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  • 1
    Online Resource
    Online Resource
    GATA1s Induces Hyperproliferation of Eosinophil Precursors.
    American Society of Hematology ; 2012
    In:  Blood Vol. 120, No. 21 ( 2012-11-16), p. 2318-2318
    Details
    In: Blood, American Society of Hematology, Vol. 120, No. 21 ( 2012-11-16), p. 2318-2318
    Abstract: Abstract 2318 Transient leukemia (TL) is evident in 5–10% of all neonates with Down syndrome (DS) and closely linked to characteristic N-terminal truncating GATA1-mutations (GATA1s). Here we investigated the relationship between GATA1s-mutation and clonal eosinophilia observed in a cohort of TL patients (23%, n=60 DS neonates diagnosed with TL). TL-blasts exhibited an activated eosinophilic genetic program (as demonstrated by GSEA and validated by qRT-PCR) and had an increased propensity to differentiate along the eosinophilic lineage in vitro. Sorted patient TL-eosinophils carried the same mutation in GATA1 as the TL-blasts showing their clonal origin. To delineate the role of GATA1s in the TL-associated eosinophilia, we examined the myeloid differentiation of human fetal hematopoietic progenitors ectopically expressing GATA1 or GATA1s. We used a modified lentiviral LeGO-iG vector simultaneously expressing murine Gata1s or full-length Gata1 and an shRNA against endogenous GATA1 (65% knockdown efficiency, p 〈 0.05), ensuring the investigation of the net effect of GATA1s in cells with low endogenous GATA1 expression. Ectopic expression of Gata1s in human CD34+ fetal hematopoietic stem and progenitor cells (HSPCs) induced 10-fold higher (p 〈 0.01) proliferation rate of granulated progenitor cells in the myeloid in vitro differentiation medium accompanied by a monocytic differentiation block and reduction of neutrophils. In methylcellulose colony-forming assays, we observed formation of atypical colonies (29% of all CFUs), consisting of hyperproliferative myeloid progenitors with eosinophilic and basophilic granulation. These cells predominated in replating experiments, leading to a 15-fold higher cumulative number of CFUs after the fourth round of replating for Gata1s-transduced cells compared to the empty vector-transduced cells (p 〈 0.001). To elucidate the lineage nature of these myeloid progenitors, we used high throughput chip cytometry that allowed us to study expression of 20 surface and intracellular markers of the cells from a picked Gata1s-colony. We observed high expression of the early myeloid marker CD13 and of IL-3 receptor (CD123). In conjunction with histochemical stainings chip cytometry allowed us to exclude monocytic, erythroid, lymphoid and basophilic/mast cell origin of these cells as all markers for these lineages were low or absent. Global gene expression profiling using microarray technology of Gata1s-, Gata1- and empty vector-transduced HSPCs, grown for four days in the myeloid differentiation medium and of empty vector transduced cells, before we transferred them into the myeloid differentiation medium demonstrated enrichment (GSEA) of eosinophilic genes in Gata1- and Gata1s-transduced cells and downregulation of monocytic, neutrophil, basophil, mast cell and HSPC gene sets. Thus, global gene expression analyses, chip cytometry and histochemical methods identified Gata1s-transduced myeloid progenitors as atypical eosinophilic promyelocytes with abnormal pro-eosinophilic granulation. However, though GATA1s retained the function of GATA1 to promote differentiation of HSPCs along the eosinophil lineage while repressing the neutrophil/monocytic program, only Gata1s-transduced cells demonstrated a hyperproliferative phenotype. GSEA of known E2F-bound target genes and qRT-PCR validation demonstrated that, unlike Gata1, Gata1s was not able to repress a number of GATA1 target genes, such as MYC, and the pro-proliferative E2F transcription network perturbing the balance between differentiation and proliferation. This might result in the hyperproliferation of eosinophil precursors at the expense of the neutrophil/monocytic lineage. As E2F target genes were also upregulated in sorted TL-eosinophils (n=3), we propose the same molecular mechanism of GATA1s-induced clonal eosinophilia in TL. Disclosures: Hennig: European Patent Office: Patents & Royalties.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V120.21.2318.2318
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2012
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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  • 2
    Online Resource
    Online Resource
    GATA1 Mutations in Transient Leukemia and Myeloid Leukemia in “Down” Syndrome.
    American Society of Hematology ; 2008
    In:  Blood Vol. 112, No. 11 ( 2008-11-16), p. 923-923
    Details
    In: Blood, American Society of Hematology, Vol. 112, No. 11 ( 2008-11-16), p. 923-923
    Abstract: Introduction: Newborns with trisomy 21 have a 5 to 10% risk to develop transient leukemia (TL). More than 20% of these infants progress to myeloid leukemia of Down syndrome (ML-DS) within the first 4 years of life. Mutations of the hematopoietic transcription factor GATA1 have been identified in almost all patients with TL and ML-DS. Here we report the biological and follow up data of a large cohort of children with proven GATA1 mutation reported to date either as TL (n=43) or ML-DS (n=28). Results: GATA1 mutations (point mutations, insertion, deletion, duplication; including 45 mutations not yet published) were identified in 42/43 TL (98%) and in 23/28 ML-DS (83%) patients. n age madian gastation week WBC/μl blasts % outcome 1PB: peripheral blood; BM: bone marrow transient leukemia 43 3 days (0 to 57) 37 (31 to 40) 33450 (1000 to 321000) 45 (7 to 91) death n = 3, 7%
 ML-DS n = 9, 22% ML-DS 28 1-3 yrs (0.8 to 3) 38 (37 to 38) 4900 (1000 to 160000) PB1 7(1-87)
 BM1 24 (4-78) death n = 2, 7%
 relapse n=0 In 9 patients multiple mutations were noted in the same clone as confirmed by subcloning. In one patient with TL two different GATA1 mutations were detected in two independent clones. When this patient progressed to ML-DS only the minor clone was present. The majority of the mutations was localized in exon 2 (n=59). Only a few mutations could be found in intron 1 and 2 (n=5) or in exon 3 (n=1). As a result, these mutations led to the introduction of a premature stop codon within exon 2 (n=40), frameshift (n=14), altered splicing (n=7), or lack of an initiation codon (n=4). Interestingly, children with TL and splicing mutations were significantly older at diagnosis than patients with other mutations (day 38 vs. day 3 p 〈 0.05). No differences between mutational types were evident regarding gestational age, white blood cell count, platelet count, hemoglobin levels, or risk of death or ML-DS. In children with a myeloproliferative disease (MPD; n=7) or acute megakaryoblastic leukemia (AMKL; n=1) without stigmata of Down syndrome, GATA1 mutations could be detected. All of them were diagnosed as trisomy 21 mosaic. In this group the frequency of frameshift and altered splice mutations (5/7 vs. 9/36) was significantly higher compared to those with premature stop codons (2/7 vs. 27/36); pFishers exact =0.03). In 20 children (TL n=13, ML-DS n=7) the GATA1 mutant clone has been prospectively monitored by quantitative PCR using patient specific TaqMan probes. Seventeen TL patients showed decreasing minimal residual disease (MRD) levels and became negative ( 〈 10−4) during follow-up, whereas three children, who later developed ML-DS, remained positive at all time points. After two treatment elements all ML-DS patients had undetectable levels of GATA1s. After a median follow up of 1.5 years (0.9 to 2 years), no child suffered relapse however, the follow-up is much too short to draw definitive conclusions. Conclusion: In conclusion, we confirmed the high frequency of GATA1 mutations in children with TL or ML-DS. The occurrence of splicing mutations correlated with the age at diagnosis underlining the biologic relevance of the kind of mutation. We demonstrated the feasibility of a leukemia specific monitoring of MRD. As those children with sustaining detectable levels of GATA1s progressed to leukemia, these results might have therapeutic consequences for TL and later for ML-DS. In addition it may serve as a proof of principle for the feasibility of MRD monitoring in other AML-associated mutations. The identification of GATA1s positive MPD and AMKL in children without obvious stigmata of Down syndrome, all confirmed as trisomy 21 mosaic, implicate the necessity of GATA1s diagnostics in all newborn and infants with megakaryoblastic leukemia.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V112.11.923.923
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2008
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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  • 3
    Online Resource
    Online Resource
    Single Cell Whole Exome Sequencing in NPM1/Flt3 Positive Pediatric Acute Myeloid Leukemia
    American Society of Hematology ; 2014
    In:  Blood Vol. 124, No. 21 ( 2014-12-06), p. 1043-1043
    Details
    In: Blood, American Society of Hematology, Vol. 124, No. 21 ( 2014-12-06), p. 1043-1043
    Abstract: Introduction: Acute myeloid leukemia (AML) is one of the most frequent forms of leukemia in children younger than 15 years. The detection of several mutations in a blast population of pediatric AML (pAML) is supposed to be caused by a clonal evolution from a leukemic stem cell (LSC) to leukemic blasts. LSC are believed to be more resistant to chemotherapy, to be able to survive during treatment and to be responsible for the emergence of a relapse due to the persistence in the bone marrow (BM) niche. Since LSC and potential leukemic subclones are only present in small subpopulations, it has been a major technical challenge to particular analyse only the specific population. To acquire a better understanding of the underlying mechanisms of mutagenesis, clonal evolution and leukemogenesis, the aim of this study was to establish methods that allow the analysis and detection of mutations in single cells of a subpopulation known to contain HSC as well as LSC (CD34+CD38-). We especially focused on a pAML subgroup with mutations in Nucleophosmin (NPM1) and/or fms related tyrosine kinase 3 (Flt3). Methods and Results: We established methods to perform single cell sorting, whole genome amplification (WGA) using multiple displacement amplification (MDA) technology (Qiagen) and subsequent whole exome sequencing. The sorting efficiency was checked as Hoechst stained cells were sorted onto glas slides with 48 defined spots and the presence of single cells was checked under an inverse fluorescent microscope. Subsequently, single CD34+CD38- patient derived cells were sorted into 0,5ml low binding tubes containing 4µl PBS followed by WGA and whole exome sequencing. The mutational status of the sorted single cells from three patients suffering from pAML was analysed and compared to mutations detected at initial diagnosis in DNA from a bulk of BM cells. WGA from single CD34+CD38-PI- cells resulted in an amount of 29 to 31.7µg DNA from each of five single cells. The quality of the amplified DNA was sufficient for whole exome sequencing. A 4bp insertion in exon 12 of NPM1 reflecting a common NPM1 mutation (MutA) initially detected from a bulk of cells was identified in amplified DNA from single cells using whole exome sequencing in 2/3 patients. Internal tandem duplications in Flt3 indicated by mismatches in the alignment could be detected in amplified DNA from single cells of two patients. The detected ITD resemble those initially detected in DNA from a bulk of BM cells. Discussion and Conclusion: Single cell sequencing provides a useful tool to amend the detection of genetic aberrations from a bulk of cells and to confirm the presence of specific mutations in single cells from small subpopulations. It therefore helps to get further insights into the clonal evolution in pAML. Disclosures No relevant conflicts of interest to declare.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V124.21.1043.1043
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2014
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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  • 4
    Online Resource
    Online Resource
    Treatment and prognostic impact of transient leukemia in neonates with Down syndrome
    American Society of Hematology ; 2008
    In:  Blood Vol. 111, No. 6 ( 2008-03-15), p. 2991-2998
    Details
    In: Blood, American Society of Hematology, Vol. 111, No. 6 ( 2008-03-15), p. 2991-2998
    Abstract: Approximately 10% of the neonates with Down syndrome (DS) exhibit a unique transient leukemia (TL). Though TL resolves spontaneously in most patients, early death and development of myeloid leukemia (ML-DS) may occur. Prognostic factors as well as treatment indication are currently uncertain. To resolve that issue, we prospectively collected clinical, biologic, and treatment data of 146 patients with TL. The 5-year overall survival (OS) and event-free survival (EFS) were 85% plus or minus 3% and 63% plus or minus 4%, respectively. Multivariate analysis revealed a correlation between high white blood cell (WBC) count, ascites, preterm delivery, bleeding diatheses, failure of spontaneous remission, and the occurrence of early death. Treatment with cytarabine (0.5-1.5 mg/kg) was administered to 28 patients with high WBC count, thrombocytopenia, or liver dysfunction. The therapy had a beneficial effect on the outcome of those children with risk factors for early death (5-year EFS, 52% ± 12% vs 28% ± 11% [no treatment]; P = .02). Multivariate analysis demonstrated its favorable prognostic impact. A total of 29 (23%) patients with TL subsequently developed ML-DS. Patients with ML-DS with a history of TL had a significantly better 5-year EFS (91% ± 5%) than those without documented TL (70% ± 4%), primarily due to a lower relapse rate. A history of TL may therefore define a lower-risk ML-DS subgroup. This study was registered at www.clinicaltrials.gov as no. NCT 00111345.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood-2007-10-118810
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2008
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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  • 5
    Online Resource
    Online Resource
    Low-dose cytarabine to prevent myeloid leukemia in children with Down syndrome: TMD Prevention 2007 study
    American Society of Hematology ; 2018
    In:  Blood Advances Vol. 2, No. 13 ( 2018-07-10), p. 1532-1540
    Details
    In: Blood Advances, American Society of Hematology, Vol. 2, No. 13 ( 2018-07-10), p. 1532-1540
    Abstract: Low-dose cytarabine treatment reduced mortality in symptomatic TMD patients compared with the historical control. An MRD monitoring–based low-dose cytarabine treatment does not prevent progression from preleukemic TMD to ML-DS.
    Type of Medium: Online Resource
    ISSN: 2473-9529 , 2473-9537
    URL: Article
    DOI: 10.1182/bloodadvances.2018018945
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2018
    detail.hit.zdb_id: 2876449-3
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  • 6
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    Online Resource
    Next Generation Sequencing for Minimal Residual Disease Monitoring in AML Patients with FLT3-ITD,
    American Society of Hematology ; 2011
    In:  Blood Vol. 118, No. 21 ( 2011-11-18), p. 3548-3548
    Details
    In: Blood, American Society of Hematology, Vol. 118, No. 21 ( 2011-11-18), p. 3548-3548
    Abstract: Abstract 3548 Minimal Residual Disease (MRD) monitoring has become an important tool for risk and treatment stratification in hematological malignancies. MRD monitoring in FLT3 mutated patients has been difficult in the past as FLT3-ITDs vary from patient to patient and individual primer/probe sets would be required to assess MRD over time. In the present study we evaluated next-generation sequencing (NGS) as a new tool for MRD monitoring in patients with FLT3-ITD and NPM1 mutations. Five pediatric and 5 adult AML patients with FLT3-ITD and 10 adult patients with NPM1 mutations were analyzed by NGS with a target coverage of 10,000 reads per amplicon. Pediatric samples were collected at diagnosis, day 22 and after consolidation chemotherapy while adult samples were collected at different time points (average 4 timepoints per patient). Samples were sequenced unidirectionally on eight-lane PicoTiterPlates on a GS FLX sequencing system. In total, 2,563,550 sequencing reads were generated, corresponding to a total of 1,176,171 high-quality sequencing reads. NPM1 mutations were analyzed by quantitative RT-PCR using the MutaQuant kit from Ipsogen (Ispogen, Marseille, France). Allelic ratios of FLT3-ITDs were determined by fragment analysis on a DNA sequencer using GeneMapper software 4.0. First, the sensitivity of NGS to detect mutated alleles was evaluated by sequencing serial dilutions of a patient sample that had 46.3 percent mutated FLT3-ITD alleles at diagnosis. With a target coverage of 10,000 sequences and an allelic ratio of 46.3 percent the theoretical detection sensitivity was at most 1 in 4630 sequences. In fact, the allelic ratio in the sequenced samples linearly decreased in the tested dilutions down to the 5×10-4 dilution (Pearson correlation R2=.996). Samples from healthy volunteers were tested negative for both FLT3-ITD and NPM1 mutations (n=3). Allelic ratios from three diagnostic specimens of FLT3-ITD mutated patients were highly reproducible when determined in two independent NGS runs. As proof of principle we analyzed NPM1 mutated patients by NGS and quantitative RT-PCR in parallel. The mean allelic ratio of NPM1 mutants at diagnosis was 0.37 (range 0.29–0.46). An allelic ratio of 0.37 and 0.4 was measured in peripheral blood of two patients, and thus was similar to ratios in bone marrow. Concordant results between NGS and qRT-PCR were found in 38 samples (95%), whereas in two samples one method did not detect the mutation while the other did (NGS and RT-PCR were negative once each). We analyzed relapse samples in four patients. The NPM1 mutation was detected consistently by both methods in three patients at allelic ratios of 0.013, 0.19, and 0.32, while one patient had lost the mutation at relapse. One patient had an atypical NPM1 mutation for which no RT-PCR kit was available. NGS allowed quantification of the allelic ratio in this patient, which was 0.37 at diagnosis, 0.06 after one cycle of induction therapy, and 0 after the second cycle of induction therapy. In FLT3-ITD mutated patients we could determine insertion site, insertion length, number of individual clones, and allelic ratio from NGS data. The mean allelic ratio in diagnostic samples was 0.27 as measured by NGS and 0.4 as measured by fragment analysis. Three follow up samples were negative by fragment analysis, while a small clone could still be detected with NGS in these samples (allelic ratio 0.0004 to 0.001). All other samples were concordant between fragment analysis and NGS. NGS was used to determine MRD status in 5 patients with childhood AML harboring mutated FLT3. A reduction of 2–3 orders of magnitude was achieved during induction chemotherapy. During consolidation a further decrease or disappearance of mutated alleles was achieved in 3 patients, who remained in remission. However, allelic burden increased in 2 patients after first consolidation treatment (HAM) by 9- and 735-fold compared to the allelic ratio after induction therapy, and they relapsed 74 and 303 days later. Thus, accurate determination of the FLT3-ITD allelic ratio by NGS may become useful to identify patients before overt relapse. In summary, we show that NGS can be used for minimal residual disease assessment in FLT3-ITD mutated AML patients. The sensitivity of the method is scalable depending on the read depth, however, an adequate sensitivity level for efficient MRD detection still needs to be determined. Disclosures: No relevant conflicts of interest to declare.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V118.21.3548.3548
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2011
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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  • 7
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    Online Resource
    Single‐cell whole exome and targeted sequencing in NPM1/FLT3 positive pediatric acute myeloid leukemia
    Wiley ; 2018
    In:  Pediatric Blood & Cancer Vol. 65, No. 2 ( 2018-02)
    Details
    In: Pediatric Blood & Cancer, Wiley, Vol. 65, No. 2 ( 2018-02)
    Abstract: The small portion of leukemic stem cells (LSCs) in acute myeloid leukemia (AML) present in children and adolescents is often masked by the high background of AML blasts and normal hematopoietic cells. The aim of the current study was to establish a simple workflow for reliable genetic analysis of single LSC‐enriched blasts from pediatric patients. Procedure For three AMLs with mutations in nucleophosmin 1 and/or fms‐like tyrosine kinase 3, we performed whole genome amplification on sorted single‐cell DNA followed by whole exome sequencing (WES). The corresponding bulk bone marrow DNAs were also analyzed by WES and by targeted sequencing (TS) that included 54 genes associated with myeloid malignancies. Results Analysis revealed that read coverage statistics were comparable between single‐cell and bulk WES data, indicating high‐quality whole genome amplification. From 102 single‐cell variants, 72 single nucleotide variants and insertions or deletions (70%) were consistently found in the two bulk DNA analyses. Variants reliably detected in single cells were also present in TS. However, initial screening by WES with read counts between 50–72× failed to detect rare AML subclones in the bulk DNAs. Conclusions In summary, our study demonstrated that single‐cell WES combined with bulk DNA TS is a promising tool set for detecting AML subclones and possibly LSCs.
    Type of Medium: Online Resource
    ISSN: 1545-5009 , 1545-5017
    URL: Issue
    URL: Article
    DOI: 10.1002/pbc.v65.2
    DOI: 10.1002/pbc.26848
    Language: English
    Publisher: Wiley
    Publication Date: 2018
    detail.hit.zdb_id: 2130978-4
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  • 8
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    Online Resource
    NADH dehydrogenase subunit 4 variant sequences in childhood acute myeloid leukaemia
    Wiley ; 2013
    In:  British Journal of Haematology Vol. 161, No. 6 ( 2013-06), p. 891-895
    Details
    In: British Journal of Haematology, Wiley, Vol. 161, No. 6 ( 2013-06), p. 891-895
    Type of Medium: Online Resource
    ISSN: 0007-1048
    URL: Issue
    URL: Article
    DOI: 10.1111/bjh.2013.161.issue-6
    DOI: 10.1111/bjh.12298
    RVK:
    XA 34100
    Language: English
    Publisher: Wiley
    Publication Date: 2013
    detail.hit.zdb_id: 1475751-5
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  • 9
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    Online Resource
    Transient and Myeloid Leukemia in Children with Down Syndrome Mosaic
    American Society of Hematology ; 2011
    In:  Blood Vol. 118, No. 21 ( 2011-11-18), p. 2539-2539
    Details
    In: Blood, American Society of Hematology, Vol. 118, No. 21 ( 2011-11-18), p. 2539-2539
    Abstract: Abstract 2539 Introduction: Transient leukemia (TL) occurs in 5 to 10% of newborns with Down syndrome (DS). In almost all cases it resolves spontaneously within 3 months, but 20–25% of the children develop myeloid leukemia (ML-DS) until the age of 4 years. TL and ML-DS can occur also in children without any clinical signs of Down syndrome, but with constitutional trisomy 21 due to mosaicism. It can be difficult to diagnose TL or ML-DS in these children and the treatment strategies have not been defined. Patients/Material: Between 1/2002 and 7/2011, 15 newborns and infants were diagnosed with DS mosaic. Nine of them presented with TL and 8 children suffered from ML-DS; 2 of them with a history of TL (table 1). In children without any stigmata the special morphology and immunophenotype of blasts triggered the screening for GATA1 mutation and trisomy 21 mosaic. Diagnostic work-up was performed according to standard guidelines: morphology, immunophenotyping (IP), cytogenetics and FISH (trisomy 21), molecular genetics (GATA 1 mutation screening). Screening of GATA1 mutations was done with direct sequencing of PCR product (Exon1, Exon2, and Exon3). For monitoring of GATA1 mutant clone qPCR have been used with patient specific TaqMan probes and primers. Mosaic was detected by cytogenetics or FISH in bone marrow, blood and/or fibroblasts. Results: All newborns with TL achieved complete remission (CR). Due to clinical symptoms caused by the leukemic blasts, in 3 children low-dose cytarabine was applied. One patient died due to cardiovascular failure. In all patients GATA 1 mutation was confirmed. Minimal residual disease by qPCR (mutation-specific probes) or immunophenotyping (IP) revealed negativity in 3 out of 3 children monitored (follow-up 2 to 10.1 yrs). Two children with (unknown) trisomy 21 mosaic were diagnosed as acute megakaryoblastic leukemia (AMKL) and treated according the high risk arm of the AML-BFM 2004 including allogeneic stem cell transplantation (one child), GATA1 mutation was identified retrospectively. Both children are alive in CR. Six children with ML-DS were initially treated according the AML-BFM protocol. After ML-DS was confirmed, therapy was continued with the intensity reduced schedule according to the ML-DS 2006 protocol. All children are still in CR (follow-up 1.5 to 6.7 years, median 2.4 yrs). This was confirmed by MRD-monitoring, which achieved negativity after two treatment elements (qPCR 〈 10−4 n=3; IP 〈 10−3 n=6). In one child a distinct refractory myeloid leukemia population (GATA1mut negative/trisomy 21 negative) arose after the 1st induction. Due to treatment refractory, allogenic stem cell transplantation was applied. Conclusions: GATA1 mutated leukemia has to be excluded in all young children with AMKL ( 〈 5years old) to prevent overtreatment. Treatment with reduced intensity protocol like ML-DS 2006 seems to be effective and sufficient in children with trisomy 21 mosaic and GATA1 mutated ML-DS. Disclosures: No relevant conflicts of interest to declare.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V118.21.2539.2539
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2011
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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  • 10
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    Next Generation Sequencing Identifies a Novel Subset of Non-Down Syndrome Acute Megakaryoblastic Leukemia Characterized By Chimeric Transcripts Involving HOX Cluster Genes
    American Society of Hematology ; 2015
    In:  Blood Vol. 126, No. 23 ( 2015-12-03), p. 171-171
    Details
    In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 171-171
    Abstract: Acute Megakaryoblastic Leukemia (AMKL) is a subtype of acute myeloid leukemia (AML) that morphologically resembles abnormal megakaryoblasts. While extremely rare in adults, pediatric cases comprise 4-15% of newly diagnosed AML patients. Clinical outcomes for Down syndrome (DS) patients with AMKL are uniformly excellent, whereas studies on non-DS patients (non-DS-AMKL) are more variable with the majority reporting inferior survival rates compared to other AML subtypes. Furthermore, the recommendation for stem cell transplant (SCT) in first remission for non-DS-AMKL patients is not uniform among pediatric cooperative groups. Previous efforts have identified chimeric oncogenes in non-DS-AMKL cases, including RBM15-MKL1, CBFA2T3-GLIS2, MLL gene rearrangements and NUP98-KDM5A. The etiology of 30-40% of cases, however, remains unknown. To better understand the genomic landscape of non-DS-AMKL and its contribution to clinical outcomes, we performed RNA and exome sequencing on specimens from 115 patients compiled from eight institutions and three cooperative groups including 90 pediatric and 25 adult cases. Of the 104 patients for whom RNA was available, 27.8% (5/18) adult and 72% (62/86) pediatric cases carried a high confidence fusion event by RNAseq. The most frequent fusions in the pediatric cohort when combining RNAseq data, cytogenetics and RT-PCR include CBFA2T3-GLIS2 (17/90), MLL r (13/90), NUP98-KDM5A (9/90), and RBM15-MKL1 (9/90). Previously described low frequency fusions identified in this expanded cohort, include a case of NIPBL-HOXB9 and a novel but functionally analogous NIPBL-HOXA9 fusion. Similarly, a case carrying GATA2-HOXA10 was identified, which is functionally equivalent to the GATA2-HOXA9 fusion that has been reported in a single case. Chimeric transcripts not previously described include several fusions involving genes within the HOX cluster (HOTAIRM1-HOXA3, HOXA_AS3-HOXA9, EWSR1-HOXB8, PLEK-HOXA11-AS, and BMP2K-HOXD10 each in a single case). Collectively, fusions involving a HOX cluster gene (HOX r) occurred in 11% of the pediatric cohort. Single Nucleotide Variation (SNV) analysis of exome and RNAseq data on the cohort revealed the presence of truncating GATA1 mutations in one adult and 10 pediatric specimens lacking fusion genes. Patients carrying GATA1 mutations did not have stigmata of DS or evidence of mutant reads in germline DNA, suggesting they are not mosaics. To determine if these fusion events contribute significantly to gene expression patterns, samples with greater than 60% purity were subjected to unsupervised clustering. Confirming the strength of the fusions in altering gene expression signatures, samples clustered according to fusion subtype and were distinct from those carrying GATA1 mutations. Specifically MLL r, HOX r, NUP98-KDM5A, and CBFA2T3-GLIS2 cases formed distinct clusters. When analyzing differentially upregulated genes within these subgroups, HOX r cases demonstrated upregulation of a HOX gene signature. Combined with MLL r and NUP98-KDM5A, chimeric oncogenes also known to upregulate HOX cluster genes, roughly one-third of pediatric non-DS-AMKL patients carry a HOX gene expression program. These cases were distinct from those carrying the CBFA2T3-GLIS2 inversion. HOX genes play a significant role in normal hematopoietic development and data suggests that deregulated expression has a central role in the etiology of several subtypes of acute leukemia, in part through the acquisition of enhanced self-renewal. We evaluated our identified HOXr for their ability to serially replate in murine colony formation assays as a surrogate marker of this characteristic. Confirming their pathogenicity, chimeric transcripts conferred an enhanced ability to replate. We conclude that chimeric transcripts involving HOX cluster genes comprise a distinct subset of pediatric AMKL. Clinical outcome analyses between genomic subgroups of this heterogeneous malignancy may allow us to more effectively risk stratify these patients and determine those that may benefit from SCT in first remission. JdR and CB contributed equally FL, DR, MH-E, MF, CMZ, and TAG co-corresponding authors on behalf of AIEOP, BFM, DCOG, and SJCRH study groups Disclosures Shih: Novartis: Research Funding.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V126.23.171.171
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2015
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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