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1.
Blood ; 143(25): 2627-2643, 2024 Jun 20.
Article in English | MEDLINE | ID: mdl-38513239

ABSTRACT

ABSTRACT: Transient abnormal myelopoiesis (TAM) is a common complication in newborns with Down syndrome (DS). It commonly progresses to myeloid leukemia (ML-DS) after spontaneous regression. In contrast to the favorable prognosis of primary ML-DS, patients with refractory/relapsed ML-DS have poor outcomes. However, the molecular basis for refractoriness and relapse and the full spectrum of driver mutations in ML-DS remain largely unknown. We conducted a genomic profiling study of 143 TAM, 204 ML-DS, and 34 non-DS acute megakaryoblastic leukemia cases, including 39 ML-DS cases analyzed by exome sequencing. Sixteen novel mutational targets were identified in ML-DS samples. Of these, inactivations of IRX1 (16.2%) and ZBTB7A (13.2%) were commonly implicated in the upregulation of the MYC pathway and were potential targets for ML-DS treatment with bromodomain-containing protein 4 inhibitors. Partial tandem duplications of RUNX1 on chromosome 21 were also found, specifically in ML-DS samples (13.7%), presenting its essential role in DS leukemia progression. Finally, in 177 patients with ML-DS treated following the same ML-DS protocol (the Japanese Pediatric Leukemia and Lymphoma Study Group acute myeloid leukemia -D05/D11), CDKN2A, TP53, ZBTB7A, and JAK2 alterations were associated with a poor prognosis. Patients with CDKN2A deletions (nĀ = 7) or TP53 mutations (nĀ = 4) had substantially lower 3-year event-free survival (28.6% vs 90.5%; PĀ < .001; 25.0% vs 89.5%; PĀ < .001) than those without these mutations. These findings considerably change the mutational landscape of ML-DS, provide new insights into the mechanisms of progression from TAM to ML-DS, and help identify new therapeutic targets and strategies for ML-DS.


Subject(s)
Down Syndrome , Mutation , Humans , Down Syndrome/genetics , Down Syndrome/complications , Male , Female , Leukemoid Reaction/genetics , Infant , Child, Preschool , Exome Sequencing , Prognosis , Leukemia, Myeloid/genetics , Infant, Newborn , Child , Core Binding Factor Alpha 2 Subunit/genetics
2.
Am J Hum Genet ; 103(3): 440-447, 2018 09 06.
Article in English | MEDLINE | ID: mdl-30146126

ABSTRACT

Inherited bone-marrow-failure syndromes (IBMFSs) include heterogeneous genetic disorders characterized by bone-marrow failure, congenital anomalies, and an increased risk of malignancy. Many lines of evidence have suggested that p53 activation might be central to the pathogenesis of IBMFSs, including Diamond-Blackfan anemia (DBA) and dyskeratosis congenita (DC). However, the exact role of p53 activation in each clinical feature remains unknown. Here, we report unique de novo TP53 germline variants found in two individuals with an IBMFS accompanied by hypogammaglobulinemia, growth retardation, and microcephaly mimicking DBA and DC. TP53 is a tumor-suppressor gene most frequently mutated in human cancers, and occasional germline variants occur in Li-Fraumeni cancer-predisposition syndrome. Most of these mutations affect the core DNA-binding domain, leading to compromised transcriptional activities. In contrast, the variants found in the two individuals studied here caused the same truncation of the protein, resulting in the loss of 32 residues from the C-terminal domain (CTD). Unexpectedly, the p53 mutant had augmented transcriptional activities, an observation not previously described in humans. When we expressed this mutant in zebrafish and human-induced pluripotent stem cells, we observed impaired erythrocyte production. These findings together with close similarities to published knock-in mouse models of TP53 lacking the CTD demonstrate that the CTD-truncation mutations of TP53 cause IBMFS, providing important insights into the previously postulated connection between p53 and IBMFSs.


Subject(s)
Bone Marrow Diseases/genetics , Bone Marrow/pathology , Germ Cells/pathology , Mutation/genetics , Tumor Suppressor Protein p53/genetics , Adolescent , Adult , Agammaglobulinemia/genetics , Anemia, Diamond-Blackfan/genetics , Animals , Child, Preschool , Erythrocytes/pathology , Female , Growth Disorders/genetics , Humans , Induced Pluripotent Stem Cells/pathology , Infant , Infant, Newborn , Male , Mice , Middle Aged , Young Adult , Zebrafish
3.
Genes Chromosomes Cancer ; 59(3): 160-167, 2020 03.
Article in English | MEDLINE | ID: mdl-31606922

ABSTRACT

Myeloid leukemia associated with Down syndrome (ML-DS) is characterized by a predominance of acute megakaryoblastic leukemia, the presence of GATA1 mutations and a favorable outcome. Because DS children can also develop conventional acute myeloid leukemia with unfavorable outcome, detection of GATA1 mutations is important for diagnosis of ML-DS. However, myelofibrosis and the significant frequency of dry taps have hampered practical screening of GATA1 mutations using bone marrow (BM) samples. In response to those problems, 82 patients were enrolled in the Japanese Pediatric Leukemia/Lymphoma Study Group AML-D11 study. GATA1 mutations were analyzed by Sanger sequencing (SS) using genomic DNA (gDNA) from BM and cDNA from peripheral blood (PB) followed by targeted next-generation sequencing (NGS) using pooled diagnostic samples. BM and PB samples were obtained from 71 (87%) and 82 (100%) patients, respectively. GATA1 mutations were detected in 46 (56%) and 58 (71%) patients by SS using BM gDNA and PB cDNA, respectively. Collectively, GATA1 mutations were identified in 73/82 (89%) patients by SS. Targeted NGS detected GATA1 mutations in 74/82 (90%) patients. Finally, combining the results of SS with those of targeted NGS, GATA1 mutations were identified in 80/82 (98%) patients. These results indicate that SS using BM gDNA and PB cDNA is a rapid and useful method for screening for GATA1 mutations in ML-DS patients. Thus, a combination of SS and targeted NGS is a sensitive and useful method to evaluate the actual incidence and clinical significance of GATA1 mutations in ML-DS patients.


Subject(s)
Down Syndrome/complications , Down Syndrome/genetics , GATA1 Transcription Factor/genetics , Genetic Predisposition to Disease , Leukemia, Megakaryoblastic, Acute/complications , Leukemia, Megakaryoblastic, Acute/genetics , Mutation , Adolescent , Adult , Alleles , Amino Acid Substitution , Biopsy , Bone Marrow/pathology , Child , DNA Mutational Analysis , Down Syndrome/diagnosis , Female , Genetic Association Studies , Genotype , High-Throughput Nucleotide Sequencing , Humans , Japan , Leukemia, Megakaryoblastic, Acute/diagnosis , Male , Young Adult
4.
Pediatr Blood Cancer ; 67(4): e28188, 2020 04.
Article in English | MEDLINE | ID: mdl-32020774

ABSTRACT

BACKGROUND: Transient abnormal myelopoiesis (TAM) is a unique myeloproliferative disorder that occurs in neonates with constitutional trisomy 21/Down syndrome (DS). Although TAM also develops in neonates without constitutional trisomy 21, the clinical, cytogenetic, and molecular characteristics of those patients are not fully understood. PROCEDURE: We retrospectively evaluated the clinical and cytogenetic findings and GATA1 mutation status of 17 neonates with TAM and nonconstitutional trisomy 21 tested for GATA1 mutations at our institute, and compared the findings with those of 64 neonates with TAM and constitutional trisomy 21/DS. RESULTS: DS clinical features were observed in five of the 17 (29%) patients. In all patients, both trisomy 21 and GATA1 mutations were detected in diagnostic samples. Over a median follow-up of 33 (range, 0-139) months, early death (<Ā 6 months of age) occurred in four patients (24%). Overall and event-free survivals were not significantly different between the patients with TAM and nonconstitutional trisomy 21 and those with TAM and constitutional trisomy 21/DS (five-year overall survival: 76% Ā± 10% vs 53% Ā± 13%, PĀ =Ā 0.40; five-year event-free survival: 55% Ā± 13% vs 48% Ā± 12%, PĀ =Ā 0.90). The five-year cumulative incidence of progression to myeloid leukemia of DS was also similar between the groups (21% vs 24%, PĀ =Ā 0.80). CONCLUSIONS: Patients with TAM and nonconstitutional trisomy 21 exhibited similar biology and outcomes to those with TAM and constitutional trisomy 21/DS. The possibility of TAM should be considered even in phenotypically normal neonates with TAM symptoms, for appropriate management.


Subject(s)
Chromosomes, Human, Pair 21/genetics , Down Syndrome , GATA1 Transcription Factor/genetics , Mutation , Myelopoiesis/genetics , Disease-Free Survival , Down Syndrome/genetics , Down Syndrome/mortality , Down Syndrome/pathology , Female , Humans , Infant , Infant, Newborn , Male , Survival Rate
5.
Genes Chromosomes Cancer ; 57(12): 665-669, 2018 12.
Article in English | MEDLINE | ID: mdl-30350464

ABSTRACT

The authors report two siblings with familial neuroblastoma with a germline R1275Q mutation of the tyrosine kinase domain of ALK. Whole exome sequencing and copy number variation assay were performed to investigate genetic alterations in the two cases. No common somatic mutations or gene polymorphisms related to the tumorigenesis of neuroblastoma were detected. A distinct pattern involving both segmental chromosomal alteration and MYCN amplification was detected. The diversity of biological behavior of familial neuroblastoma harboring a germline ALK mutation may depend on conventional prognostic factors, such as segmental chromosomal alterations and MYCN amplification, rather than additional acquired mutations.


Subject(s)
Anaplastic Lymphoma Kinase/genetics , Germ-Line Mutation , Neoplasms, Multiple Primary/genetics , Neuroblastoma/genetics , Adrenal Gland Neoplasms/genetics , Child, Preschool , Exome , Female , Humans , Infant , Liver Neoplasms/genetics , Male , Mediastinal Neoplasms/genetics , Pedigree , Phenotype , Point Mutation , Spinal Neoplasms/genetics
7.
Br J Haematol ; 168(6): 854-64, 2015 Mar.
Article in English | MEDLINE | ID: mdl-25424902

ABSTRACT

Diamond-Blackfan anaemia is a congenital bone marrow failure syndrome that is characterized by red blood cell aplasia. The disease has been associated with mutations or large deletions in 11 ribosomal protein genes including RPS7, RPS10, RPS17, RPS19, RPS24, RPS26, RPS29, RPL5, RPL11, RPL26 and RPL35A as well as GATA1 in more than 50% of patients. However, the molecular aetiology of many Diamond-Blackfan anaemia cases remains to be uncovered. To identify new mutations responsible for Diamond-Blackfan anaemia, we performed whole-exome sequencing analysis of 48 patients with no documented mutations/deletions involving known Diamond-Blackfan anaemia genes except for RPS7, RPL26, RPS29 and GATA1. Here, we identified a de novo splicing error mutation in RPL27 and frameshift deletion in RPS27 in sporadic patients with Diamond-Blackfan anaemia. In vitro knockdown of gene expression disturbed pre-ribosomal RNA processing. Zebrafish models of rpl27 and rps27 mutations showed impairments of erythrocyte production and tail and/or brain development. Additional novel mutations were found in eight patients, including RPL3L, RPL6, RPL7L1T, RPL8, RPL13, RPL14, RPL18A and RPL31. In conclusion, we identified novel germline mutations of two ribosomal protein genes responsible for Diamond-Blackfan anaemia, further confirming the concept that mutations in ribosomal protein genes lead to Diamond-Blackfan anaemia.


Subject(s)
Anemia, Diamond-Blackfan/genetics , Germ-Line Mutation , Metalloproteins/genetics , Nuclear Proteins/genetics , RNA-Binding Proteins/genetics , Ribosomal Proteins/genetics , Anemia, Diamond-Blackfan/physiopathology , Animals , Child, Preschool , DNA Mutational Analysis/methods , Erythropoiesis/genetics , Exome/genetics , Female , Humans , Infant , Infant, Newborn , Male , Pedigree , RNA, Ribosomal/genetics , Zebrafish
8.
Blood ; 121(16): 3181-4, 2013 Apr 18.
Article in English | MEDLINE | ID: mdl-23440243

ABSTRACT

Children with Down syndrome have an increased incidence of transient abnormal myelopoiesis (TAM) and acute megakaryoblastic leukemia. The majority of these cases harbor somatic mutations in the GATA1 gene, which results in the loss of full-length GATA1. Only a truncated isoform of GATA1 that lacks the N-terminal 83 amino acids (GATA1-S) remains. We found through genetic studies of 106 patients with TAM that internally deleted GATA1 proteins (GATA1-IDs) lacking amino acid residues 77-119 or 74-88 (created by splicing mutations) contributed to the genesis of TAM in 6 patients. Analyses of GATA1-deficient embryonic megakaryocytic progenitors revealed that the GATA1 function in growth restriction was disrupted in GATA1-IDs. In contrast, GATA1-S promoted megakaryocyte proliferation more profoundly than that induced by GATA1 deficiency. These results indicate that the internally deleted regions play important roles in megakaryocyte proliferation and that perturbation of this mechanism is involved in the pathogenesis of TAM.


Subject(s)
Down Syndrome/blood , Down Syndrome/complications , Down Syndrome/genetics , GATA1 Transcription Factor/genetics , Leukemoid Reaction/complications , Leukemoid Reaction/genetics , Sequence Deletion , Cell Proliferation , Child , Down Syndrome/pathology , Humans , Leukemoid Reaction/pathology , Megakaryocytes/metabolism , Megakaryocytes/pathology
9.
Genes Chromosomes Cancer ; 53(11): 902-10, 2014 Nov.
Article in English | MEDLINE | ID: mdl-25044358

ABSTRACT

In Western countries, gene alterations involving the CRLF2-JAK signaling pathway are identified in approximately 50-60% of patients with Down syndrome-associated acute lymphoblastic leukemia (DS-ALL), and this pathway is considered a potential therapeutic target. The frequency of BTG1 deletions in DS-ALL is controversial. IKZF1 deletions, found in 20-30% of DS-ALL patients, are associated with a poor outcome and EBF1 deletions are very rare (Ć¢ĀˆĀ¼2%). We analyzed 38 patients to determine the frequencies and clinical implications of CRLF2-JAK pathway genetic alterations and recurrent gene deletions in Japanese DS-ALL patients. We confirmed a high incidence of P2RY8-CRLF2 (29%) and JAK2 mutations (16%), though the frequency of P2RY8-CRLF2 was slightly lower than that in Western countries (Ć¢ĀˆĀ¼50%). BTG1 deletions were common in our cohort (25%). IKZF1 deletions were detected in 25% of patients and associated with shorter overall survival (OS). EBF1 deletions were found at an unexpectedly high frequency (16%), and at a significantly higher level in P2RY8-CRLF2-positive patients than in P2RY8-CRLF2-negative patients (44% vs. 4%, P=0.015). Deletions of CDKN2A/B and PAX5 were common in P2RY8-CRLF2-negative patients (48 and 39%, respectively) but not in P2RY8-CRLF2-positive patients (11% each). Associations between these genetic alterations and clinical characteristics were not observed except for inferior OS in patients with IKZF1 deletions. These results suggest that differences exist between the genetic profiles of DS-ALL patients in Japan and in Western countries, and that P2RY8-CRLF2 and EBF1 deletions may cooperate in leukemogenesis in a subset of Japanese DS-ALL patients.


Subject(s)
Down Syndrome/genetics , Janus Kinase 2/genetics , Precursor Cell Lymphoblastic Leukemia-Lymphoma/genetics , Receptors, Cytokine/genetics , Adolescent , Asian People , Child , Child, Preschool , Down Syndrome/complications , Down Syndrome/ethnology , Female , Gene Deletion , Gene Dosage , Humans , Japan , Male , Mutation , Precursor Cell Lymphoblastic Leukemia-Lymphoma/complications , Precursor Cell Lymphoblastic Leukemia-Lymphoma/ethnology , Receptors, Purinergic P2Y/genetics , Signal Transduction , Young Adult
10.
Blood ; 119(11): 2608-11, 2012 Mar 15.
Article in English | MEDLINE | ID: mdl-22294728

ABSTRACT

Trib1 has been identified as a myeloid oncogene in a murine leukemia model. Here we identified a TRIB1 somatic mutation in a human case of Down syndrome-related acute megakaryocytic leukemia. The mutation was observed at well-conserved arginine 107 residue in the pseudokinase domain. This R107L mutation remained in leukocytes of the remission stage in which GATA1 mutation disappeared, suggesting the TRIB1 mutation is an earlier genetic event in leukemogenesis. The bone marrow transfer experiment showed that acute myeloid leukemia development was accelerated by transducing murine bone marrow cells with the R107L mutant in which enhancement of ERK phosphorylation and C/EBPα degradation by Trib1 expression was even greater than in those expressing wild-type. These results suggest that TRIB1 may be a novel important oncogene for Down syndrome-related acute megakaryocytic leukemia.


Subject(s)
Down Syndrome/genetics , Intracellular Signaling Peptides and Proteins/genetics , Leukemia, Megakaryoblastic, Acute/etiology , Mutation/genetics , Oncogenes/genetics , Protein Serine-Threonine Kinases/genetics , Animals , Bone Marrow Cells/cytology , Bone Marrow Cells/metabolism , CCAAT-Enhancer-Binding Protein-alpha/genetics , CCAAT-Enhancer-Binding Protein-alpha/metabolism , Cell Differentiation , Down Syndrome/complications , Extracellular Signal-Regulated MAP Kinases/genetics , Extracellular Signal-Regulated MAP Kinases/metabolism , Female , Humans , Immunoblotting , Leukemia, Megakaryoblastic, Acute/pathology , Mice , Mice, Inbred C57BL , Phosphorylation , RNA, Messenger/genetics , Real-Time Polymerase Chain Reaction
11.
Exp Hematol ; 132: 104179, 2024 Apr.
Article in English | MEDLINE | ID: mdl-38342295

ABSTRACT

Myeloid leukemia associated with Down syndrome (ML-DS) responds well to chemotherapy and has a favorable prognosis, but the clinical outcome of patients with refractory or relapsed ML-DS is dismal. We recently reported a case of relapsed ML-DS with an effective response to a DNA methyltransferase inhibitor, azacitidine (AZA). However, the efficacy of AZA for refractory or relapsed ML-DS remains uncertain. Here, we investigated the effects and mechanism of action of AZA on three ML-DS cell lines derived from relapsed cases. AZA inhibited the proliferation of all examined ML-DS cell lines to the same extent as that of AZA-sensitive acute myeloid leukemia non-Down syndrome cell lines. Transient low-dose AZA treatment exerted durable antileukemic effects on ML-DS cells. The inhibitory effect included cell cycle arrest, apoptosis, and reduction of aldehyde dehydrogenase activity. Comprehensive differential gene expression analysis showed that AZA induced megakaryocytic differentiation in all ML-DS cell lines examined. Furthermore, AZA induced activation of type I interferon-stimulated genes, primarily involved in antiproliferation signaling, without stimulation of the interferon receptor-mediated autocrine system. Activation of the type I interferon pathway by stimulation with interferon-α exerted antiproliferative effects on ML-DS cells, suggesting that AZA exerts its antileukemic effects on ML-DS cells at least partially through the type I interferon pathway. Moreover, the effect of AZA on normal hematopoiesis did not differ significantly between individuals with non-Down syndrome and Down syndrome. In summary, this study suggests that AZA is a potentially effective treatment option for ML-DS disease control, including relapsed cases, and has reduced side effects.


Subject(s)
Azacitidine , Down Syndrome , Enzyme Inhibitors , Interferon Type I , Leukemia, Myeloid, Acute , Humans , Azacitidine/pharmacology , Azacitidine/therapeutic use , Cell Line , DNA , Down Syndrome/complications , Down Syndrome/drug therapy , Down Syndrome/genetics , Enzyme Inhibitors/pharmacology , Enzyme Inhibitors/therapeutic use , Leukemia, Myeloid, Acute/complications , Leukemia, Myeloid, Acute/drug therapy , Leukemia, Myeloid, Acute/genetics , Methyltransferases
12.
Blood ; 116(22): 4631-8, 2010 Nov 25.
Article in English | MEDLINE | ID: mdl-20729467

ABSTRACT

Twenty percent to 30% of transient abnormal myelopoiesis (TAM) observed in newborns with Down syndrome (DS) develop myeloid leukemia of DS (ML-DS). Most cases of TAM carry somatic GATA1 mutations resulting in the exclusive expression of a truncated protein (GATA1s). However, there are no reports on the expression levels of GATA1s in TAM blasts, and the risk factors for the progression to ML-DS are unidentified. To test whether the spectrum of transcripts derived from the mutant GATA1 genes affects the expression levels, we classified the mutations according to the types of transcripts, and investigated the modalities of expression by in vitro transfection experiments using GATA1 expression constructs harboring mutations. We show here that the mutations affected the amount of mutant protein. Based on our estimates of GATA1s protein expression, the mutations were classified into GATA1s high and low groups. Phenotypic analyses of 66 TAM patients with GATA1 mutations revealed that GATA1s low mutations were significantly associated with a risk of progression to ML-DS (P < .001) and lower white blood cell counts (P = .004). Our study indicates that quantitative differences in mutant protein levels have significant effects on the phenotype of TAM and warrants further investigation in a prospective study.


Subject(s)
Down Syndrome/complications , GATA1 Transcription Factor/genetics , Leukemia, Myeloid/etiology , Mutation , Myeloproliferative Disorders/complications , Alternative Splicing , Down Syndrome/genetics , Female , Gene Expression , Humans , Infant, Newborn , Leukemia, Myeloid/genetics , Male , Myeloproliferative Disorders/genetics , Phenotype
14.
Sci Rep ; 12(1): 20587, 2022 11 29.
Article in English | MEDLINE | ID: mdl-36447001

ABSTRACT

Children with Down syndrome (DS) are at high risk of transient abnormal myelopoiesis (TAM) and myeloid leukemia of DS (ML-DS). GATA1 mutations are detected in almost all TAM and ML-DS samples, with exclusive expression of short GATA1 protein (GATA1s) lacking the N-terminal domain (NTD). However, it remains to be clarified how GATA1s is involved with both disorders. Here, we established the K562 GATA1s (K562-G1s) clones expressing only GATA1s by CRISPR/Cas9 genome editing. The K562-G1s clones expressed KIT at significantly higher levels compared to the wild type of K562 (K562-WT). Chromatin immunoprecipitation studies identified the GATA1-bound regulatory sites upstream of KIT in K562-WT, K562-G1s clones and two ML-DS cell lines; KPAM1 and CMK11-5. Sonication-based chromosome conformation capture (3C) assay demonstrated that in K562-WT, the - 87Ā kb enhancer region of KIT was proximal to the - 115Ā kb, - 109Ā kb and + 1Ā kb region, while in a K562-G1s clone, CMK11-5 and primary TAM cells, the - 87Ā kb region was more proximal to the KIT transcriptional start site. These results suggest that the NTD of GATA1 is essential for proper genomic conformation and regulation of KIT gene expression, and that perturbation of this function might be involved in the pathogenesis of TAM and ML-DS.


Subject(s)
Down Syndrome , Child , Humans , Cell Line, Tumor , Down Syndrome/genetics , GATA1 Transcription Factor/genetics , Gene Expression Regulation , Oncogenes
15.
EJHaem ; 3(1): 163-167, 2022 Feb.
Article in English | MEDLINE | ID: mdl-35846220

ABSTRACT

Diamond-Blackfan anaemia (DBA) shares clinical features with two recently reported sporadic cases of dyserythropoietic anaemia with a cryptic GATA1 splicing mutation (c.871-24 C>T). We hypothesized that some patients clinically diagnosed with DBA but whose causative genes were unknown may carry the intronic GATA1 mutation. Here, we examined 79 patients in our DBA cohort, who had no detectable causative genes. The intronic GATA1 mutation was identified in two male patients sharing the same pedigree that included multiple cases with anaemia. Cosegregation of this mutation and disease in multiple family members provide evidence to support the pathogenicity of the intronic GATA1 mutation.

16.
Bone Marrow Transplant ; 56(5): 1013-1020, 2021 05.
Article in English | MEDLINE | ID: mdl-32948829

ABSTRACT

Allogeneic hematopoietic stem cell transplantation (HSCT) is the only curative therapy for the hematologic manifestations of Diamond-Blackfan anemia (DBA). However, data regarding the optimal conditioning regimen for DBA patients are limited. We retrospectively compared the outcomes of DBA patients who underwent HSCT using either myeloablative conditioning (MAC) or reduced-intensity conditioning (RIC) regimens. The patients belonged to a cohort treated at our hospitals between 2000 and 2018. HSCT was performed in 27 of 165 patients (16.4%). The median age at the time of HSCT was 3.6 years. Stem cell sources included bone marrow for 25 patients (HLA-matched sibling donors, n = 5; HLA-mismatched related donors, n = 2; HLA-matched/mismatched unrelated donors, n = 18) or cord blood for 2 patients. MAC or RIC regimens were used in 12 and 15 patients, respectively. Engraftment was successful in all 27 patients who underwent HSCT. Three patients who underwent HSCT using MAC regimens developed sinusoidal obstruction syndrome. The 3-year overall survival (OS) and failure-free survival rates (FFS) post-transplantations were 95.2% and 88.4%, respectively, with no significant differences between MAC and RIC regimens. Our data suggest that HSCTs using RIC regimens are effective and obtain engraftment with excellent OS and FFS for young DBA patients.


Subject(s)
Anemia, Diamond-Blackfan , Graft vs Host Disease , Hematopoietic Stem Cell Transplantation , Anemia, Diamond-Blackfan/therapy , Child , Humans , Retrospective Studies , Siblings , Transplantation Conditioning
17.
Br J Haematol ; 141(5): 681-8, 2008 May.
Article in English | MEDLINE | ID: mdl-18397343

ABSTRACT

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.


Subject(s)
Down Syndrome/genetics , Janus Kinase 3/genetics , Leukemia, Megakaryoblastic, Acute/genetics , Mutation , Myeloproliferative Disorders/genetics , Base Sequence , Cell Proliferation/drug effects , Dose-Response Relationship, Drug , Down Syndrome/metabolism , Down Syndrome/pathology , Female , Humans , Janus Kinase 3/antagonists & inhibitors , Janus Kinase 3/metabolism , Leukemia, Megakaryoblastic, Acute/metabolism , Leukemia, Megakaryoblastic, Acute/pathology , Male , Molecular Sequence Data , Myeloproliferative Disorders/metabolism , Myeloproliferative Disorders/pathology , Neoplasm Proteins/antagonists & inhibitors , Neoplasm Proteins/genetics , Neoplasm Proteins/metabolism , Quinazolines/pharmacology , Signal Transduction/genetics , Tumor Cells, Cultured
18.
Eur J Haematol ; 81(1): 58-64, 2008 Jul.
Article in English | MEDLINE | ID: mdl-18331602

ABSTRACT

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.


Subject(s)
Down Syndrome/complications , Fibrosis/etiology , Myeloproliferative Disorders/pathology , Platelet-Derived Growth Factor/physiology , Receptors, Platelet-Derived Growth Factor/analysis , Humans , Infant, Newborn , Male , Receptor, Platelet-Derived Growth Factor alpha , Receptor, Platelet-Derived Growth Factor beta
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