ALBERT

Description: Mobilized peripheral blood progenitors (CD34+ cells) have been shown to be either in the G0 or G1 phase of the cell cycle. In this study, it is shown that they are small cells with low protein content suggestive of G0. Support for this is provided by showing that the principal E2F complex consists of hypophosphorylated p130, E2F-4, and DP-1. The E2F-4 is more highly phosphorylated than in quiescent T cells. In response to cytokines in vitro, the CD34+ cells start to enter G1 within 8 hours and enter S-phase at about 48 hours. As cells enter G1, E2F-4 is dephosphorylated to several hypophosphorylated forms and three new DNA-binding complexes appear, including one containing E2F-4, DP-1, and p107. We suggest that mobilized CD34+ cells may be maintained in G0 by p130, E2F-4, and DP-1 and the coordinate dephosphorylation of E2F-4 and hyperphosphorylation of p130 may be central to the initiation of proliferation.

Description: Intermittent painful crises due to vasoocclusion are the major clinical manifestation of sickle cell disease (SCD), but subclinical episodes may also occur. There is sparse evidence for the involvement of neutrophils in the pathophysiology of SCD, but production of cytokines by the damaged endothelium might influence neutrophil function and modulate responses to subsequent cytokine exposure. In addition, the activation of neutrophils in the microcirculation could itself exacerbate vasoocclusion. To test whether neutrophil inflammatory responses were altered in SCD, neutrophil phospholipase A2 and NADPH oxidase activity in response to in vitro priming by granulocyte-macrophage colony-stimulating factor (GM-CSF) and tumor necrosis factor-α (TNF-α) were measured both during and between painful crises. Resting levels of neutrophil phospholipase A2 activity in steady-state SCD (4.0% ± 0.5% of total cell radioactivity) were raised relative to control values (2.0% ± 0.2%, n = 10, P = .008). There was no defect of agonist-stimulated phospholipase A2 or NADPH oxidase activity in steady-state SCD; however, the ability of phospholipase A2 to respond to priming with GM-CSF was attenuated to 63% ± 17% of control values (n = 10,P = .04). Similarly, neutrophil NADPH oxidase activity after priming with GM-CSF and TNF-α was, respectively, 65% ± 11% (n = 7, P = .03) and 57% ± 7% of control (n = 10, P = .007) in steady-state disease, and was further reduced during painful vasoocclusive crises to 34% ± 9% and 25% ± 3% of control for GM-CSF and TNF-α, respectively. These data were not explained by poor splenic function or any racial factor, as normal cytokine responses were seen in splenectomized patients in remission from Hodgkin's disease and in healthy Afro-Caribbean subjects. Abnormal neutrophil cytokine priming responses were not observed in either patients with rheumatoid arthritis or iron-deficiency anemia. Our findings are indicative of an ongoing inflammatory state in SCD between painful crises involving neutrophil activation and an abnormality of cytokine-regulated neutrophil function, which may compromise the host defenses against certain microorganisms.

Description: Investigation of the molecular basis of megakaryocyte (MK) and platelet biology has been limited by an inadequate source of genetically manipulable cells exhibiting physiologic MK and platelet functions. We hypothesized that ex vivo cultured MKs would exhibit agonist inducible glycoprotein (GP) IIb-IIIa activation characteristic of blood platelets and that these cultured MKs would be capable of transgene expression. Microscopic and flow cytometric analyses confirmed that human hematopoietic stem cells cultured in the presence of pegylated recombinant human MK growth and development factor (PEG-rHuMGDF) differentiated into morphologic and phenotypic MKs over 2 weeks. Cultured MKs expressed functional GPIIb-IIIa receptors as assessed by agonist inducible soluble fibrinogen and PAC1 binding. The specificity and kinetics of fibrinogen binding to MK GPIIb-IIIa receptors were similar to those described for blood platelets. The reversibility and internalization of ligands bound to MK GPIIb-IIIa also shared similarities with those observed in platelets. Cultured MKs were transduced with an adenoviral vector encoding green fluorescence protein (GFP) or β-galactosidase (β-gal). Efficiency of gene transfer increased with increasing multiplicities of infection and incubation time, with 45% of MKs expressing GFP 72 hours after viral infection. Transduced MKs remained capable of agonist induced GPIIb-IIIa activation. Thus, ex vivo cultured MKs (1) express agonist responsive GPIIb-IIIa receptors, (2) are capable of expressing transgenes, and (3) may prove useful for investigation of the molecular basis of MK differentiation and GPIIb-IIIa function.

Description: Essential thrombocythemia (ET) is traditionally considered to be a clonal disorder. No specific karyotypic abnormalities have been described, but the demonstration of clonality using X-chromosome inactivation patterns (XCIPs) has been used to differentiate ET from a non-clonal reactive thrombocytosis. However, these assays may be difficult to interpret, and contradictory results have been reported. We have studied 46 females with a diagnosis of ET according to the Polycythemia Vera Study Group (PVSG) criteria. XCIP results in 23 patients (50%) were uninterpretable due to either constitutive or possible acquired age-related skewing. Monoclonal myelopoiesis could be definitively shown in only 10 patients. Thirteen patients had polyclonal myelopoiesis, and in 8, it was possible to exclude clonal restriction to the megakaryocytic lineage. Furthermore, there was no evidence of clonal progenitors in purified CD34+CD33− and CD34+CD33+ subpopulations from bone marrow of 2 of these 13 patients. There was no difference between patients with monoclonal and polyclonal myelopoiesis with respect to age or platelet count at diagnosis, duration of follow-up, incidence of hepatosplenomegaly, or hemorrhagic complications. However, polyclonal patients were less likely to have experienced thrombotic events (P = .039). These results suggest that ET is a heterogeneous disorder, and the clinical significance of clonality status warrants investigation in a larger study.

Description: The initiation of primary hemostasis is mediated by interaction of the platelet glycoprotein Ib (GPIb) surface receptor and its arterial subendothelial von Willebrand factor (vWF) ligand. The intracellular signaling immediately following GPIb receptor occupancy connecting the adhesive event to platelet activation and aggregation has not been well characterized. The 14-3-3 proteins are a 27- to 30-kD ubiquitous protein family with diverse biologic roles, including functional modulation of several prominent signaling proteins. We used the yeast two-hybrid system and confocal microscopy to characterize the recently described interaction between GPIb and platelet 14-3-3ζ, and provide evidence for the potential signaling role of this protein. Two-hybrid interactions suggest that platelet 14-3-3ζ associates with the cytoplasmic domain of GPIb subunits Ibα and Ibβ in transformed yeast cells. The 14-3-3 interaction with GPIbβ may be partly mediated through the latter's phosphorylated serine 166 residue as its mutagenesis results in 20% to 40% reduced interaction. There was 51% to 59% reduced interaction between GPIb and three 14-3-3ζ deletion mutants compared with full-length 14-3-3ζ, suggesting that either theN-terminal dimerization or membrane-binding domains or more than one noncontiguous 14-3-3ζ element may be required for optimal GPIb interaction. Confocal studies of platelets and a megakaryocyte cell line provided additional evidence for interaction of 14-3-3ζ with GPIbα and GPIbβ. We also found that, similar to the signaling mediators phosphatidylinositol 3-kinase and Src, platelet cytoskeletal 14-3-3ζ content is increased following vWF and ristocetin stimulation. We suggest that platelet 14-3-3ζ interacts with GPIbα and Ibβ, that this interaction may be partly mediated through phosphoserine recognition, and that 14-3-3ζ cytoskeletal translocation may serve as a GPIb post–receptor occupancy signaling event.

Description: Investigation of the molecular basis of megakaryocyte (MK) and platelet biology has been limited by an inadequate source of genetically manipulable cells exhibiting physiologic MK and platelet functions. We hypothesized that ex vivo cultured MKs would exhibit agonist inducible glycoprotein (GP) IIb-IIIa activation characteristic of blood platelets and that these cultured MKs would be capable of transgene expression. Microscopic and flow cytometric analyses confirmed that human hematopoietic stem cells cultured in the presence of pegylated recombinant human MK growth and development factor (PEG-rHuMGDF) differentiated into morphologic and phenotypic MKs over 2 weeks. Cultured MKs expressed functional GPIIb-IIIa receptors as assessed by agonist inducible soluble fibrinogen and PAC1 binding. The specificity and kinetics of fibrinogen binding to MK GPIIb-IIIa receptors were similar to those described for blood platelets. The reversibility and internalization of ligands bound to MK GPIIb-IIIa also shared similarities with those observed in platelets. Cultured MKs were transduced with an adenoviral vector encoding green fluorescence protein (GFP) or β-galactosidase (β-gal). Efficiency of gene transfer increased with increasing multiplicities of infection and incubation time, with 45% of MKs expressing GFP 72 hours after viral infection. Transduced MKs remained capable of agonist induced GPIIb-IIIa activation. Thus, ex vivo cultured MKs (1) express agonist responsive GPIIb-IIIa receptors, (2) are capable of expressing transgenes, and (3) may prove useful for investigation of the molecular basis of MK differentiation and GPIIb-IIIa function.

Description: The MpL ligand (ML) is a potent stimulus for thrombocytopoiesis. To create an in vivo model of ML deficiency, we injected dogs with a recombinant human ML (rhML) to determine whether cross-reacting antibodies would develop and cause thrombocytopenia. RhML was administered subcutaneously for 8 weeks to three normal dogs (mean platelets, 197 ± 5.5 × 103/μL). Within 5 days their platelet counts were twice baseline and greater than 4 times baseline by day 21. Then, uniformly, chronic thrombocytopenia developed. At 1 week after terminating rhML, mean platelets were 0.5 times baseline and at 2 months 0.25 times baseline. Early in treatment, marrow biopsies showed increased megakaryocyte number and ploidy, which decreased as platelets declined. Paralleling these changes, high titer anti-rhML antibodies developed. Autologous 51Cr-labeled platelet recovery and survival measurements indicated that the thrombocytopenia was principally due to decreased production. Infusion of plasma from the thrombocytopenic dogs into two normal dogs and one dog previously made thrombocytopenic with rhML caused platelet counts to fall gradually. These studies show that dogs with anti-rhML antibodies develop thrombocytopenia, presumably because the cross-reacting antibodies neutralize endogenous canine ML. The results strongly suggest that ML plays an essential role in maintaining normal platelet levels.

Description: All-trans retinoic acid (tRA) is a potent differentiation agent that is effective therapy for acute promyelocytic leukemia (APL). However, 5% to 25% of patients develop retinoic acid syndrome, a potentially life-threatening complication in which the pathogenesis relates to adhesive alterations of APL cells. Therefore, we investigated the relationship between tRA-induced differentiation and the adhesive properties of APL cells. After confirming differentiation-related morphological changes of NB-4 cells in response to tRA, we showed that homotypic aggregation of NB-4 cells grown in tRA for 72 hours is dose-dependent with a median effective dose of approximately 50 nmol/L. Maximal aggregation occurred at mean and peak therapeutic serum concentrations (100 and 1,000 nmol/L, respectively). Aggregation also increased with the length of tRA exposure over 168 hours. Aggregation was inhibited by neutralizing antibodies against LFA-1 and ICAM-2. Notably, antibodies directed against VLA-4, other β2 integrins (Mac-1 and p150), or other potential LFA-1 counterstructures that were expressed on the cell surface (ICAM-1 and ICAM-3) did not block aggregation. Aggregation occurred with similar kinetics regardless of the presence of phorbol ester or the “activating” monoclonal antibody (MoAb) KIM 185, suggesting that the avidity of LFA-1 is not modulated on NB-4 cells in a manner similar to other leukocytes. Consistent with the prompt clinical effectiveness of methyl prednisolone sodium succinate (MPSS) in retinoic acid syndrome, MPSS rapidly inhibited homotypic aggregation in a dose-dependent manner. Thus, tRA alters the adhesive properties of APL cells by inducing the expression of high-avidity β2 integrins, aggregation is inhibited by LFA-1 and ICAM-2 MoAb, and tRA effects are rapidly reversible by MPSS. Taken together, our findings provide a clinically relevant system for study of LFA-1/ICAM-2 interaction and suggest a mechanism in part for retinoic acid syndrome and the effectiveness of MPSS in ameliorating retinoic acid syndrome.

Description: Three novel splice site mutations and two novel missense mutations were identified by molecular analysis of pyruvate kinase (PK) deficiency associated with hereditary nonspherocytic hemolytic anemia. A Nepalese PK variant, PK Kowloon, was found to have a homozygous transversion at the 5′-splice site of the seventh intervening sequence (IVS) of the L-type PK gene (Ivs7[+1]gt → tt). Using a reverse transcription polymerase chain reaction (RT-PCR) assay, we showed that the R-type PK mRNA in the proband's reticulocytes included the seventh IVS between the seventh and eighth exon, introducing a stop codon 3 nucleotides downstream of the mutated site. Consequently, the translational product may lack 44% of the R-PK polypeptide. A transition at the last nucleotide of exon 9 (1269GCG → GCA) was found in a Japanese PK variant, PK ‘Kamata.’ The mutation did not alter the amino acid sequence, but caused skipping of the ninth exonic sequence in the R-PK transcripts. As a result, the affected R-type PK lost 51 amino acid residues (373Met-423Ala del). A transversion at the splice acceptor site of the third IVS (Ivs 3[-2]ag → tg) was identified in PK ‘Aomori.’ The mutation resulted in aberrant splicing at a cryptic splice site within exon 4, causing deletion of two codons in the aberrant R-PK transcript (95 Gly-96 Pro → del). Both PK ‘Kamata’ and PK ‘Aomori’ had a missense mutation on the other allele, 1044AAG → AAT (348Lys → Asn) and 1075CGC → TGC (359Arg → Cys), respectively. Although both 348Lys and 359Arg were located in the sixth loop of A domain (β/α)8 barrel, which has been shown to contain the substrate and cation binding sites, the degree of anemia was much more severe in PK ‘Kamata’ than PK ‘Aomori,’ possibly because the 51 amino acid deletion of PK ‘Kamata’ but the 2 amino-acid deletion of PK ‘Aomori’ may abolish PK catalytic activity.