Your search keyword '"Smits, Willem K."' showing total 36 results

1. Elevated enhancer-oncogene contacts and higher oncogene expression levels by recurrent CTCF inactivating mutations in acute T cell leukemia

Author

Smits, Willem K., Vermeulen, Carlo, Hagelaar, Rico, Kimura, Shunsuke, Vroegindeweij, Eric M., Buijs-Gladdines, Jessica G.C.A.M., van de Geer, Ellen, Verstegen, Marjon J.A.M., Splinter, Erik, van Reijmersdal, Simon V., Buijs, Arjan, Galjart, Niels, van Eyndhoven, Winfried, van Min, Max, Kuiper, Roland, Kemmeren, Patrick, Mullighan, Charles G., de Laat, Wouter, and Meijerink, Jules P.P.

Published

2023

2. MAPK-ERK is a central pathway in T-cell acute lymphoblastic leukemia that drives steroid resistance

Author

van der Zwet, Jordy C. G., Buijs-Gladdines, Jessica G. C. A. M., Cordo’, Valentina, Debets, Donna O., Smits, Willem K., Chen, Zhongli, Dylus, Jelle, Zaman, Guido J. R., Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat, Bourquin, Jean-Pierre, Cools, Jan, Ferrando, Adolfo A., Vormoor, Josef, Pieters, Rob, Vormoor, Britta, and Meijerink, Jules P. P.

Published

2021

3. The role of the mineralocorticoid receptor in steroidinduced cytotoxicity in pediatric acute lymphoblastic leukemia

Author

Speerpunt, Zorg en O&O, Cancer, Child Health, Van Hulst, Annelienke M., Van der Zwet, Jordy C.G., Buijs-Gladdines, Jessica G.C.A.M., Smits, Willem K., Fiocco, Marta, Pieters, Rob, Van Leeuwen, Frank N., Van den Heuvel-Eibrink, Marry M., Van den Akker, Erica L.T., Meijerink, Jules P.P., Speerpunt, Zorg en O&O, Cancer, Child Health, Van Hulst, Annelienke M., Van der Zwet, Jordy C.G., Buijs-Gladdines, Jessica G.C.A.M., Smits, Willem K., Fiocco, Marta, Pieters, Rob, Van Leeuwen, Frank N., Van den Heuvel-Eibrink, Marry M., Van den Akker, Erica L.T., and Meijerink, Jules P.P.

Published

2024

4. The role of the mineralocorticoid receptor in steroidinduced cytotoxicity in pediatric acute lymphoblastic leukemia

Author

Van Hulst, Annelienke M., Van der Zwet, Jordy C.G., Buijs-Gladdines, Jessica G.C.A.M., Smits, Willem K., Fiocco, Marta, Pieters, Rob, Van Leeuwen, Frank N., Van den Heuvel-Eibrink, Marry M., Van den Akker, Erica L.T., Meijerink, Jules P.P., Van Hulst, Annelienke M., Van der Zwet, Jordy C.G., Buijs-Gladdines, Jessica G.C.A.M., Smits, Willem K., Fiocco, Marta, Pieters, Rob, Van Leeuwen, Frank N., Van den Heuvel-Eibrink, Marry M., Van den Akker, Erica L.T., and Meijerink, Jules P.P.

Published

2024

5. Data from Deletion 6q Drives T-cell Leukemia Progression by Ribosome Modulation

Author

Gachet, Stéphanie, primary, El-Chaar, Tiama, primary, Avran, David, primary, Genesca, Eulalia, primary, Catez, Frédéric, primary, Quentin, Samuel, primary, Delord, Marc, primary, Thérizols, Gabriel, primary, Briot, Delphine, primary, Meunier, Godelieve, primary, Hernandez, Lucie, primary, Pla, Marika, primary, Smits, Willem K., primary, Buijs-Gladdines, Jessica G., primary, Van Loocke, Wouter, primary, Menschaert, Gerben, primary, André-Schmutz, Isabelle, primary, Taghon, Tom, primary, Van Vlierberghe, Pieter, primary, Meijerink, Jules P., primary, Baruchel, André, primary, Dombret, Hervé, primary, Clappier, Emmanuelle, primary, Diaz, Jean-Jacques, primary, Gazin, Claude, primary, de Thé, Hugues, primary, Sigaux, François, primary, and Soulier, Jean, primary

Published

2023

6. Table S4 from Deletion 6q Drives T-cell Leukemia Progression by Ribosome Modulation

Author

Gachet, Stéphanie, primary, El-Chaar, Tiama, primary, Avran, David, primary, Genesca, Eulalia, primary, Catez, Frédéric, primary, Quentin, Samuel, primary, Delord, Marc, primary, Thérizols, Gabriel, primary, Briot, Delphine, primary, Meunier, Godelieve, primary, Hernandez, Lucie, primary, Pla, Marika, primary, Smits, Willem K., primary, Buijs-Gladdines, Jessica G., primary, Van Loocke, Wouter, primary, Menschaert, Gerben, primary, André-Schmutz, Isabelle, primary, Taghon, Tom, primary, Van Vlierberghe, Pieter, primary, Meijerink, Jules P., primary, Baruchel, André, primary, Dombret, Hervé, primary, Clappier, Emmanuelle, primary, Diaz, Jean-Jacques, primary, Gazin, Claude, primary, de Thé, Hugues, primary, Sigaux, François, primary, and Soulier, Jean, primary

Published

2023

7. Supplementary Data from Deletion 6q Drives T-cell Leukemia Progression by Ribosome Modulation

Author

Gachet, Stéphanie, primary, El-Chaar, Tiama, primary, Avran, David, primary, Genesca, Eulalia, primary, Catez, Frédéric, primary, Quentin, Samuel, primary, Delord, Marc, primary, Thérizols, Gabriel, primary, Briot, Delphine, primary, Meunier, Godelieve, primary, Hernandez, Lucie, primary, Pla, Marika, primary, Smits, Willem K., primary, Buijs-Gladdines, Jessica G., primary, Van Loocke, Wouter, primary, Menschaert, Gerben, primary, André-Schmutz, Isabelle, primary, Taghon, Tom, primary, Van Vlierberghe, Pieter, primary, Meijerink, Jules P., primary, Baruchel, André, primary, Dombret, Hervé, primary, Clappier, Emmanuelle, primary, Diaz, Jean-Jacques, primary, Gazin, Claude, primary, de Thé, Hugues, primary, Sigaux, François, primary, and Soulier, Jean, primary

Published

2023

8. Elevated enhancer-oncogene contacts and higher oncogene expression levels by recurrent CTCF inactivating mutations in acute T cell leukemia

Author

Smits, Willem K, Vermeulen, Carlo, Hagelaar, Rico, Kimura, Shunsuke, Vroegindeweij, Eric M, Buijs-Gladdines, Jessica G C A M, van de Geer, Ellen, Verstegen, Marjon J A M, Splinter, Erik, van Reijmersdal, Simon V, Buijs, Arjan, Galjart, Niels, van Eyndhoven, Winfried, van Min, Max, Kuiper, Roland, Kemmeren, Patrick, Mullighan, Charles G, de Laat, Wouter, Meijerink, Jules P P, Smits, Willem K, Vermeulen, Carlo, Hagelaar, Rico, Kimura, Shunsuke, Vroegindeweij, Eric M, Buijs-Gladdines, Jessica G C A M, van de Geer, Ellen, Verstegen, Marjon J A M, Splinter, Erik, van Reijmersdal, Simon V, Buijs, Arjan, Galjart, Niels, van Eyndhoven, Winfried, van Min, Max, Kuiper, Roland, Kemmeren, Patrick, Mullighan, Charles G, de Laat, Wouter, and Meijerink, Jules P P

Abstract

Monoallelic inactivation of CCCTC-binding factor (CTCF) in human cancer drives altered methylated genomic states, altered CTCF occupancy at promoter and enhancer regions, and deregulated global gene expression. In patients with T cell acute lymphoblastic leukemia (T-ALL), we find that acquired monoallelic CTCF-inactivating events drive subtle and local genomic effects in nearly half of t(5; 14) (q35; q32.2) rearranged patients, especially when CTCF-binding sites are preserved in between the BCL11B enhancer and the TLX3 oncogene. These solitary intervening sites insulate TLX3 from the enhancer by inducing competitive looping to multiple binding sites near the TLX3 promoter. Reduced CTCF levels or deletion of the intervening CTCF site abrogates enhancer insulation by weakening competitive looping while favoring TLX3 promoter to BCL11B enhancer looping, which elevates oncogene expression levels and leukemia burden.

Published

2023

9. Elevated enhancer-oncogene contacts and higher oncogene expression levels by recurrent CTCF inactivating mutations in acute T cell leukemia

Author

Genetica Sectie Genoomdiagnostiek, Cancer, Genetica, CMM, CMM Groep Burgering, Hubrecht Institute with UMC, Smits, Willem K, Vermeulen, Carlo, Hagelaar, Rico, Kimura, Shunsuke, Vroegindeweij, Eric M, Buijs-Gladdines, Jessica G C A M, van de Geer, Ellen, Verstegen, Marjon J A M, Splinter, Erik, van Reijmersdal, Simon V, Buijs, Arjan, Galjart, Niels, van Eyndhoven, Winfried, van Min, Max, Kuiper, Roland, Kemmeren, Patrick, Mullighan, Charles G, de Laat, Wouter, Meijerink, Jules P P, Genetica Sectie Genoomdiagnostiek, Cancer, Genetica, CMM, CMM Groep Burgering, Hubrecht Institute with UMC, Smits, Willem K, Vermeulen, Carlo, Hagelaar, Rico, Kimura, Shunsuke, Vroegindeweij, Eric M, Buijs-Gladdines, Jessica G C A M, van de Geer, Ellen, Verstegen, Marjon J A M, Splinter, Erik, van Reijmersdal, Simon V, Buijs, Arjan, Galjart, Niels, van Eyndhoven, Winfried, van Min, Max, Kuiper, Roland, Kemmeren, Patrick, Mullighan, Charles G, de Laat, Wouter, and Meijerink, Jules P P

Published

2023

10. STAT5 does not drive steroid resistance in T-cell acute lymphoblastic leukemia despite the activation of BCL2 and BCLXL following glucocorticoid treatment

Author

van der Zwet, Jordy C. G., Cordo, Valentina, Buijs-Gladdines, Jessica G. C. A. M., Hagelaar, Rico, Smits, Willem K., Vroegindeweij, Eric, Graus, Laura T. M., Poort, Vera M., Nulle, Marloes, Pieters, Rob, Meijerink, Jules P. P., and Medical oncology laboratory

Abstract

Physiological and pathogenic interleukin-7-receptor (IL7R)-induced signaling provokes glucocorticoid resistance in a subset of patients with pediatric T-cell acute lymphoblastic leukemia (T-ALL). Activation of downstream STAT5 has been suggested to cause steroid resistance through upregulation of anti-apoptotic BCL2, one of its downstream target genes. Here we demonstrate that isolated STAT5 signaling in various T-ALL cell models is insufficient to raise cellular steroid resistance despite upregulation of BCL2 and BCL-XL. Upregulation of anti-apoptotic BCL2 and BCLXL in STAT5-activated T-ALL cells requires steroid-induced activation of NR3C1. For the BCLXL locus, this is facilitated by a concerted action of NR3C1 and activated STAT5 molecules at two STAT5 regulatory sites, whereas for the BCL2 locus this is facilitated by binding of NR3C1 at a STAT5 binding motif. In contrast, STAT5 occupancy at glucocorticoid response elements does not affect the expression of NR3C1 target genes. Strong upregulation of BIM, a NR3C1 pro-apoptotic target gene, upon prednisolone treatment can counterbalance NR3C1/STAT5-induced BCL2 and BCL-XL expression downstream of IL7-induced or pathogenic IL7R signaling. This explains why isolated STAT5 activation does not directly impair the steroid response. Our study suggests that STAT5 activation only contributes to steroid resistance in combination with cellular defects or alternative signaling routes that disable the pro-apoptotic and steroid-induced BIM response.

Published

2023

11. MAPK-ERK is a central pathway in T-cell acute lymphoblastic leukemia that drives steroid resistance

Author

van der Zwet, Jordy C. G., Buijs-Gladdines, Jessica G. C. A. M., Cordo’, Valentina, Debets, Donna O., Smits, Willem K., Chen, Zhongli, Dylus, Jelle, Zaman, Guido J. R., Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat, Bourquin, Jean-Pierre, Cools, Jan, Ferrando, Adolfo A., Vormoor, Josef, Pieters, Rob, Vormoor, Britta, and Meijerink, Jules P. P.

Abstract

(Patho-)physiological activation of the IL7-receptor (IL7R) signaling contributes to steroid resistance in pediatric T-cell acute lymphoblastic leukemia (T-ALL). Here, we show that activating IL7R pathway mutations and physiological IL7R signaling activate MAPK-ERK signaling, which provokes steroid resistance by phosphorylation of BIM. By mass spectrometry, we demonstrate that phosphorylated BIM is impaired in binding to BCL2, BCLXL and MCL1, shifting the apoptotic balance toward survival. Treatment with MEK inhibitors abolishes this inactivating phosphorylation of BIM and restores its interaction with anti-apoptotic BCL2-protein family members. Importantly, the MEK inhibitor selumetinib synergizes with steroids in both IL7-dependent and IL7-independent steroid resistant pediatric T-ALL PDX samples. Despite the anti-MAPK-ERK activity of ruxolitinib in IL7-induced signaling and JAK1 mutant cells, ruxolitinib only synergizes with steroid treatment in IL7-dependent steroid resistant PDX samples but not in IL7-independent steroid resistant PDX samples. Our study highlights the central role for MAPK-ERK signaling in steroid resistance in T-ALL patients, and demonstrates the broader application of MEK inhibitors over ruxolitinib to resensitize steroid-resistant T-ALL cells. These findings strongly support the enrollment of T-ALL patients in the current phase I/II SeluDex trial (NCT03705507) and contributes to the optimization and stratification of newly designed T-ALL treatment regimens.

Published

2024

12. MEF2C opposes Notch in lymphoid lineage decision and drives leukemia in the thymus

Author

Canté-Barrett, Kirsten, primary, Meijer, Mariska T., additional, Cordo’, Valentina, additional, Hagelaar, Rico, additional, Yang, Wentao, additional, Yu, Jiyang, additional, Smits, Willem K., additional, Nulle, Marloes E., additional, Jansen, Joris P., additional, Pieters, Rob, additional, Yang, Jun J., additional, Haigh, Jody J., additional, Goossens, Steven, additional, and Meijerink, Jules P.P., additional

Published

2022

13. STAT5 does not drive steroid resistance in T-cell acute lymphoblastic leukemia despite the activation of BCL2 and BCLXL following glucocorticoid treatment

Author

Van der Zwet, Jordy C.G., primary, Cordo’, Valentina, additional, Buijs-Gladdines, Jessica G.C.A.M., additional, Hagelaar, Rico, additional, Smits, Willem K., additional, Vroegindeweij, Eric, additional, Graus, Laura T.M., additional, Poort, Vera, additional, Nulle, Marloes, additional, Pieters, Rob, additional, and Meijerink, Jules P.P., additional

Published

2022

14. Manipulating MEF2C: Discovering Novel Drugs to Target ETP-ALL

Author

Meijer, Mariska T., primary, Cordo', Valentina, additional, Hagelaar, Rico, additional, Smits, Willem K., additional, and Meijerink, Jules PP, additional

Published

2021

15. Elevated Enhancer-Oncogene Contacts and Higher Oncogene Expression Levels By Recurrent CTCF inactivating Mutations in T Cell Acute Lymphoblastic Leukemia

Author

Smits, Willem K., primary, Vermeulen, Carlo, additional, Hagelaar, Rico, additional, Kimura, Shunsuke, additional, Vroegindeweij, Eric, additional, Buijs-Gladdines, Jessica G.C.A.M., additional, Van De Geer, Ellen, additional, Verstegen, Marjon J.A.M., additional, Splinter, Erik, additional, van Reijmersdal, Simon V., additional, Buijs, Arjan, additional, Galjart, Niels, additional, Van Eyndhoven, Winfried, additional, Van Min, Max Jan, additional, Kuiper, Roland P, additional, Kemmeren, Patrick, additional, Mullighan, Charles G., additional, De Laat, Wouter, additional, and Meijerink, Jules P.P., additional

Published

2021

16. MAPK-ERK is a central pathway in T-cell acute lymphoblastic leukemia that drives steroid resistance

Author

van der Zwet, Jordy C.G., Buijs-Gladdines, Jessica G.C.A.M., Cordo’, Valentina, Debets, Donna O., Smits, Willem K., Chen, Zhongli, Dylus, Jelle, Zaman, Guido J.R., Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat, Bourquin, Jean Pierre, Cools, Jan, Ferrando, Adolfo A., Vormoor, Josef, Pieters, Rob, Vormoor, Britta, Meijerink, Jules P.P., van der Zwet, Jordy C.G., Buijs-Gladdines, Jessica G.C.A.M., Cordo’, Valentina, Debets, Donna O., Smits, Willem K., Chen, Zhongli, Dylus, Jelle, Zaman, Guido J.R., Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat, Bourquin, Jean Pierre, Cools, Jan, Ferrando, Adolfo A., Vormoor, Josef, Pieters, Rob, Vormoor, Britta, and Meijerink, Jules P.P.

Abstract

(Patho-)physiological activation of the IL7-receptor (IL7R) signaling contributes to steroid resistance in pediatric T-cell acute lymphoblastic leukemia (T-ALL). Here, we show that activating IL7R pathway mutations and physiological IL7R signaling activate MAPK-ERK signaling, which provokes steroid resistance by phosphorylation of BIM. By mass spectrometry, we demonstrate that phosphorylated BIM is impaired in binding to BCL2, BCLXL and MCL1, shifting the apoptotic balance toward survival. Treatment with MEK inhibitors abolishes this inactivating phosphorylation of BIM and restores its interaction with anti-apoptotic BCL2-protein family members. Importantly, the MEK inhibitor selumetinib synergizes with steroids in both IL7-dependent and IL7-independent steroid resistant pediatric T-ALL PDX samples. Despite the anti-MAPK-ERK activity of ruxolitinib in IL7-induced signaling and JAK1 mutant cells, ruxolitinib only synergizes with steroid treatment in IL7-dependent steroid resistant PDX samples but not in IL7-independent steroid resistant PDX samples. Our study highlights the central role for MAPK-ERK signaling in steroid resistance in T-ALL patients, and demonstrates the broader application of MEK inhibitors over ruxolitinib to resensitize steroid-resistant T-ALL cells. These findings strongly support the enrollment of T-ALL patients in the current phase I/II SeluDex trial (NCT03705507) and contributes to the optimization and stratification of newly designed T-ALL treatment regimens.

Published

2021

17. MAPK-ERK is a central pathway in T-cell acute lymphoblastic leukemia that drives steroid resistance

Author

Afd Biomol.Mass Spect. and Proteomics, Biomolecular Mass Spectrometry and Proteomics, van der Zwet, Jordy C.G., Buijs-Gladdines, Jessica G.C.A.M., Cordo’, Valentina, Debets, Donna O., Smits, Willem K., Chen, Zhongli, Dylus, Jelle, Zaman, Guido J.R., Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat, Bourquin, Jean Pierre, Cools, Jan, Ferrando, Adolfo A., Vormoor, Josef, Pieters, Rob, Vormoor, Britta, Meijerink, Jules P.P., Afd Biomol.Mass Spect. and Proteomics, Biomolecular Mass Spectrometry and Proteomics, van der Zwet, Jordy C.G., Buijs-Gladdines, Jessica G.C.A.M., Cordo’, Valentina, Debets, Donna O., Smits, Willem K., Chen, Zhongli, Dylus, Jelle, Zaman, Guido J.R., Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat, Bourquin, Jean Pierre, Cools, Jan, Ferrando, Adolfo A., Vormoor, Josef, Pieters, Rob, Vormoor, Britta, and Meijerink, Jules P.P.

Published

2021

18. MAPK-ERK is a central pathway in T-cell acute lymphoblastic leukemia that drives steroid resistance

Author

Arts-assistenten Kinderen, Onderzoek Beeld, Cancer, Zorg en O&O, van der Zwet, Jordy C G, Buijs-Gladdines, Jessica G C A M, Cordo', Valentina, Debets, Donna O, Smits, Willem K, Chen, Zhongli, Dylus, Jelle, Zaman, Guido J R, Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat, Bourquin, Jean-Pierre, Cools, Jan, Ferrando, Adolfo A, Vormoor, Josef, Pieters, Rob, Vormoor, Britta, Meijerink, Jules P P, Arts-assistenten Kinderen, Onderzoek Beeld, Cancer, Zorg en O&O, van der Zwet, Jordy C G, Buijs-Gladdines, Jessica G C A M, Cordo', Valentina, Debets, Donna O, Smits, Willem K, Chen, Zhongli, Dylus, Jelle, Zaman, Guido J R, Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat, Bourquin, Jean-Pierre, Cools, Jan, Ferrando, Adolfo A, Vormoor, Josef, Pieters, Rob, Vormoor, Britta, and Meijerink, Jules P P

Published

2021

19. MAPK-ERK is a central pathway in T-cell acute lymphoblastic leukemia that drives steroid resistance

Author

van der Zwet, Jordy C G; https://orcid.org/0000-0003-2790-9313, Buijs-Gladdines, Jessica G C A M, Cordo', Valentina; https://orcid.org/0000-0003-1373-513X, Debets, Donna O, Smits, Willem K, Chen, Zhongli, Dylus, Jelle, Zaman, Guido J R, Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat; https://orcid.org/0000-0003-2890-3191, Bourquin, Jean-Pierre, Cools, Jan; https://orcid.org/0000-0001-6626-5843, Ferrando, Adolfo A; https://orcid.org/0000-0002-6212-8574, Vormoor, Josef; https://orcid.org/0000-0002-1825-1890, Pieters, Rob, Vormoor, Britta, Meijerink, Jules P P; https://orcid.org/0000-0002-6860-798X, van der Zwet, Jordy C G; https://orcid.org/0000-0003-2790-9313, Buijs-Gladdines, Jessica G C A M, Cordo', Valentina; https://orcid.org/0000-0003-1373-513X, Debets, Donna O, Smits, Willem K, Chen, Zhongli, Dylus, Jelle, Zaman, Guido J R, Altelaar, Maarten, Oshima, Koichi, Bornhauser, Beat; https://orcid.org/0000-0003-2890-3191, Bourquin, Jean-Pierre, Cools, Jan; https://orcid.org/0000-0001-6626-5843, Ferrando, Adolfo A; https://orcid.org/0000-0002-6212-8574, Vormoor, Josef; https://orcid.org/0000-0002-1825-1890, Pieters, Rob, Vormoor, Britta, and Meijerink, Jules P P; https://orcid.org/0000-0002-6860-798X

Abstract

(Patho-)physiological activation of the IL7-receptor (IL7R) signaling contributes to steroid resistance in pediatric T-cell acute lymphoblastic leukemia (T-ALL). Here, we show that activating IL7R pathway mutations and physiological IL7R signaling activate MAPK-ERK signaling, which provokes steroid resistance by phosphorylation of BIM. By mass spectrometry, we demonstrate that phosphorylated BIM is impaired in binding to BCL2, BCLXL and MCL1, shifting the apoptotic balance toward survival. Treatment with MEK inhibitors abolishes this inactivating phosphorylation of BIM and restores its interaction with anti-apoptotic BCL2-protein family members. Importantly, the MEK inhibitor selumetinib synergizes with steroids in both IL7-dependent and IL7-independent steroid resistant pediatric T-ALL PDX samples. Despite the anti-MAPK-ERK activity of ruxolitinib in IL7-induced signaling and JAK1 mutant cells, ruxolitinib only synergizes with steroid treatment in IL7-dependent steroid resistant PDX samples but not in IL7-independent steroid resistant PDX samples. Our study highlights the central role for MAPK-ERK signaling in steroid resistance in T-ALL patients, and demonstrates the broader application of MEK inhibitors over ruxolitinib to resensitize steroid-resistant T-ALL cells. These findings strongly support the enrollment of T-ALL patients in the current phase I/II SeluDex trial (NCT03705507) and contributes to the optimization and stratification of newly designed T-ALL treatment regimens.

Published

2021

20. IL-7 Receptor Mutations and Steroid Resistance in Pediatric T cell Acute Lymphoblastic Leukemia: A Genome Sequencing Study

Author

Li, Yunlei, Buijs-Gladdines, Jessica G. C. A. M., Canté-Barrett, Kirsten, Stubbs, Andrew P., Vroegindeweij, Eric M., Smits, Willem K., van Marion, Ronald, Dinjens, Winand N. M., Horstmann, Martin, Kuiper, Roland P., Buijsman, Rogier C., Zaman, Guido J. R., van der Spek, Peter J., Pieters, Rob, and Meijerink, Jules P. P.

Subjects

Cell receptors -- Health aspects, Interleukin-7 -- Health aspects, Gene mutation -- Health aspects, Acute lymphocytic leukemia -- Genetic aspects -- Development and progression -- Care and treatment, Biological sciences

Abstract

Background Pediatric acute lymphoblastic leukemia (ALL) is the most common childhood cancer and the leading cause of cancer-related mortality in children. T cell ALL (T-ALL) represents about 15% of pediatric ALL cases and is considered a high-risk disease. T-ALL is often associated with resistance to treatment, including steroids, which are currently the cornerstone for treating ALL; moreover, initial steroid response strongly predicts survival and cure. However, the cellular mechanisms underlying steroid resistance in T-ALL patients are poorly understood. In this study, we combined various genomic datasets in order to identify candidate genetic mechanisms underlying steroid resistance in children undergoing T-ALL treatment. Methods and Findings We performed whole genome sequencing on paired pre-treatment (diagnostic) and post-treatment (remission) samples from 13 patients, and targeted exome sequencing of pre-treatment samples from 69 additional T-ALL patients. We then integrated mutation data with copy number data for 151 mutated genes, and this integrated dataset was tested for associations of mutations with clinical outcomes and in vitro drug response. Our analysis revealed that mutations in JAK1 and KRAS, two genes encoding components of the interleukin 7 receptor (IL7R) signaling pathway, were associated with steroid resistance and poor outcome. We then sequenced JAK1, KRAS, and other genes in this pathway, including IL7R, JAK3, NF1, NRAS, and AKT, in these 69 T-ALL patients and a further 77 T-ALL patients. We identified mutations in 32% (47/146) of patients, the majority of whom had a specific T-ALL subtype (early thymic progenitor ALL or TLX). Based on the outcomes of these patients and their prednisolone responsiveness measured in vitro, we then confirmed that these mutations were associated with both steroid resistance and poor outcome. To explore how these mutations in IL7R signaling pathway genes cause steroid resistance and subsequent poor outcome, we expressed wild-type and mutant IL7R signaling molecules in two steroid-sensitive T-ALL cell lines (SUPT1 and P12 Ichikawa cells) using inducible lentiviral expression constructs. We found that expressing mutant IL7R, JAK1, or NRAS, or wild-type NRAS or AKT, specifically induced steroid resistance without affecting sensitivity to vincristine or L-asparaginase. In contrast, wild-type IL7R, JAK1, and JAK3, as well as mutant JAK3 and mutant AKT, had no effect. We then performed a functional study to examine the mechanisms underlying steroid resistance and found that, rather than changing the steroid receptor's ability to activate downstream targets, steroid resistance was associated with strong activation of MEK-ERK and AKT, downstream components of the IL7R signaling pathway, thereby inducing a robust antiapoptotic response by upregulating MCL1 and BCLXL expression. Both the MEK-ERK and AKT pathways also inactivate BIM, an essential molecule for steroid-induced cell death, and inhibit GSK3B, an important regulator of proapoptotic BIM. Importantly, treating our cell lines with IL7R signaling inhibitors restored steroid sensitivity. To address clinical relevance, we treated primary T-ALL cells obtained from 11 patients with steroids either alone or in combination with IL7R signaling inhibitors; we found that including a MEK, AKT, mTOR, or dual PI3K/mTOR inhibitor strongly increased steroid-induced cell death. Therefore, combining these inhibitors with steroid treatment may enhance steroid sensitivity in patients with ALL. The main limitation of our study was the modest cohort size, owing to the very low incidence of T-ALL. Conclusions Using an unbiased sequencing approach, we found that specific mutations in IL7R signaling molecules underlie steroid resistance in T-ALL. Future prospective clinical studies should test the ability of inhibitors of MEK, AKT, mTOR, or PI3K/mTOR to restore or enhance steroid sensitivity and improve clinical outcome., Author(s): Yunlei Li 1, Jessica G. C. A. M. Buijs-Gladdines 1,2, Kirsten Canté-Barrett 1,2, Andrew P. Stubbs 3, Eric M. Vroegindeweij 1,2, Willem K. Smits 1,2, Ronald van Marion 4, [...]

Published

2016

21. Elevated Enhancer-Oncogene Contacts and Higher Oncogene Expression Levels by Recurrent CTCF Inactivating Mutations in Acute T Cell Leukemia

Author

Smits, Willem K., primary, Vermeulen, Carlo, additional, Hagelaar, Rico, additional, Kimura, Shunsuke, additional, Vroegiindeweij, Eric M., additional, Buijs-gladdines, Jessica G.C.A.M., additional, van de Geer-de Jong, Ellen, additional, Verstegen, Marjon J.A.M., additional, Splinter, Erik, additional, van Reijmersdal, Simon V., additional, Buijs, Arjan, additional, Galjart, Niels, additional, van Eijndhoven, Winfried, additional, van Min, Max, additional, Kuiper, Roland, additional, Kemmeren, Patrick, additional, Mullighan, Charles G., additional, de Laat, Wouter, additional, and Meijerink, Jules P.P., additional

Published

2021

22. The Central Role of MAPK-ERK Signaling in IL7-Dependent and IL7-Independent Steroid Resistance Reveals a Broad Application of MEK-Inhibitors Compared to JAK1/2-Inhibition in T-ALL

Author

Van Der Zwet, Jordy C.G., primary, Buijs-Gladdines, Jessica G.C.A.M., additional, Cordo', Valentina, additional, Debets, Donna, additional, Smits, Willem K., additional, Chen, Zhongli, additional, Dylus, Jelle, additional, Zaman, Guido, additional, Altelaar, Maarten, additional, Oshima, Koichi, additional, Bornhauser, Beat, additional, Bourquin, Jean-Pierre, additional, Cools, Jan, additional, Ferrando, Adolfo A., additional, Vormoor, Josef, additional, Pieters, Rob, additional, Vormoor, Britta Julia, additional, and Meijerink, Jules P.P., additional

Published

2020

23. MAPK-ERK Pathway Activation: The Achilles' Heel of IL-7R‒Induced Steroid Resistance

Author

Van Der Zwet, Jordy C.G., primary, Buijs-Gladdines, Jessica G.C.A.M., additional, Smits, Willem K., additional, Chen, Zhongli, additional, and Meijerink, Jules P.P., additional

Published

2019

24. Deletion 6q Drives T-cell Leukemia Progression by Ribosome Modulation

Author

Gachet, Stéphanie, primary, El-Chaar, Tiama, additional, Avran, David, additional, Genesca, Eulalia, additional, Catez, Frédéric, additional, Quentin, Samuel, additional, Delord, Marc, additional, Thérizols, Gabriel, additional, Briot, Delphine, additional, Meunier, Godelieve, additional, Hernandez, Lucie, additional, Pla, Marika, additional, Smits, Willem K., additional, Buijs-Gladdines, Jessica G., additional, Van Loocke, Wouter, additional, Menschaert, Gerben, additional, André-Schmutz, Isabelle, additional, Taghon, Tom, additional, Van Vlierberghe, Pieter, additional, Meijerink, Jules P., additional, Baruchel, André, additional, Dombret, Hervé, additional, Clappier, Emmanuelle, additional, Diaz, Jean-Jacques, additional, Gazin, Claude, additional, de Thé, Hugues, additional, Sigaux, François, additional, and Soulier, Jean, additional

Published

2018

25. Lentiviral gene transfer into human and murine hematopoietic stem cells: size matters

Author

Canté-Barrett, Kirsten, primary, Mendes, Rui D., additional, Smits, Willem K., additional, van Helsdingen-van Wijk, Yvette M., additional, Pieters, Rob, additional, and Meijerink, Jules P. P., additional

Published

2016

26. PTEN microdeletions in T-cell acute lymphoblastic leukemia are caused by illegitimate RAG-mediated recombination events

Author

Mendes, Rui D., primary, Sarmento, Leonor M., additional, Canté-Barrett, Kirsten, additional, Zuurbier, Linda, additional, Buijs-Gladdines, Jessica G. C. A. M., additional, Póvoa, Vanda, additional, Smits, Willem K., additional, Abecasis, Miguel, additional, Yunes, J. Andres, additional, Sonneveld, Edwin, additional, Horstmann, Martin A., additional, Pieters, Rob, additional, Barata, João T., additional, and Meijerink, Jules P. P., additional

Published

2014

27. PTEN/AKT Pathway Mutations Are Reciprocal to NOTCH-Activating Mutations In Pediatric T-Cell Acute Lymphoblastic Lymphoma (T-ALL)

Author

Zuurbier, Linda, primary, Vuerhard, Maartje, additional, Kooi, Clarissa, additional, Smits, Willem K, additional, Buijs-Gladdines, Jessica, additional, Horstmann, Martin A., additional, de Haas, Válerie, additional, Pieters, Rob, additional, and Meijerink, Jules, additional

Published

2010

28. Elevated enhancer-oncogene contacts and higher oncogene expression levels by recurrent CTCFinactivating mutations in acute T cell leukemia

Author

Smits, Willem K., Vermeulen, Carlo, Hagelaar, Rico, Kimura, Shunsuke, Vroegindeweij, Eric M., Buijs-Gladdines, Jessica G.C.A.M., van de Geer, Ellen, Verstegen, Marjon J.A.M., Splinter, Erik, van Reijmersdal, Simon V., Buijs, Arjan, Galjart, Niels, van Eyndhoven, Winfried, van Min, Max, Kuiper, Roland, Kemmeren, Patrick, Mullighan, Charles G., de Laat, Wouter, and Meijerink, Jules P.P.

Abstract

Monoallelic inactivation of CCCTC-binding factor (CTCF) in human cancer drives altered methylated genomic states, altered CTCF occupancy at promoter and enhancer regions, and deregulated global gene expression. In T-ALL patients, we find that acquired monoallelic CTCF-inactivating events drive subtle and local genomic effects in nearly half of t(5;14)(q35;q32.2) rearranged patients, and especially when CTCF bindings sites are preserved in between the BCL11B-enhancer and the TLX3oncogene. These solitary intervening sites insulate TLX3from the enhancer by inducing competitive looping to multiple binding sites near the TLX3promoter. Reduced CTCF levels, or deletion of the intervening CTCF site abrogates enhancer insulation by weakening competitive looping while favoring TLX3promoter to BCL11B-enhancer looping that elevates oncogene expression levels and leukemia burden.

Published

2023

29. PTENmicrodeletions in T-cell acute lymphoblastic leukemia are caused by illegitimate RAG-mediated recombination events

Author

Mendes, Rui D., Sarmento, Leonor M., Canté-Barrett, Kirsten, Zuurbier, Linda, Buijs-Gladdines, JessicaG.C.A.M., Póvoa, Vanda, Smits, Willem K., Abecasis, Miguel, Yunes, J. Andres, Sonneveld, Edwin, Horstmann, Martin A., Pieters, Rob, Barata, João T., and Meijerink, JulesP.P.

Abstract

Phosphatase and tensin homolog (PTEN)-inactivating mutations and/or deletions are an independent risk factor for relapse of T-cell acute lymphoblastic leukemia (T-ALL) patients treated on Dutch Childhood Oncology Group or German Cooperative Study Group for Childhood Acute Lymphoblastic Leukemia protocols. Some monoallelic mutated or PTENwild-type patients lack PTEN protein, implying that additional PTENinactivation mechanisms exist. We show that PTENis inactivated by small deletions affecting a few exons in 8% of pediatric T-ALL patients. These microdeletions were clonal in 3% and subclonal in 5% of patients. Conserved deletion breakpoints are flanked by cryptic recombination signal sequences (cRSSs) and frequently have non-template-derived nucleotides inserted in between breakpoints, pointing to an illegitimate RAG recombination-driven activity. Identified cRSSs drive RAG-dependent recombination in a reporter system as efficiently as bona fide RSSs that flank gene segments of the T-cell receptor locus. Remarkably, equivalent microdeletions were detected in thymocytes of healthy individuals. Microdeletions strongly associate with the TALLMO subtype characterized by TAL1or LMO2rearrangements. Primary and secondary xenotransplantation of TAL1-rearranged leukemia allowed development of leukemic subclones with newly acquired PTENmicrodeletions. Ongoing RAG activity may therefore actively contribute to the acquisition of preleukemic hits, clonal diversification, and disease progression.

Published

2014

30. Elevated Enhancer-Oncogene Contacts and Higher Oncogene Expression Levels By Recurrent CTCFinactivating Mutations in T Cell Acute Lymphoblastic Leukemia

Author

Smits, Willem K., Vermeulen, Carlo, Hagelaar, Rico, Kimura, Shunsuke, Vroegindeweij, Eric, Buijs-Gladdines, Jessica G.C.A.M., Van De Geer, Ellen, Verstegen, Marjon J.A.M., Splinter, Erik, van Reijmersdal, Simon V., Buijs, Arjan, Galjart, Niels, Van Eyndhoven, Winfried, Van Min, Max Jan, Kuiper, Roland P, Kemmeren, Patrick, Mullighan, Charles G., De Laat, Wouter, and Meijerink, Jules P.P.

Abstract

Introduction.The CCCTC-binding factor (CTCF) regulates the 3D chromatin architecture by facilitating chromosomal loops and forming the boundaries of structural domains. In addition, CTCF is an important transcription factor and regulator of antigen receptor and T cell receptor recombination events. CTCFinactivating events have been found in various human cancers. Loss-of-heterozygosity (LOH) or inactivating missense mutations in specific zinc- fingers have been identified in many human cancers including sporadic breast cancer, prostate cancer, Wilms-tumors and acute lymphoblastic leukemia (ALL). Heterozygous deletions or point mutations have been identified in over half of the patients with breast cancer or uterine endometrial cancers, deregulating global gene expression by altering methylated genomic states and poor survival. Here, we investigated the functional significance and molecular-cytogenetic associations of CTCFaberrations in T-cell acute lymphoblastic leukemia patients.

Published

2021

31. MAPK-ERK Pathway Activation: The Achilles' Heel of IL-7R?Induced Steroid Resistance

Author

Van Der Zwet, Jordy C.G., Buijs-Gladdines, Jessica G.C.A.M., Smits, Willem K., Chen, Zhongli, and Meijerink, Jules P.P.

Abstract

No relevant conflicts of interest to declare.

Published

2019

32. PTEN/AKTPathway Mutations Are Reciprocal to NOTCH-Activating Mutations In Pediatric T-Cell Acute Lymphoblastic Lymphoma (T-ALL)

Author

Zuurbier, Linda, Vuerhard, Maartje, Kooi, Clarissa, Smits, Willem K, Buijs-Gladdines, Jessica, Horstmann, Martin A., de Haas, Válerie, Pieters, Rob, and Meijerink, Jules

Abstract

Abstract 1710

Published

2010

33. The role of the mineralocorticoid receptor in steroidinduced cytotoxicity in pediatric acute lymphoblastic leukemia.

Author

Van Hulst AM, Van der Zwet JCG, Buijs-Gladdines JGCAM, Smits WK, Fiocco M, Pieters R, Van Leeuwen FN, Van den Heuvel-Eibrink MM, Van den Akker ELT, and Meijerink JPP

Subjects

Humans, Child, Child, Preschool, Precursor Cell Lymphoblastic Leukemia-Lymphoma drug therapy, Precursor Cell Lymphoblastic Leukemia-Lymphoma metabolism, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology, Receptors, Mineralocorticoid metabolism

Published

2024

34. STAT5 does not drive steroid resistance in T-cell acute lymphoblastic leukemia despite the activation of BCL2 and BCLXL following glucocorticoid treatment.

Author

Van der Zwet JCG, Cordo' V, Buijs-Gladdines JGCAM, Hagelaar R, Smits WK, Vroegindeweij E, Graus LTM, Poort V, Nulle M, Pieters R, and Meijerink JPP

Subjects

Humans, Child, STAT5 Transcription Factor metabolism, Steroids, Proto-Oncogene Proteins c-bcl-2 genetics, Proto-Oncogene Proteins c-bcl-2 metabolism, T-Lymphocytes metabolism, Apoptosis, Glucocorticoids pharmacology, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma drug therapy, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma genetics, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma metabolism

Abstract

Physiological and pathogenic interleukin-7-receptor (IL7R)-induced signaling provokes glucocorticoid resistance in a subset of patients with pediatric T-cell acute lymphoblastic leukemia (T-ALL). Activation of downstream STAT5 has been suggested to cause steroid resistance through upregulation of anti-apoptotic BCL2, one of its downstream target genes. Here we demonstrate that isolated STAT5 signaling in various T-ALL cell models is insufficient to raise cellular steroid resistance despite upregulation of BCL2 and BCL-XL. Upregulation of anti-apoptotic BCL2 and BCLXL in STAT5-activated T-ALL cells requires steroid-induced activation of NR3C1. For the BCLXL locus, this is facilitated by a concerted action of NR3C1 and activated STAT5 molecules at two STAT5 regulatory sites, whereas for the BCL2 locus this is facilitated by binding of NR3C1 at a STAT5 binding motif. In contrast, STAT5 occupancy at glucocorticoid response elements does not affect the expression of NR3C1 target genes. Strong upregulation of BIM, a NR3C1 pro-apoptotic target gene, upon prednisolone treatment can counterbalance NR3C1/STAT5-induced BCL2 and BCL-XL expression downstream of IL7- induced or pathogenic IL7R signaling. This explains why isolated STAT5 activation does not directly impair the steroid response. Our study suggests that STAT5 activation only contributes to steroid resistance in combination with cellular defects or alternative signaling routes that disable the pro-apoptotic and steroid-induced BIM response.

Published

2023

35. 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

Zuurbier L, Gutierrez A, Mullighan CG, Canté-Barrett K, Gevaert AO, de Rooi J, Li Y, Smits WK, Buijs-Gladdines JG, Sonneveld E, Look AT, Horstmann M, Pieters R, and Meijerink JP

Subjects

Adolescent, Child, Child, Preschool, Chromosome Aberrations, Female, Gene Expression Regulation, Leukemic, Humans, Immunophenotyping, Infant, Leukemia, T-Cell mortality, MEF2 Transcription Factors genetics, MEF2 Transcription Factors metabolism, Male, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma genetics, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma metabolism, Receptors, Antigen, T-Cell genetics, Leukemia, T-Cell genetics, Leukemia, T-Cell metabolism, Receptors, Antigen, T-Cell metabolism, Transcriptome

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

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

Author

Zuurbier L, Petricoin EF 3rd, Vuerhard MJ, Calvert V, Kooi C, Buijs-Gladdines JG, Smits WK, Sonneveld E, Veerman AJ, Kamps WA, Horstmann M, Pieters R, and Meijerink JP

Subjects

Adolescent, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Child, Child, Preschool, Cohort Studies, Comparative Genomic Hybridization, DNA, Neoplasm genetics, Female, Follow-Up Studies, Humans, Infant, Male, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma drug therapy, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma mortality, Prognosis, Receptor, Notch1 genetics, Survival Rate, Chromosome Aberrations, Mutation genetics, PTEN Phosphohydrolase genetics, Phosphatidylinositol 3-Kinases genetics, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma genetics, Proto-Oncogene Proteins c-akt genetics

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