Acute megakaryoblastic leukaemia (AMKL) and transient myeloproliferative disorder (TMD) in Down syndrome: a multi-step model of myeloid leukaemogenesis

Children with Down syndrome (DS) have a marked increase in susceptibility to Acute Megakaryoblastic Leukaemia (DS-AMKL) and the closely linked neonatal preleukaemic syndrome, Transient Myeloproliferative Disorder (DS-TMD). The distinct stages of DS-TMD and DS-AMKL provide an excellent tractable model to study leukaemogenesis. This review focuses on recent studies describing clinical, haematological and biological features of DS-AMKL and DS-TMD. The findings from these studies suggest that mutations in the key haemopoietic regulator GATA1 (GATA binding protein 1) in DS-AMKL and DS-TMD may be useful in diagnosis and assessing minimal residual disease. These findings raise the possibility of population-based screening strategies for DS-TMD and the development of treatment to eliminate the preleukaemic TMD clone to prevent DS-AMKL. Advances in our understanding of perturbed haemopoiesis in DS, the role of GATA1 and of cooperating mutations are also discussed. These findings have implications for leukaemia biology more broadly given the frequency of acquired trisomy in other human leukaemias.     

Acute megakaryoblastic leukemia following transient myeloproliferative disorder in a patient without down syndrome

Transient myeloproliferative disorder (TMD) and subsequent acute myeloid leukemia (AML) occur with increased frequency in infants and children with Down syndrome. TMD can also occur in phenotypically normal newborns. We describe the second case of a non-Down syndrome child with TMD who subsequently developed AML. Trisomy 21 karyotype was restricted to hematopoietic cells in the blood and bone marrow. No other karyotypic abnormalities were found. Leukemic blasts showed megakaryoblastic features with immunophenotyping. This case shows that TMD in a child without Down syndrome may not be entirely benign. Close follow-up is warranted. © 1994 Wiley-Liss, Inc.     

Transient myeloproliferative disorder in neonates without Down syndrome: case report and review

Transient myeloproliferative disorder (TMD) is a clonal proliferation of megakaryoblasts, typically occurring in newborns with Down syndrome. It is believed that TMD occurs in the presence of GATA1 mutation together with trisomy 21. However, a limited number of patients with TMD but without Down syndrome have been reported, all with a blast population with numeric or rarely structural chromosome 21 abnormalities. We present the first case of a newborn boy with a TMD without trisomy 21 and without any of the mentioned molecular or cytogenetic abnormalities. This case report suggests that unknown disease mechanisms may provoke or mimic TMD. This case report is followed by a concise review of the literature discussing the different entities and pathomechanisms of TMD and acute megakaryocytic leukaemia in patients with or without Down syndrome.     

Functional analysis of JAK3 mutations in transient myeloproliferative disorder and acute megakaryoblastic leukaemia accompanying Down syndrome

JAK3 mutations have been reported in transient myeloproliferative disorder (TMD) as well as in acute megakaryoblastic leukaemia of Down syndrome (DS-AMKL). However, functional consequences of the JAK3 mutations in TMD patients remain undetermined. To further understand how JAK3 mutations are involved in the development and/or progression of leukaemia in Down syndrome, additional TMD patients and the DS-AMKL cell line MGS were screened for JAK3 mutations, and we examined whether each JAK3 mutation is an activating mutation. JAK3 mutations were not detected in 10 TMD samples that had not previously been studied. Together with our previous report we detected JAK3 mutations in one in 11 TMD patients. Furthermore, this study showed for the first time that a TMD patient-derived JAK3 mutation (JAK3(I87T)), as well as two novel JAK3 mutations (JAK3(Q501H) and JAK3(R657Q)) identified in an MGS cell line, were activating mutations. Treatment of MGS cells and Ba/F3 cells expressing the JAK3 mutants with JAK3 inhibitors significantly decreased their growth and viability. These results suggest that the JAK3 activating mutation is an early event during leukaemogenesis in Down syndrome, and they provide proof-of-principle evidence that JAK3 inhibitors would have therapeutic effects on TMD and DS-AMKL patients carrying activating JAK3 mutations.     

Distinct Clones are Associated with the Development of Transient Myeloproliferative Disorder and Acute Megakaryocytic Leukemia in a Patient with Down Syndrome

Children with Down syndrome (DS) have an approximately 20-fold higher incidence of leukemia than unaffected children, and most leukemia cases with DS present as acute megakaryocytic leukemia (AMKL). At least 10% of neonates with DS develop transient myeloproliferative disorder (TMD), and 20% to 30% of patients with TMD develop AMKL. Mutations in the GATA1 gene are identified not only in AMKL patients but also in TMD patients; however, sequential analysis of GATA1 is not often performed in the same patients. We describe a child with DS who developed TMD followed by AMKL and have identified different mutations in the GATA1 gene during the course of TMD and AMKL. Distinct clones were associated with the development of TMD and AMKL in this patient.     

Perturbation of fetal liver hematopoietic stem and progenitor cell development by trisomy 21

The 40-fold increase in childhood megakaryocyte-erythroid and B-cell leukemia in Down syndrome implicates trisomy 21 (T21) in perturbing fetal hematopoiesis. Here, we show that compared with primary disomic controls, primary T21 fetal liver (FL) hematopoietic stem cells (HSC) and megakaryocyte-erythroid progenitors are markedly increased, whereas granulocyte-macrophage progenitors are reduced. Commensurately, HSC and megakaryocyte-erythroid progenitors show higher clonogenicity, with increased megakaryocyte, megakaryocyte-erythroid, and replatable blast colonies. Biased megakaryocyte-erythroid–primed gene expression was detected as early as the HSC compartment. In lymphopoiesis, T21 FL lymphoid-primed multipotential progenitors and early lymphoid progenitor numbers are maintained, but there was a 10-fold reduction in committed PreproB-lymphoid progenitors and the functional B-cell potential of HSC and early lymphoid progenitor is severely impaired, in tandem with reduced early lymphoid gene expression. The same pattern was seen in all T21 FL samples and no samples had GATA1 mutations. Therefore, T21 itself causes multiple distinct defects in FL myelo- and lymphopoiesis.     

Platelet-derived growth factor may be associated with fibrosis in a Down syndrome patient with transient myeloproliferative disorder

Transient myeloproliferative disorder (TMD) is experienced by approximately 10% of neonates with Down syndrome (DS). Most TMD is asymptomatic and the patients undergo spontaneous remission within a few months. However, some cases are fatal because of systemic organ dysfunctions including hepatic fibrosis. Some cytokines such as platelet-derived growth factor (PDGF) may be involved in the development of hepatic fibrosis in TMD. The report describes a fatal case of TMD accompanying DS. The patient presented with pulmonary hypertension and hepatic failure. An autopsy disclosed severe fibrosis in the lung, liver, kidney and pancreas. Immunohistochemical analysis revealed high expression of PDGF receptor beta in the severe fibrotic areas of the fibrotic tissues. A real-time polymerase chain reaction (PCR) analysis demonstrated the expression of PDGFalpha and PDGFbeta in the peripheral blood samples of the patient. The finding indicates that the PDGF pathway may play an important role in the fibrosis of several organs in patients with TMD.     

Congenital leukaemia: the Dutch experience and review of the literature

We reviewed Dutch patients and those described in the literature with congenital leukaemia in the past 25 years, with the intention to obtain an overview of the characteristics of this rare disease. Among the 117 patients reviewed, acute myeloid leukaemia (AML) was more frequent (64%) than acute lymphoblastic leukaemia (ALL, 21%). Most patients had a high leukaemic cell load with hepatosplenomegaly, leukaemia cutis and hyperleucocytosis. Cytogenetic abnormalities were found in the majority of the patients tested (72%); 11q23 abnormalities were found in less than half of them (42%). The probability of overall survival at 24 months was only 23%. When congenital AML and ALL were compared, clinical characteristics and overall survival were not significantly different. However, in patients at risk, the probability of event-free survival (EFS) and disease-free survival (DFS) were significantly higher in AML than in ALL, 43% versus 13% and 68% versus 0% respectively. Among the congenital AML cases, six spontaneous remissions have been described. In conclusion, the clinical characteristics of congenital leukaemia differ from those of leukaemia in older children and prognosis is generally poor. Once complete remission is achieved, patients with AML fare better than those with ALL. Chemotherapy for congenital leukaemia needs improvement to increase the sustained remission rate.     

Blasts in transient leukaemia in neonates with Down syndrome differentiate into basophil/mast‐cell and megakaryocyte lineages in vitro in association with down‐regulation of truncated form of GATA1

Mutations of GATA1, leading to aberrant expression of a truncated form of GATA1 (called GATA1s), are present in transient leukaemia (TL) in neonates with Down syndrome. Using these molecular markers of TL, we investigated the growth and differentiation potential of TL blasts in the presence of hematopoietic growth factors (HGFs). Interleukin‐3, stem cell factor and granulocyte‐macrophage colony‐stimulating factor potently stimulated the growth of TL blast progenitors and induced differentiation towards basophil/mast cell lineages, whereas thrombopoietin induced differentiation towards megakaryocytes. GATA1s was expressed in TL blasts in all five patients examined but was down‐regulated during differentiation induced by these HGFs, while full‐length GATA1 was not expressed throughout the culture. GATA1 mutations were detected in TL blasts in four patients, including one patient with two distinct mutations. The cells of this patient exhibited identical and only mutated sequences both before and after culture with HGFs, confirming the leukemic cell origin of these differentiated cells. Erythroid differentiation of TL blasts was not evident with any HGFs. These data indicate that TL blasts have the potential to grow and differentiate towards particular hematopoietic lineages in the presence of specific HGFs and that the down‐regulation of GATA1s might be involved in blast cell differentiation.     

Thrombopoietin level is inversely related to blast count,not platelet number,in Down syndrome neonates with transient myeloproliferative disorder

Transient myeloproliferative disorder (TMD) in neonates with Down syndrome is characterized by increased megakaryoblastic cells in the peripheral blood. Despite their spontaneous regression in weeks, prognosis is not always favorable because of fatal hepatic fibrosis. In this study, blood thrombopoietin (TPO) levels were measured by ELISA in six TMD patients and the expression of c-Mpl, a ligand for TPO, was examined on the blast cells from four patients by flow cytometer. At the onset, TPO level was undetectable in one patient and significantly lower in five patients than six neonatal controls (mean 0.52 fmol/ml, range 0.30–0.93 vs. 3.70, 1.38–8.33, P < 0.001), although platelet counts were similar (mean 321 × 10⁹/l, range 42–1,040 vs. 253 × 10⁹/l, 124–381). Two patients died of hepatic failure. TPO levels were measured in five patients after regression of the blast cells. With regression of blast cells, TPO levels were remarkably increased in four survived patients. In one patient with hepatic failure, TPO level was poorly elevated and relatively lower compared to the others. TPO levels were inversely correlated with blast numbers (r = −0.85, P < 0.001), but not with platelet counts (r = 0.426). Blast cells from four patients were all positive for c-Mpl. Our findings suggest that megakaryocyte mass is a major regulator of TPO levels and hepatic failure may affect the TPO level because liver is a major source of TPO production. Am. J. Hematol. 58:267–272, 1998. © 1998 Wiley-Liss, Inc.     

Incidence of circulating cells positive for GpIb and GpIIIa in infants with Down's syndrome

Abstract: Blood samples from 43 infants with Down's syndrome and from 67 with a normal karyotype were screened for the presence of cells positive for platelet glycoproteins GpIb and GpIIIa. There was 1 case of fatal leukaemia and 1 case of transient leukaemia among the Down's syndrome patients, both cases had increased numbers of circulating blood cells positive for platelet glycoprotein markers. These cells were present in small numbers in both the Down's and control groups, especially among stillbirths, and there was no difference in the numbers of such cells found in Down's syndrome patients in comparison with the controls.     

应用扩增阻碍突变系统检测骨髓增殖性疾病JA砬V617F基因突变的研究

目的探讨JAK2V617F基因突变在恶性血液病中的表达及临床意义。方法运用扩增阻碍突变系统对133例恶性血液病患者进行JAK2V617F基因突变检测分析。结果在133例样本中,60例BCR—ABL融合基因阴性的慢性骨髓增殖性疾病患者存在JAK2V617F基因突变（61．7％）,其余血液病未发现该点突变,差异有统计学意义（P〈0．05）。其中真性红细胞增多症、特发性血小板增多症、原发性骨髓纤维化和嗜酸细胞增多症的阳性率分别为89．5％、53．6％、44．4％和25％。检测JAK2V617F基因突变的灵敏性为2％。结论JAK2V617F基因突变在BCR—ABL融合基因阴性的慢性骨髓增殖性疾病患者中广泛表达,尤其以真性红细胞增多症患者发生率最高。扩增阻碍突变系统检测JAK2V617F基因突变具有很好的特异性和灵敏度,可作为临床筛查的检测方法。