Your search keyword '"Edwin Sonneveld"' showing total 20 results

1. Secondary lesions and sensitivity to signaling inhibitors in iAMP21 acute lymphoblastic leukemia

Author

Femke M. Hormann, Anna Østergaard, Stijn van denBroek, Aurélie Boeree, Cesca van deVen, Gabriele Escherich, Edwin Sonneveld, Judith M. Boer, and Monique L. den Boer

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract Intrachromosomal amplification of chromosome 21 (iAMP21) B‐cell precursor acute lymphoblastic leukemia (BCP‐ALL) in children is a high‐risk subtype for which targeted drugs are lacking. In this study, we determined the frequency of secondary lesions in 28 iAMP21 BCP‐ALL patient samples and investigated cellular sensitivity for candidate‐targeted drugs. iAMP21 was enriched in FLT3 aberrations (10.7% vs. 50.0%, p = 0.003) and SH2B3 inactivation (7.14% vs. 46.4%, p = 0.002), compared with 28 B‐other cases, and these alterations co‐occurred in 21.4%. The occurrence of lesions in CRLF2 and IL7R was similar between iAMP21 and B‐other cases (25% vs. 17.9%, p = 0.746 and 7.14% vs. 0%, p = 0.491 respectively) as were mutations in JAK1 and JAK2 (3.57% vs. 0% and 10.7% vs. 10.7%, p = 1 for both). Sensitivity to the FLT3 inhibitor gilteritinib did not differ between iAMP21 and B‐other cases irrespective of FLT3 status. However, iAMP21 samples harboring both FLT3‐ITD and SH2B3 lesions showed the highest sensitivity. CRLF2‐rearranged iAMP21 samples were slightly more sensitive to JAK inhibitor ruxolitinib than those without, although a lack of sensitivity was present in 50% of iAMP21 cases. Trametinib sensitivity varied among iAMP21 samples with over half of iAMP21 samples being sensitive irrespective of RAS‐pathway mutation status or other secondary lesions. In summary, iAMP21 leukemias were enriched in FLT3 and in SH2B3 lesions, which when co‐occurring affected sensitivity to FLT3 inhibition by gilteritinib but not JAK inhibition by ruxolitinib. Together, our results suggest that FLT3 and RAS signaling inhibitors are of interest for further (pre)clinical evaluation in iAMP21 BCP‐ALL.

Published

2025

2. NOTCH1 fusions in pediatric T‐cell lymphoblastic lymphoma: A high‐risk subgroup with CCL17 (TARC) levels as diagnostic biomarker

Author

Emma Kroeze, Michelle M. Kleisman, Lennart A. Kester, Marijn A. Scheijde‐Vermeulen, Edwin Sonneveld, Jessica G. C. Buijs‐Gladdines, Melanie M. Hagleitner, Friederike A. G. Meyer‐Wentrup, Margreet A. Veening, Auke Beishuizen, Jules P. P. Meijerink, Jan L. C. Loeffen, and Roland P. Kuiper

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract Twenty percent of children with T‐cell lymphoblastic lymphoma (T‐LBL) will relapse and have an extremely poor outcome. Currently, we can identify a genetically low‐risk subgroup in pediatric T‐LBL, yet these high‐risk patients who need intensified or alternative treatment options remain undetected. Therefore, there is an urgent need to recognize these high‐risk T‐LBL patients through identification of molecular characteristics and biomarkers. By using RNA sequencing which was performed in 29/49 T‐LBL patients who were diagnosed in the Princess Maxima Center for Pediatric Oncology between 2018 and 2023, we discovered a previously unknown high‐risk biological subgroup of children with T‐LBL. This subgroup is characterized by NOTCH1 gene fusions, found in 21% of our T‐LBL cohort (6/29). All patients presented with a large mediastinal mass, pleural/pericardial effusions, and absence of blasts in the bone marrow, blood, and central nervous system. Blood CCL17 (C‐C Motif Chemokine Ligand 17, TARC) levels were measured at diagnosis in 26/29 patients, and all six patients with NOTCH1 gene fusions patients exclusively expressed highly elevated blood CCL17 levels, defining a novel and previously not known clinically relevant biomarker for T‐cell lymphoblastic lymphoma. Four out of these six patients relapsed during therapy, a fifth developed a therapy‐related acute myeloid leukemia during maintenance therapy. These data indicate that T‐LBL patients with a NOTCH1 fusion have a high risk of relapse which can be easily identified using a blood CCL17 screening at diagnosis. Further molecular characterization through NOTCH1 gene fusion analysis offers these patients the opportunity for treatment intensification or new treatment strategies.

Published

2024

3. Targeted treatment options for paediatric B-cell precursor acute lymphoblastic leukaemia patients with constitutional or somatic chromosome 21 alterations

Author

Naomi Michels, Femke M. Hormann, Aurélie Boeree, Edwin Sonneveld, Anthony V. Moorman, Gabriele Escherich, Rosemary Sutton, H. Berna Beverloo, Rob Pieters, C. Michel Zwaan, Monique L. den Boer, and Judith M. Boer

Subjects

Acute lymphoblastic leukemia, RAS, JAK, Paediatric, Chromosome 21, Down syndrome, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background: Chromosome 21 is affected in ∼60% of paediatric B-cell precursor acute lymphoblastic leukaemia (BCP-ALL) patients and includes somatic and constitutional gains, intrachromosomal amplification of chromosome 21 (iAMP21), and the translocation t(12;21) resulting in the ETV6::RUNX1 gene fusion. Methods: Since these numeric and structural chromosome 21 alterations are not targetable, we studied the type and frequency of yet-proven targetable events co-occurring with chromosome 21 alterations. Results: Among 307 primary paediatric BCP-ALL cases, JAK/STAT pathway lesions were most frequent in patients with constitutional gain of chromosome 21 (Down syndrome ALL; 35/71, 49%) and iAMP21 (9/22, 41%). RAS pathway lesions were most frequent in high hyperdiploidy (62/108, 57%) and FLT3 lesions were most frequent in iAMP21 (7/22, 32%). Virtually all cases expressed CD19 and CD22 at the cell surface. Positivity for CD20 surface expression ranged from 67% in iAMP21 (8/12) to 20% in ETV6::RUNX1 (26/129). Conclusion: Activated JAK/STAT, RAS or FLT3 signalling, and CD marker surface expression may provide targetable treatment options for the majority of chromosome 21-altered BCP-ALL cases.

Published

2024

4. Baseline immunophenotypic profile of bone marrow leukemia cells in acute myeloid leukemia with nucleophosmin-1 gene mutation: a EuroFlow study

Author

Sergio Matarraz, Pilar Leoz, Ana Yeguas-Bermejo, Vincent van der Velden, Anne E. Bras, Jose I. Sánchez Gallego, Quentin Lecrevisse, Rosa Ayala-Bueno, Cristina Teodosio, Ignacio Criado, María González-González, Juan Flores-Montero, Alejandro Avendaño, María B. Vidriales, María C. Chillón, Teresa González, Ramón García-Sanz, María I. Prieto Conde, Neus Villamor, Laura Magnano, Enrique Colado, Paula Fernández, Edwin Sonneveld, Jan Philippé, Michaela Reiterová, Juan C. Caballero Berrocal, Francisco J. Diaz-Gálvez, Fernando Ramos, Julio Dávila Valls, Raquel Manjón Sánchez, Jackeline Solano Tovar, Xavier Calvo, Luis García Alonso, Leonor Arenillas, Sara Alonso, Ariana Fonseca, Covadonga Quirós Caso, Jacques J. M. van Dongen, and Alberto Orfao

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

5. ABL-class Genomic Breakpoint Q-PCR: A Patient-specific Approach for MRD Monitoring in Acute Lymphoblastic Leukemia

Author

Inge van Outersterp, Vincent H.J. van der Velden, Patricia G. Hoogeveen, Goda E. Vaitkevičienė, Edwin Sonneveld, Gijs van Haaften, Roland P. Kuiper, Udo zur Stadt, Gabriele Escherich, Judith M. Boer, and Monique L. den Boer

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

6. P366: ARE MINIMAL RESIDUAL DISEASE MEASUREMENTS AFTER CONSOLIDATION THERAPY USEFUL IN CHILDREN WITH ACUTE LYMPHOBLASTIC LEUKEMIA?

Author

Janine Stutterheim, Rachella Van der Waarden, Hester de Groot-Kruseman, Edwin Sonneveld, Valerie De Haas, Ellen C Van der Schoot, Vincent van der Velden, Rana Dandis, and Rob Pieters

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

7. Integrating copy number data of 64 iAMP21 BCP-ALL patients narrows the common region of amplification to 1.57 Mb

Author

Femke M. Hormann, Alex Q. Hoogkamer, Aurélie Boeree, Edwin Sonneveld, Gabriele Escherich, Monique L. den Boer, and Judith M. Boer

Subjects

intrachromosomal amplification of chromosome 21 (iAMP21), peadiatric, acute lymphoblastic leukaemia, genomics, RIPPLY3, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background and purposeIntrachromosomal amplification of chromosome 21 (iAMP21) is a rare subtype of B-cell precursor acute lymphoblastic leukaemia (BCP-ALL). It is unknown how iAMP21 contributes to leukaemia. The currently known commonly amplified region is 5.1 Mb.MethodsWe aimed to narrow down the common region of amplification by using high resolution techniques. Array comparative genomic hybridization (aCGH) was used to determine copy number aberrations, Affymetrix U133 Plus2 expression arrays were used to determine gene expression. Genome-wide expression correlations were evaluated using Globaltest.ResultsWe narrowed down the common region of amplification by combining copy number data from 12 iAMP21 cases with 52 cases from literature. The combined common region of amplification was 1.57 Mb, located from 36.07 to 37.64 Mb (GRCh38). This region is located telomeric from, but not including, RUNX1, which is the locus commonly used to diagnose iAMP21. This narrow region, which falls inside the Down Syndrome critical region, includes 13 genes of which the expression of eight genes was significantly upregulated compared with 143 non-iAMP21 B-other cases. Among these, transcriptional repressor RIPPLY3 (also known as DSCR6) was the highest overexpressed gene (fold change = 4.2, FDR < 0.001) and most strongly correlated (R = 0.58) with iAMP21-related genome-wide expression changes.DiscussionThe more precise definition of the common region of amplification could be beneficial in the diagnosis of iAMP21 based on copy number analysis from DNA sequencing or arrays as well as stimulate functional research into the role of the included genes in iAMP21 biology.

Published

2023

8. Molecular characterization and clinical outcome of B-cell precursor acute lymphoblastic leukemia with IG-MYC rearrangement

Author

Simon Bomken, Amir Enshaei, Edward C. Schwalbe, Aneta Mikulasova, Yunfeng Dai, Masood Zaka, Kent T.M. Fung, Matthew Bashton, Huezin Lim, Lisa Jones, Nefeli Karataraki, Emily Winterman, Cody Ashby, Andishe Attarbaschi, Yves Bertrand, Jutta Bradtke, Barbara Buldini, G.A. Amos Burke, Giovanni Cazzaniga, Gudrun Gohring, Hesta A. de Groot-Kruseman, Claudia Haferlach, Luca Lo Nigro, Mayur Parihar, Adriana Plesa, Emma Seaford, Edwin Sonneveld, Sabine Strehl, Vincent H.J. van der Velden, Vikki Rand, Stephen P. Hunger, Christine J. Harrison, Chris M. Bacon, Frederik W. van Delft, Mignon L. Loh, John Moppett, Josef Vormoor, Brian A. Walker, Anthony V. Moorman, and Lisa J. Russell

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Rarely, immunophenotypically immature B-cell precursor acute lymphoblastic leukemia (BCP-ALL) carries an immunoglobulin- MYC rearrangement (IG-MYC-r). This can result in diagnostic confusion with Burkitt lymphoma/leukemia and use of individualized treatment schedules of unproven efficacy. Here we compare the molecular characteristics of these conditions and investigate historic clinical outcome data. We identified 90 cases registered in a national BCP-ALL clinical trial/registry. When present, diagnostic material underwent cytogenetic, exome, methylome and transcriptome analyses. The outcomes analyzed were 3-year event-free survival and overall survival. IG-MYC-r was identified in diverse cytogenetic backgrounds, co-existing with either established BCP-ALL-specific abnormalities (high hyperdiploidy, n=3; KMT2A-rearrangement, n=6; iAMP21, n=1; BCR-ABL1, n=1); BCL2/BCL6-rearrangements (n=15); or, most commonly, as the only defining feature (n=64). Within this final group, precursor-like V(D)J breakpoints predominated (8/9) and KRAS mutations were common (5/11). DNA methylation identified a cluster of V(D)J-rearranged cases, clearly distinct from Burkitt leukemia/lymphoma. Children with IG-MYC-r within that subgroup had a 3-year event-free survival of 47% and overall survival of 60%, representing a high-risk BCP-ALL. To develop effective management strategies this group of patients must be allowed access to contemporary, minimal residual disease-adapted, prospective clinical trial protocols.

Published

2022

9. Molecular Measurable Residual Disease Assessment before Hematopoietic Stem Cell Transplantation in Pediatric Acute Myeloid Leukemia Patients: A Retrospective Study by the I-BFM Study Group

Author

Maddalena Benetton, Pietro Merli, Christiane Walter, Maria Hansen, Ambra Da Ros, Katia Polato, Claudia Tregnago, Jonas Abrahamsson, Luisa Strocchio, Edwin Sonneveld, Linda Fogelstrand, Nils Von Neuhoff, Dirk Reinhardt, Henrik Hasle, Martina Pigazzi, and Franco Locatelli

Subjects

AML, HSCT, q-PCR, MRD, molecular genetics, Biology (General), QH301-705.5

Abstract

Hematopoietic stem cell transplantation (HSCT) is a curative post-remission treatment in patients with acute myeloid leukemia (AML), but relapse after transplant is still a challenging event. In recent year, several studies have investigated the molecular minimal residual disease (qPCR-MRD) as a predictor of relapse, but the lack of standardized protocols, cut-offs, and timepoints, especially in the pediatric setting, has prevented its use in several settings, including before HSCT. Here, we propose the first collaborative retrospective I-BFM-AML study assessing qPCR-MRD values in pretransplant bone marrow samples of 112 patients with a diagnosis of AML harboring t(8;21)(q22; q22)RUNX1::RUNX1T1, or inv(16)(p13q22)CBFB::MYH11, or t(9;11)(p21;q23)KMT2A::MLLT3, or FLT3-ITD genetic markers. We calculated an ROC cut-off of 2.1 × 10−4 that revealed significantly increased OS (83.7% versus 57.1%) and EFS (80.2% versus 52.9%) for those patients with lower qPCR-MRD values. Then, we partitioned patients into three qPCR-MRD groups by combining two different thresholds, 2.1 × 10−4 and one lower cut-off of 1 × 10−2, and stratified patients into low-, intermediate-, and high-risk groups. We found that the 5-year OS (83.7%, 68.6%, and 39.2%, respectively) and relapse-free survival (89.2%, 73.9%, and 67.9%, respectively) were significantly different independent of the genetic lesion, conditioning regimen, donor, and stem cell source. These data support the PCR-based approach playing a clinical relevance in AML transplant management.

Published

2022

10. Multiclonal complexity of pediatric acute lymphoblastic leukemia and the prognostic relevance of subclonal mutations

Author

Željko Antić, Jiangyan Yu, Simon V. van Reijmersdal, Anke van Dijk, Linde Dekker, Wouter H. Segerink, Edwin Sonneveld, Marta Fiocco, Rob Pieters, Peter M. Hoogerbrugge, Frank N. van Leeuwen, Ad Geurts van Kessel, Esme Waanders, and Roland P. Kuiper

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Genomic studies of pediatric acute lymphoblastic leukemia (ALL) have shown remarkable heterogeneity in initial diagnosis, with multiple (sub)clones harboring lesions in relapse-associated genes. However, the clinical relevance of these subclonal alterations remains unclear. We assessed the clinical relevance and prognostic value of subclonal alterations in the relapse-associated genes IKZF1, CREBBP, KRAS, NRAS, PTPN11, TP53, NT5C2, and WHSC1 in 503 ALL cases. Using molecular inversion probe sequencing and breakpoint-spanning polymerase chain reaction analysis we reliably detected alterations with an allele frequency below 1%. We identified 660 genomic alterations in 285 diagnostic samples of which 495 (75%) were subclonal. RAS pathway mutations were common, particularly in minor subclones, and comparisons between RAS hotspot mutations revealed differences in their capacity to drive clonal expansion in ALL. We did not find an association of subclonal alterations with unfavorable outcome. Particularly for IKZF1, an established prognostic marker in ALL, all clonal but none of the subclonal alterations were preserved at relapse. We conclude that, for the genes tested, there is no basis to consider subclonal alterations detected at diagnosis for risk group stratification of ALL treatment.

Published

2020

11. Upfront Treatment Influences the Composition of Genetic Alterations in Relapsed Pediatric B-Cell Precursor Acute Lymphoblastic Leukemia

Author

Jiangyan Yu, Esmé Waanders, Simon V. van Reijmersdal, Željko Antić, Charlotte M. van Bosbeek, Edwin Sonneveld, Hester de Groot, Marta Fiocco, Ad Geurts van Kessel, Frank N. van Leeuwen, Rob Pieters, Peter M. Hoogerbrugge, and Roland P. Kuiper

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract. Genomic alterations in relapsed B-cell precursor acute lymphoblastic leukemia (BCP-ALL) may provide insight into the role of specific genomic events in relapse development. Along this line, comparisons between the spectrum of alterations in relapses that arise in different upfront treatment protocols may provide valuable information on the association between the tumor genome, protocol components and outcome. Here, we performed a comprehensive characterization of relapsed BCP-ALL cases that developed in the context of 3 completed Dutch upfront studies, ALL8, ALL9, and ALL10. In total, 123 pediatric BCP-ALL relapses and 77 paired samples from primary diagnosis were analyzed for alterations in 22 recurrently affected genes. We found pronounced differences in relapse alterations between the 3 studies. Specifically, CREBBP mutations were observed predominantly in relapses after treatment with ALL8 and ALL10 which, in the latter group, were all detected in medium risk-treated patients. IKZF1 alterations were enriched 2.2-fold (p = 0.01) and 2.9-fold (p

Published

2020

12. AML Subtype Is a Major Determinant of the Association between Prognostic Gene Expression Signatures and Their Clinical Significance

Author

Caroline R.M. Wiggers, Mirna L. Baak, Edwin Sonneveld, Edward E.S. Nieuwenhuis, Marije Bartels, and Menno P. Creyghton

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Relapse in acute myeloid leukemia (AML) may result from variable genetic origins or convergence on common biological processes. Exploiting the specificity and sensitivity of regulatory DNA, we analyze patient samples of multiple clinical outcomes covering various AML molecular subtypes. We uncover regulatory variation among patients translating into a transcriptional signature that predicts relapse risk. In addition, we find clusters of coexpressed genes within this signature selectively link to relapse risk in distinct patient subgroups defined by molecular subtype or AML maturation. Analyzing these gene clusters and the AML subtypes separately enhances their prognostic value substantially and provides insight in the mechanisms underlying relapse risk across the distinct patient subgroups. We propose that prognostic gene expression signatures in AML are valid only within patient subgroups and do not transcend these subgroups. : Predicting relapse risk using prognostic gene expression signatures can help direct therapeutic strategies in the management of malignancies. Wiggers et al. demonstrate that a prognostic signature that predicts relapse risk across AML patients contains subsets of genes that are valid within defined patient subgroups only and do not transcend subgroups. Keywords: acute myeloid leukemia, gene regulation, gene regulatory elements, relapse, subtype heterogeneity

Published

2019

13. Tumor suppressors BTG1 and IKZF1 cooperate during mouse leukemia development and increase relapse risk in B-cell precursor acute lymphoblastic leukemia patients

Author

Blanca Scheijen, Judith M. Boer, René Marke, Esther Tijchon, Dorette van Ingen Schenau, Esmé Waanders, Liesbeth van Emst, Laurens T. van der Meer, Rob Pieters, Gabriele Escherich, Martin A. Horstmann, Edwin Sonneveld, Nicola Venn, Rosemary Sutton, Luciano Dalla-Pozza, Roland P. Kuiper, Peter M. Hoogerbrugge, Monique L. den Boer, and Frank N. van Leeuwen

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Deletions and mutations affecting lymphoid transcription factor IKZF1 (IKAROS) are associated with an increased relapse risk and poor outcome in B-cell precursor acute lymphoblastic leukemia. However, additional genetic events may either enhance or negate the effects of IKZF1 deletions on prognosis. In a large discovery cohort of 533 childhood B-cell precursor acute lymphoblastic leukemia patients, we observed that single-copy losses of BTG1 were significantly enriched in IKZF1-deleted B-cell precursor acute lymphoblastic leukemia (P=0.007). While BTG1 deletions alone had no impact on prognosis, the combined presence of BTG1 and IKZF1 deletions was associated with a significantly lower 5-year event-free survival (P=0.0003) and a higher 5-year cumulative incidence of relapse (P=0.005), when compared with IKZF1-deleted cases without BTG1 aberrations. In contrast, other copy number losses commonly observed in B-cell precursor acute lymphoblastic leukemia, such as CDKN2A/B, PAX5, EBF1 or RB1, did not affect the outcome of IKZF1-deleted acute lymphoblastic leukemia patients. To establish whether the combined loss of IKZF1 and BTG1 function cooperate in leukemogenesis, Btg1-deficient mice were crossed onto an Ikzf1 heterozygous background. We observed that loss of Btg1 increased the tumor incidence of Ikzf1+/− mice in a dose-dependent manner. Moreover, murine B cells deficient for Btg1 and Ikzf1+/− displayed increased resistance to glucocorticoids, but not to other chemotherapeutic drugs. Together, our results identify BTG1 as a tumor suppressor in leukemia that, when deleted, strongly enhances the risk of relapse in IKZF1-deleted B-cell precursor acute lymphoblastic leukemia, and augments the glucocorticoid resistance phenotype mediated by the loss of IKZF1 function.

Published

2017

14. The association of aberrant folylpolyglutamate synthetase splicing with ex vivo methotrexate resistance and clinical outcome in childhood acute lymphoblastic leukemia

Author

Anna Wojtuszkiewicz, Yehuda G. Assaraf, Mirthe Hoekstra, Rocco Sciarrillo, Gerrit Jansen, Godefridus J. Peters, Rob Pieters, Edwin Sonneveld, Gabriele Escherich, Gertjan J.L. Kaspers, and Jacqueline Cloos

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2016

15. Recurrent deletions of IKZF1 in pediatric acute myeloid leukemia

Author

Jasmijn D.E. de Rooij, Eva Beuling, Marry M. van den Heuvel-Eibrink, Askar Obulkasim, André Baruchel, Jan Trka, Dirk Reinhardt, Edwin Sonneveld, Brenda E.S. Gibson, Rob Pieters, Martin Zimmermann, C. Michel Zwaan, and Maarten Fornerod

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

IKAROS family zinc finger 1/IKZF1 is a transcription factor important in lymphoid differentiation, and a known tumor suppressor in acute lymphoid leukemia. Recent studies suggest that IKZF1 is also involved in myeloid differentiation. To investigate whether IKZF1 deletions also play a role in pediatric acute myeloid leukemia, we screened a panel of pediatric acute myeloid leukemia samples for deletions of the IKZF1 locus using multiplex ligation-dependent probe amplification and for mutations using direct sequencing. Three patients were identified with a single amino acid variant without change of IKZF1 length. No frame-shift mutations were found. Out of 11 patients with an IKZF1 deletion, 8 samples revealed a complete loss of chromosome 7, and 3 cases a focal deletion of 0.1–0.9Mb. These deletions included the complete IKZF1 gene (n=2) or exons 1–4 (n=1), all leading to a loss of IKZF1 function. Interestingly, differentially expressed genes in monosomy 7 cases (n=8) when compared to non-deleted samples (n=247) significantly correlated with gene expression changes in focal IKZF1-deleted cases (n=3). Genes with increased expression included genes involved in myeloid cell self-renewal and cell cycle, and a significant portion of GATA target genes and GATA factors. Together, these results suggest that loss of IKZF1 is recurrent in pediatric acute myeloid leukemia and might be a determinant of oncogenesis in acute myeloid leukemia with monosomy 7

Published

2015

16. Immature MEF2C-dysregulated T-cell leukemia patients have an early T-cell precursor acute lymphoblastic leukemia gene signature and typically have non-rearranged T-cell receptors

Author

Linda Zuurbier, Alejandro Gutierrez, Charles G. Mullighan, Kirsten Canté-Barrett, A. Olivier Gevaert, Johan de Rooi, Yunlei Li, Willem K. Smits, Jessica G.C.A.M. Buijs-Gladdines, Edwin Sonneveld, A. Thomas Look, Martin Horstmann, Rob Pieters, and Jules P.P. Meijerink

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Three distinct immature T-cell acute lymphoblastic leukemia entities have been described including cases that express an early T-cell precursor immunophenotype or expression profile, immature MEF2C-dysregulated T-cell acute lymphoblastic leukemia cluster cases based on gene expression analysis (immature cluster) and cases that retain non-rearranged TRG@ loci. Early T-cell precursor acute lymphoblastic leukemia cases exclusively overlap with immature cluster samples based on the expression of early T-cell precursor acute lymphoblastic leukemia signature genes, indicating that both are featuring a single disease entity. Patients lacking TRG@ rearrangements represent only 40% of immature cluster cases, but no further evidence was found to suggest that cases with absence of bi-allelic TRG@ deletions reflect a distinct and even more immature disease entity. Immature cluster/early T-cell precursor acute lymphoblastic leukemia cases are strongly enriched for genes expressed in hematopoietic stem cells as well as genes expressed in normal early thymocyte progenitor or double negative-2A T-cell subsets. Identification of early T-cell precursor acute lymphoblastic leukemia cases solely by defined immunophenotypic criteria strongly underestimates the number of cases that have a corresponding gene signature. However, early T-cell precursor acute lymphoblastic leukemia samples correlate best with a CD1 negative, CD4 and CD8 double negative immunophenotype with expression of CD34 and/or myeloid markers CD13 or CD33. Unlike various other studies, immature cluster/early T-cell precursor acute lymphoblastic leukemia patients treated on the COALL-97 protocol did not have an overall inferior outcome, and demonstrated equal sensitivity levels to most conventional therapeutic drugs compared to other pediatric T-cell acute lymphoblastic leukemia patients.

Published

2014

17. Engagement of SIRPα inhibits growth and induces programmed cell death in acute myeloid leukemia cells.

Author

Mahban Irandoust, Julian Alvarez Zarate, Isabelle Hubeek, Ellen M van Beek, Karin Schornagel, Aart J F Broekhuizen, Mercan Akyuz, Arjan A van de Loosdrecht, Ruud Delwel, Peter J Valk, Edwin Sonneveld, Pamela Kearns, Ursula Creutzig, Dirk Reinhardt, Eveline S J M de Bont, Eva A Coenen, Marry M van den Heuvel-Eibrink, C Michel Zwaan, Gertjan J L Kaspers, Jacqueline Cloos, and Timo K van den Berg

Subjects

Medicine, Science

Abstract

BackgroundRecent studies show the importance of interactions between CD47 expressed on acute myeloid leukemia (AML) cells and the inhibitory immunoreceptor, signal regulatory protein-alpha (SIRPα) on macrophages. Although AML cells express SIRPα, its function has not been investigated in these cells. In this study we aimed to determine the role of the SIRPα in acute myeloid leukemia.Design and methodsWe analyzed the expression of SIRPα, both on mRNA and protein level in AML patients and we further investigated whether the expression of SIRPα on two low SIRPα expressing AML cell lines could be upregulated upon differentiation of the cells. We determined the effect of chimeric SIRPα expression on tumor cell growth and programmed cell death by its triggering with an agonistic antibody in these cells. Moreover, we examined the efficacy of agonistic antibody in combination with established antileukemic drugs.ResultsBy microarray analysis of an extensive cohort of primary AML samples, we demonstrated that SIRPα is differentially expressed in AML subgroups and its expression level is dependent on differentiation stage, with high levels in FAB M4/M5 AML and low levels in FAB M0-M3. Interestingly, AML patients with high SIRPα expression had a poor prognosis. Our results also showed that SIRPα is upregulated upon differentiation of NB4 and Kasumi cells. In addition, triggering of SIRPα with an agonistic antibody in the cells stably expressing chimeric SIRPα, led to inhibition of growth and induction of programmed cell death. Finally, the SIRPα-derived signaling synergized with the activity of established antileukemic drugs.ConclusionsOur data indicate that triggering of SIRPα has antileukemic effect and may function as a potential therapeutic target in AML.

Published

2013

18. The significance of PTEN and AKT aberrations in pediatric T-cell acute lymphoblastic leukemia

Author

Linda Zuurbier, Emanuel F. Petricoin, Maartje J. Vuerhard, Valerie Calvert, Clarissa Kooi, Jessica G.C.A.M. Buijs-Gladdines, Willem K. Smits, Edwin Sonneveld, Anjo J.P. Veerman, Willem A. Kamps, Martin Horstmann, Rob Pieters, and Jules P.P. Meijerink

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Background PI3K/AKT pathway mutations are found in T-cell acute lymphoblastic leukemia, but their overall impact and associations with other genetic aberrations is unknown. PTEN mutations have been proposed as secondary mutations that follow NOTCH1-activating mutations and cause cellular resistance to γ-secretase inhibitors.Design and Methods The impact of PTEN, PI3K and AKT aberrations was studied in a genetically well-characterized pediatric T-cell leukemia patient cohort (n=146) treated on DCOG or COALL protocols.Results PTEN and AKT E17K aberrations were detected in 13% and 2% of patients, respectively. Defective PTEN-splicing was identified in incidental cases. Patients without PTEN protein but lacking exon-, splice-, promoter mutations or promoter hypermethylation were present. PTEN/AKT mutations were especially abundant in TAL- or LMO-rearranged leukemia but nearly absent in TLX3-rearranged patients (P=0.03), the opposite to that observed for NOTCH1-activating mutations. Most PTEN/AKT mutant patients either lacked NOTCH1-activating mutations (P=0.006) or had weak NOTCH1-activating mutations (P=0.011), and consequently expressed low intracellular NOTCH1, cMYC and MUSASHI levels. T-cell leukemia patients without PTEN/AKT and NOTCH1-activating mutations fared well, with a cumulative incidence of relapse of only 8% versus 35% for PTEN/AKT and/or NOTCH1-activated patients (P=0.005).Conclusions PI3K/AKT pathway aberrations are present in 18% of pediatric T-cell acute lymphoblastic leukemia patients. Absence of strong NOTCH1-activating mutations in these cases may explain cellular insensitivity to γ-secretase inhibitors.

Published

2012

19. The origin and nature of tightly clustered BTG1 deletions in precursor B-cell acute lymphoblastic leukemia support a model of multiclonal evolution.

Author

Esmé Waanders, Blanca Scheijen, Laurens T van der Meer, Simon V van Reijmersdal, Liesbeth van Emst, Yvet Kroeze, Edwin Sonneveld, Peter M Hoogerbrugge, Ad Geurts van Kessel, Frank N van Leeuwen, and Roland P Kuiper

Subjects

Genetics, QH426-470

Abstract

Recurrent submicroscopic deletions in genes affecting key cellular pathways are a hallmark of pediatric acute lymphoblastic leukemia (ALL). To gain more insight into the mechanism underlying these deletions, we have studied the occurrence and nature of abnormalities in one of these genes, the B-cell translocation gene 1 (BTG1), in a large cohort of pediatric ALL cases. BTG1 was found to be exclusively affected by genomic deletions, which were detected in 65 out of 722 B-cell precursor ALL (BCP-ALL) patient samples (9%), but not in 109 T-ALL cases. Eight different deletion sizes were identified, which all clustered at the telomeric site in a hotspot region within the second (and last) exon of the BTG1 gene, resulting in the expression of truncated BTG1 read-through transcripts. The presence of V(D)J recombination signal sequences at both sites of virtually all deletions strongly suggests illegitimate RAG1/RAG2-mediated recombination as the responsible mechanism. Moreover, high levels of histone H3 lysine 4 trimethylation (H3K4me3), which is known to tether the RAG enzyme complex to DNA, were found within the BTG1 gene body in BCP-ALL cells, but not T-ALL cells. BTG1 deletions were rarely found in hyperdiploid BCP-ALLs, but were predominant in other cytogenetic subgroups, including the ETV6-RUNX1 and BCR-ABL1 positive BCP-ALL subgroups. Through sensitive PCR-based screening, we identified multiple additional BTG1 deletions at the subclonal level in BCP-ALL, with equal cytogenetic distribution which, in some cases, grew out into the major clone at relapse. Taken together, our results indicate that BTG1 deletions may act as "drivers" of leukemogenesis in specific BCP-ALL subgroups, in which they can arise independently in multiple subclones at sites that are prone to aberrant RAG1/RAG2-mediated recombination events. These findings provide further evidence for a complex and multiclonal evolution of ALL.

Published

2012

20. Characterization of CEBPA mutations and promoter hypermethylation in pediatric acute myeloid leukemia

Author

Iris H.I.M. Hollink, Marry M. van den Heuvel-Eibrink, Susan T.C.J.M. Arentsen-Peters, Martin Zimmermann, Justine K. Peeters, Peter J.M. Valk, Brian V. Balgobind, Edwin Sonneveld, Gertjan J.L. Kaspers, Eveline S.J.M. de Bont, Jan Trka, Andre Baruchel, Ursula Creutzig, Rob Pieters, Dirk Reinhardt, and C. Michel Zwaan

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Background Dysfunctioning of CCAAT/enhancer binding protein α (C/EBPα) in acute myeloid leukemia can be caused, amongst others, by mutations in the encoding gene (CEBPA) and by promoter hypermethylation. CEBPA-mutated acute myeloid leukemia is associated with a favorable outcome, but this may be restricted to the case of double mutations in CEBPA in adult acute myeloid leukemia. In pediatric acute myeloid leukemia, data on the impact of these mutations are limited to one series, and data on promoter hypermethylation are lacking. Our objective was to investigate the characteristics, gene expression profiles and prognostic impact of the different CEBPA aberrations in pediatric acute myeloid leukemia.Design and Methods We screened a large pediatric cohort (n=252) for CEBPA single and double mutations by direct sequencing, and for promoter hypermethylation by methylation-specific polymerase chain reaction. Furthermore, we determined the gene-expression profiles (Affymetrix HGU133 plus 2.0 arrays) of this cohort (n=237).Results Thirty-four mutations were identified in 20 out of the 252 cases (7.9%), including 14 double-mutant and 6 single-mutant cases. CEBPA double mutations conferred a significantly better 5-year overall survival compared with single mutations (79% versus 25%, respectively; P=0.04), and compared with CEBPA wild-type acute myeloid leukemia excluding core-binding factor cases (47%; P=0.07). Multivariate analysis confirmed that the double mutations were an independent favorable prognostic factor for survival (hazard ratio 0.23, P=0.04). The combination of screening for promoter hypermethylation and gene expression profiling identified five patients with silenced CEBPA, of whom four cases relapsed. All cases characteristically expressed T-lymphoid markers. Moreover, unsupervised clustering of gene expression profiles showed a clustering of CEBPA double-mutant and silenced cases, pointing towards a common hallmark of abrogated C/EBPα-functioning in these acute myeloid leukemias.Conclusions We showed the independent favorable outcome of patients with CEBPA double-mutant acute myeloid leukemia in a large pediatric series. This molecular marker may, therefore, improve risk-group stratification in pediatric acute myeloid leukemia. For the first time, CEBPA-silenced cases are suggested to confer a poor outcome in pediatric acute myeloid leukemia, indicating that further investigation of this aberration is needed. Furthermore, clustering of gene expression profiles provided insight into the biological similarities and diversities of the different aberrations in CEBPA in pediatric acute myeloid leukemia.

Published

2011