domains within mutant CALR required for oncogenic transformation. We found that neither expression of the mutant C-terminus alone nor expression of CALR lacking the C-terminus leads to cytokine-independent growth, suggesting that the novel C-terminus is necessary (but not sufficient) for transformation. We therefore generated an extensive series of truncation, domain deletion and point mutations within the C-terminus and assessed their respective transforming capabilities. Surprisingly, we found that the oncogenic activity of mutant CALR is not encoded within a specific sequence or domain of the mutant C-terminus. Rather, we found that the positive electrostatic charge of the mutant C-terminus is critical for its transforming capacity. Mutagenizing all 18 lysine/arginine residues (positively charged) within the C-terminus to a neutral glycine residue abrogates CALR-del52 transformation activity. In contrast, mutagenizing the 18 non-lysine/arginine residues within the C-terminus to glycine does not affect transforming activity, a remarkable finding considering that, in this mutant, 50% of the amino acids have been modified. Finally, using co-immunoprecipitation assays we found that mutant CALR, but not wild-type CALR, physically interacts with MPL, and that neither the mutant C-terminus alone nor mutant CALR lacking the C-terminus can bind to MPL. This suggests that the tertiary structure of mutant CALR is required for binding to MPL. Moreover, we found that the ability of our engineered CALR mutants to bind MPL perfectly correlates with their ability to mediate transformation, suggesting that the interaction with MPL is critical for mutant CALR-mediated transformation. Together, our findings elucidate a novel mechanism of pathogenesis in MPN and provide insights into how CALR mutations drive the development of MPN. Disclosures: No relevant conflicts of interest to declare.
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  • 4
    Publication Date: 2015-12-03
    Description: Glycosylation defects have been associated with low platelet counts. Six genes encoding sialyltransferases (ST), ST3gal1 to 6, that synthesize an α2,3 sialic acid (SA) linkage have been identified in the mammalian genome, and deletion of St3gal1 and St3gal4 genes has been associated with macrothrombocytopenia in mice. Despite the similarity in transferring SA in a α2,3-linkage to terminal galactose residues, St3gal1 and St3gal4 sialylate distinct glycans: St3gal1 is associated with core 1 O-glycan Galβ1,3GalNAcα1-Ser/Thr expression, also known as tumor-associated or Thomsen-Friedenreich antigen (T-antigen), whereas St3gal4 sialylates lactosaminyl Galβ1,4GlcNAc N-glycans. It has been previously shown that St3gal4-null platelets are cleared by the hepatic Ashwell-Morell receptor, causing severe thrombocytopenia in these mice. Herein, we generated St3gal1loxP/PF4+ mice specifically lacking ST3Gal1 in the megakaryocyte (MK) lineage to investigate the detailed mechanisms of macrothrombocytopenia associated with St3gal1 deficiency. Both St3gal1loxP/PF4+ circulating platelets and bone marrow (BM) MKs had increased T-antigen expression, compared to control, as evidenced by peanut agglutinin (PNA) binding. As expected, other blood cell lineages had no increase in T-antigen expression. Blood platelet counts were reduced by ~50% and platelets were enlarged in St3gal1loxP/PF4+ mice, compared to control, despite a virtually indistinguishable platelet clearance. BM MK numbers were normal despite the observed thrombocytopenia, BM MK colony forming units (CFUs) were reduced and in vitro proplatelet production was normal in St3gal1loxP/PF4+ mice, suggesting that extrinsic factors in the St3gal1loxP/PF4+ BM environment affected platelet production. We hypothesize that recognition of the T-antigen epitope on MKs mediate phagocytosis by macrophages. Macrophages in St3gal1loxP/PF4+ mice had increased expression of CD68 (macrosialin), indicative of an activated macrophage state. Flow cytometric analysis of BM derived macrophages of St3gal1loxP/PF4+ mice showed an increased population of resolving M2-type macrophages, which are normally involved in apoptotic cell clearance. Additionally, St3gal1loxP/PF4+ BM smears revealed increased hemophagocytosis, as evidenced by May-Grunwald/Giemsa, indicative of an unspecific increase in phagocytic macrophages. Macrophage ablation by in vivo injection of clodronate-encapsulated liposomes significantly reduced the numbers of activated macrophages in St3gal1loxP/PF4+ mice, thereby normalizing blood platelet counts and size. Taken together data show the contrasting effects of different SA loss on platelet homeostasis: Platelets lacking α2,3-linked SA on N-glycans have increased platelet clearance, whereas a lack of α2,3-linked on O-glycans do not affect platelet half-life, but cause defective thrombopoiesis in MKs. Disclosures No relevant conflicts of interest to declare.
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  • 5
    Publication Date: 2014-12-06
    Description: Changes in glycans expression have been associated with defects in blood platelet counts. However, the role of posttranslational modifications on platelet production is poorly understood. Six genes encoding sialyltransferases (ST)3Gal-I to -VI that form a2-3 sialic acid linkage have been identified in the mammalian genome, and deletion of St3gal1 and St3gal4 genes has been associated with macrothrombocytopenia in mice. We and others have shown previously that St3gal4-null platelets are cleared by the hepatic Ashwell-Morell receptor. Loss of ST3Gal-I activity has been associated with core 1 O-glycan Galβ1-3GalNAcα1-Ser/Thr expression, also known as tumor-associated or Thomsen-Friedenreich antigen (T antigen). We here investigated the detailed mechanisms of macrothrombocytopenia associated with St3gal1 deficiency by generating St3gal1loxP/PF4+ mice that lack ST3Gal-I specifically in the megakaryocyte (MK) lineage. Blood platelet counts were reduced by ~50% in St3gal1loxP/PF4+ mice, compared to control mice. Other blood cell counts were normal in St3gal1loxP/PF4+ mice. The clearance rate of St3gal1-null platelets was increased by ~15%, as determined by in vivo platelet biotinylation. Bone marrow MK numbers were normal in St3gal1loxP/PF4+ mice, compared to control mice, indicating that mechanisms other than clearance regulate circulating platelet counts in St3gal1loxP/PF4+ mice. Both St3gal1loxP/PF4+ platelets and bone marrow MKs had increased T antigen expression, as evidenced by flow cytometry using peanut agglutinin (PNA) binding. St3gal1loxP/PF4+ mice had increased bone marrow macrophage numbers, as evidenced by immunohistochemistry and flow cytometry using the macrophage marker F4/80. Macrophages in St3gal1loxP/PF4+ mice had increased expression of CD68 (macrosialin), as determined by immunohistochemistry and flow cytometry, indicative of an activated macrophage state. Consistently, St3gal1loxP/PF4+ bone marrow smears stained with May-Grunwald/Giemsa revealed increased hemophagocytosis. Macrophage ablation by in vivo injection of clodronate-encapsulated liposomes normalized blood platelet counts and size, and significantly reduced the numbers of activated macrophages in St3gal1loxP/PF4+ mice. Together, our data indicates that platelet production in the bone marrow is reliant on correct glycosylation on MK surface proteins and that the intimate interaction between MKs and macrophages play an important role in regulating platelet production and bone marrow homeostasis. Disclosures No relevant conflicts of interest to declare.
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  • 6
    Publication Date: 2019-11-13
    Description: Our understanding of cell biological processes involved in aging has advance greatly over the past decades. Platelets are small cells that circulate for 4-5 days in mice and 7-10 days in humans. And even though, platelets are anucleated cells, a growing body of evidence shows that platelet clearance is a well-regulated mechanism. We have recently demonstrated that platelets lose sialic acid as they circulate and age in blood and are rapidly cleared by the hepatic Ashwell-Morell receptor (AMR). And others have shown, in a series of studies using genetically modified mice or pharmacological inhibitors that platelets undergo apoptosis by triggering the intrinsic mitochondrial apoptotic machinery. Here, we investigate if desialylation and apoptosis are related events. First, using a newly developed state-of-the-art technique called dynamic BH3 profiling (DBP), we investigated the mitochondria readiness to undergo apoptosis on platelets derived from WT and AMR deficient (Asgr2-/-) mice. In our assay, digitonin-permeabilized platelets were exposed to activators signaling peptides (such as Bim, Bid and PUMA), and as cells undergo apoptosis due to peptide treatment, they released Cytochrome C. Our data showed that desialylated platelets derived from Asgr2-/-mice have high background levels of Cytochrome C release when compared to WT platelets in the presence of all activator peptides, indicating that desialylated platelets are highly primed to apoptosis. We also tested the level of dependence on pro-survival protein, by using sensitizer peptides (Bad, Hrk and MS1). We observed that desialylated platelets (Asgr2-/-platelets), and to a certain degree, WT platelets, are extremely sensitive to BCL-xL inhibition, as indicated by the extremely high response to Bad and Hrk peptides even at lower concentrations (0.1 and 1uM). Surprisingly, WT and Asgr2-/-platelets show very little response to the MS1 peptide, indicating that they are not dependent on MCL1 for survival, as otherwise suggested. Flow cytometry analysis revealed desialylated platelets from Asgr2-/-mice have a ~2-fold increase in Phosphatidylserine (PS) surface exposure when compared to WT platelets. In addition, western blot analysis showed increased expression of cleaved caspase 3 in Asgr2-/-platelets, but no changes in Bcl-xL protein expression between WT and Asgr2-/-platelets. Next, WT and Asgr2-/-mice received a single dose of the BH3 mimetic, ABT-737, which binds and inhibits pro-survivor proteins (Bcl-2, Bcl-xL and Bcl-w) inducing apoptosis in vivo. Approximately 2 hours after the injection of ABT-737, we observed a big drop on platelets counts in both WT (~42%) and Asgr2-/-(~59%) mice. Importantly, platelets from Asgr2-/-mouse were cleared more efficiently (~20%) from the circulation when compared to those in WT mice, consistent with the ~20% increment in platelet number observed in this mouse model and supporting the notion that the platelets that circulate longer in the Asgr2-/-mice are more sensitive to apoptotic events. To investigate if apoptosis could be triggering platelet desialylation, WT mice were treated with ABT-737 and 1hour later (time point before platelet count drop), platelets were collected and analyzed by flow cytometry. Interestingly, analysis of galactose exposure by RCA-I lectin showed no differences in desialylation between ABT-737 and PBS control groups. On the other hand, Phosphatidylserine (PS) exposure was significantly elevated on ABT-737 group, indicating that platelets were undergoing apoptosis without changing their sialylated status. To confirm our in vivodata, freshly isolated washed WT platelets were treated with ABT-737 to induce apoptosis or Neuraminidase (NA) to desialylated platelets. NA treatment induced platelet desialylation (increased RCA-I binding) in WT platelets, as expected, and interestingly triggered apoptosis, judge by increased PS exposure in both ABT-737 and NA treated groups. However, ABT-737 treatment wasn't able to induce desialylation as levels of RCA-I binding to platelets was the same when compared to PBS control platelets. Taken together, our data shows that desialylated platelets in circulation are prone to apoptosis. In addition, our findings strongly support the hypothesis that desialylation of platelet surface glycoproteins trigger the intrinsic apoptotic pathway in platelets in vivo. Disclosures No relevant conflicts of interest to declare.
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  • 7
    Publication Date: 2015-10-15
    Description: The human body produces and removes 1011 platelets daily to maintain a normal steady state platelet count. Platelet production must be regulated to avoid spontaneous bleeding or arterial occlusion and organ damage. Multifaceted and complex mechanisms control platelet production and removal in physiological and pathological conditions. This review will focus on different mechanisms of platelet senescence and clearance with specific emphasis on the role of posttranslational modifications. It will also briefly address platelet transfusion and the role of glycans in the clearance of stored platelets.
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  • 8
    Publication Date: 2005-03-01
    Description: Platelets are necessary for lung leukocyte recruitment in a murine model of allergic inflammation, and platelet–leukocyte aggregates are formed in circulating blood of patients with asthma after allergen exposure. However, it is unknown how platelets induce pulmonary leukocyte recruitment in asthma. Here, we have investigated the importance of platelet adhesion molecule expression on pulmonary eosinophil and lymphocyte recruitment and on leukocyte CD11b and very late antigen (VLA)–4 expression in mice. Pulmonary leukocyte recruitment in platelet-depleted mice (sensitized and exposed to ovalbumin) transfused with fixed, unstimulated platelets (FUSPs) was abolished, whereas transfusion with platelets stimulated and fixed (FSPs), expressing P-selectin and P-selectin glycoprotein ligand-1 (PSGL-1), restored eosinophil and lymphocyte recruitment. Transfusion with platelets from P-selectin–deficient mice, or with FSPs stimulated in the presence of a blocking anti–P-selectin antibody, were unable to restore pulmonary leukocyte recruitment. Flow cytometric analysis revealed increased expression of CD11b and VLA-4 on leukocytes attached to platelets after allergen exposure, and CD11b expression on leukocytes was suppressed in thrombocytopenic mice but was restored with the transfusion of FSPs, but not FUSPs, a phenomenon concurrent with the formation of platelet–leukocyte complexes. P-selectin expression on the surfaces of platelets is a major requirement for pulmonary eosinophil and lymphocyte recruitment, allowing circulating platelets to bind to and stimulate leukocytes for endothelial attachment.
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  • 9
    Publication Date: 2014-12-06
    Description: Dynamins are large and highly conserved GTPases involved in endocytosis and vesicle trafficking. Mutations K562E/del in the ubiquitous dynamin 2 (DNM2) have been associated with thrombocytopenia in humans. To determine the role of DNM2 in megakaryopoiesis we generated Dnm2fl/fl Pf4-Cre mice specifically lacking DNM2 in the megakaryocyte (MK) lineage. Dnm2fl/fl Pf4-Cre mice were viable, but had severe macrothrombocytopenia with moderately accelerated platelet clearance and prolonged bleeding due to poorly functional platelets. Dnm2-null bone marrow MKs had altered demarcation membrane system, appearing at times as a compact, narrow twisting membrane system of clathrin-coated vesicles. Fetal liver cell derived Dnm2-null MKs formed proplatelets poorly in vitro, showing that DNM2 plays a major role in MK membrane formation and thrombopoiesis. Both endogenous DNM2 and overexpressed DNM2 WT, but not DNM2 K562E/del mutants localized with the early endosome in bone marrow MKs. The endocytic pathway was disrupted in Dnm2-null MKs, as evidenced by severely reduced early endosome EEA1 and APPL1 staining and weak LysoTracker internalization. Endocytosis of the thrombopoietin (TPO) receptor Mpl was impaired in Dnm2-null platelets, causing constitutive phosphorylation of the tyrosine kinase JAK2 and elevated circulating TPO levels. MK-specific DNM2 deletion severely disrupted bone marrow homeostasis, as reflected by massive MK hyperplasia and myelofibrosis, and consequent extramedullary hematopoiesis and splenomegaly. However, additional Mpl genetic deletion failed to rescue the severe splenomegaly of Dnm2fl/fl Pf4-Cre mice, and Mpl-/- Dnm2fl/fl Pf4-Cre mice instead died at 4-5 weeks of age. Taken together, our data demonstrates that unrestrained MK growth and proliferation results in rapid myelofibrosis independently of Mpl expression and other bone marrow cell types, and establishes a previously unrecognized role for DNM2-dependent endocytosis in megakaryopoiesis, thrombopoiesis and bone marrow homeostasis. Disclosures No relevant conflicts of interest to declare.
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  • 10
    Publication Date: 2014-12-06
    Description: Platelet recovery following bone marrow transplant and radiochemotherapy is crucial to prevent bleeding complications. Defects in glycosylation have been associated with decrease in blood platelet counts. However, the role of posttranslational modification in platelet production remains elusive. We here investigated the role of β1,4 galactosyltransferase 1 (β4GalT1), the key glycosyltransferase regulating lactosaminoglycan (LacNAc or βGal1,4 GlcNAc) expression by adding galactose (Gal) to terminal N-acetylglucosamine (GlcNAc), in platelet production. Stromal cell-derived factor 1 (SDF-1), but not thrombopoietin promotes megakaryocyte (MK) migration towards the bone marrow sinusoids, thereby increasing platelet production. SDF-1 (CXCL12) upregulated LacNAc expression in fetal liver wild type (WT), but not β4galt1-null megakaryocytes (MKs) lacking β4GalT1, suggesting that SDF-1 promotes LacNAc expression in vivo to regulate MK migration and platelet production. In support of this hypothesis, β4galt1-null mice had severe macrothrombocytopenia with increased bone marrow MK numbers, but normal platelet clearance. Ploidy, expression of the major glycoproteins (GPIbα/V/IX and αIIbβ3) and the surface expression of the SDF-1 receptor CXCR4 were normal in β4galt1-null bone marrow MKs. However, β4galt1-null bone marrow MKs had increased surface and total β1 integrin expression, as determined by flow cytometry, immunoblot and immunofluorescence. Mature CD42b/CD41 positive β4galt1-null MKs co-localized poorly with endoglin positive bone marrow sinusoids (49.9 ± 2.1 %), compared to WT MKs (72.4 ± 0.6 %). Expression of laminin, the major β1 integrin ligand, was upregulated in β4galt1-null MKs, suggesting that loss of LacNAc expression on β1 integrin increased its function. To exclude an extrinsic contribution to the failure of β4galt1-null MKs to migrate, β4galt1-null fetal liver (E14.5) hematopoietic cells (FLHCs) were transplanted in lethally irradiated WT mice. Transplanted β4galt1-null FLHCs restored bone marrow MKs, but failed to migrate to sinusoids and produce circulating platelets. In marked contrast, production of β4galt1-null white blood cells was normal. Together, our results suggest that SDF-1 upregulates β4GalT1-dependent LacNAc expression to promote MK migration and interaction with BM sinusoids, likely regulating MK β1 integrin expression and interaction with components of the extracellular matrix, specifically laminin. Understanding of the mechanisms regulating posttranslational modifications induced by various hematopoietic stimulating chemokines and cytokines will contribute to better platelet recovery following bone marrow transplant and radiochemotherapy. Disclosures No relevant conflicts of interest to declare.
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