The genomic basis of childhood T-lineage acute lymphoblastic leukaemia

Petri Pölönen; Danika Di Giacomo; Anna Eames Seffernick; Abdelrahman Elsayed; Shunsuke Kimura; Francesca Benini; Lindsey E. Montefiori; Brent L. Wood; Jason Xu; Changya Chen; Zhongshan Cheng; Haley Newman; Jason Myers; Ilaria Iacobucci; Elizabeth Li; Jonathan Sussman; Dale Hedges; Yawei Hui; Caroline Diorio; Lahari Uppuluri; David Frank; Yiping Fan; Yunchao Chang; Soheil Meshinchi; Rhonda Ries; Rawan Shraim; Alexander Li; Kathrin M. Bernt; Meenakshi Devidas; Stuart S. Winter; Kimberly P. Dunsmore; Hiroto Inaba; William L. Carroll; Nilsa C. Ramirez; Aaron H. Phillips; Richard W. Kriwacki; Jun J. Yang; Tiffaney L. Vincent; Yaqi Zhao; Pankaj S. Ghate; Jian Wang; Colleen Reilly; Xin Zhou; Mathijs A. Sanders; Junko Takita; Motohiro Kato; Nao Takasugi; Bill H. Chang; Richard D. Press; Mignon Loh; Evadnie Rampersaud; Elizabeth Raetz; Stephen P. Hunger; Kai Tan; Ti Cheng Chang; Gang Wu; Stanley B. Pounds; Charles G. Mullighan; David T. Teachey

doi:10.1038/s41586-024-07807-0

The genomic basis of childhood T-lineage acute lymphoblastic leukaemia

Petri Pölönen, Danika Di Giacomo, Anna Eames Seffernick, Abdelrahman Elsayed, Shunsuke Kimura, Francesca Benini, Lindsey E. Montefiori, Brent L. Wood, Jason Xu, Changya Chen, Zhongshan Cheng, Haley Newman, Jason Myers, Ilaria Iacobucci, Elizabeth Li, Jonathan Sussman, Dale Hedges, Yawei Hui, Caroline Diorio, Lahari UppuluriDavid Frank, Yiping Fan, Yunchao Chang, Soheil Meshinchi, Rhonda Ries, Rawan Shraim, Alexander Li, Kathrin M. Bernt, Meenakshi Devidas, Stuart S. Winter, Kimberly P. Dunsmore, Hiroto Inaba, William L. Carroll, Nilsa C. Ramirez, Aaron H. Phillips, Richard W. Kriwacki, Jun J. Yang, Tiffaney L. Vincent, Yaqi Zhao, Pankaj S. Ghate, Jian Wang, Colleen Reilly, Xin Zhou, Mathijs A. Sanders, Junko Takita, Motohiro Kato, Nao Takasugi, Bill H. Chang, Richard D. Press, Mignon Loh, Evadnie Rampersaud, Elizabeth Raetz, Stephen P. Hunger, Kai Tan, Ti Cheng Chang, Gang Wu, Stanley B. Pounds, Charles G. Mullighan, David T. Teachey

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Abstract

T-lineage acute lymphoblastic leukaemia (T-ALL) is a high-risk tumour¹ that has eluded comprehensive genomic characterization, which is partly due to the high frequency of noncoding genomic alterations that result in oncogene deregulation^2,3. Here we report an integrated analysis of genome and transcriptome sequencing of tumour and remission samples from more than 1,300 uniformly treated children with T-ALL, coupled with epigenomic and single-cell analyses of malignant and normal T cell precursors. This approach identified 15 subtypes with distinct genomic drivers, gene expression patterns, developmental states and outcomes. Analyses of chromatin topology revealed multiple mechanisms of enhancer deregulation that involve enhancers and genes in a subtype-specific manner, thereby demonstrating widespread involvement of the noncoding genome. We show that the immunophenotypically described, high-risk entity of early T cell precursor ALL is superseded by a broader category of ‘early T cell precursor-like’ leukaemia. This category has a variable immunophenotype and diverse genomic alterations of a core set of genes that encode regulators of hematopoietic stem cell development. Using multivariable outcome models, we show that genetic subtypes, driver and concomitant genetic alterations independently predict treatment failure and survival. These findings provide a roadmap for the classification, risk stratification and mechanistic understanding of this disease.

Original language	English (US)
Pages (from-to)	1082-1091
Number of pages	10
Journal	Nature
Volume	632
Issue number	8027
DOIs	https://doi.org/10.1038/s41586-024-07807-0
State	Published - Aug 29 2024

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Pölönen, P., Di Giacomo, D., Seffernick, A. E., Elsayed, A., Kimura, S., Benini, F., Montefiori, L. E., Wood, B. L., Xu, J., Chen, C., Cheng, Z., Newman, H., Myers, J., Iacobucci, I., Li, E., Sussman, J., Hedges, D., Hui, Y., Diorio, C., ... Teachey, D. T. (2024). The genomic basis of childhood T-lineage acute lymphoblastic leukaemia. Nature, 632(8027), 1082-1091. https://doi.org/10.1038/s41586-024-07807-0

Pölönen, P, Di Giacomo, D, Seffernick, AE, Elsayed, A, Kimura, S, Benini, F, Montefiori, LE, Wood, BL, Xu, J, Chen, C, Cheng, Z, Newman, H, Myers, J, Iacobucci, I, Li, E, Sussman, J, Hedges, D, Hui, Y, Diorio, C, Uppuluri, L, Frank, D, Fan, Y, Chang, Y, Meshinchi, S, Ries, R, Shraim, R, Li, A, Bernt, KM, Devidas, M, Winter, SS, Dunsmore, KP, Inaba, H, Carroll, WL, Ramirez, NC, Phillips, AH, Kriwacki, RW, Yang, JJ, Vincent, TL, Zhao, Y, Ghate, PS, Wang, J, Reilly, C, Zhou, X, Sanders, MA, Takita, J, Kato, M, Takasugi, N, Chang, BH , Press, RD, Loh, M, Rampersaud, E, Raetz, E, Hunger, SP, Tan, K, Chang, TC, Wu, G, Pounds, SB, Mullighan, CG & Teachey, DT 2024, 'The genomic basis of childhood T-lineage acute lymphoblastic leukaemia', Nature, vol. 632, no. 8027, pp. 1082-1091. https://doi.org/10.1038/s41586-024-07807-0

@article{75a0455249564dc599f9dd91b15ab9ac,

title = "The genomic basis of childhood T-lineage acute lymphoblastic leukaemia",

abstract = "T-lineage acute lymphoblastic leukaemia (T-ALL) is a high-risk tumour1 that has eluded comprehensive genomic characterization, which is partly due to the high frequency of noncoding genomic alterations that result in oncogene deregulation2,3. Here we report an integrated analysis of genome and transcriptome sequencing of tumour and remission samples from more than 1,300 uniformly treated children with T-ALL, coupled with epigenomic and single-cell analyses of malignant and normal T cell precursors. This approach identified 15 subtypes with distinct genomic drivers, gene expression patterns, developmental states and outcomes. Analyses of chromatin topology revealed multiple mechanisms of enhancer deregulation that involve enhancers and genes in a subtype-specific manner, thereby demonstrating widespread involvement of the noncoding genome. We show that the immunophenotypically described, high-risk entity of early T cell precursor ALL is superseded by a broader category of {\textquoteleft}early T cell precursor-like{\textquoteright} leukaemia. This category has a variable immunophenotype and diverse genomic alterations of a core set of genes that encode regulators of hematopoietic stem cell development. Using multivariable outcome models, we show that genetic subtypes, driver and concomitant genetic alterations independently predict treatment failure and survival. These findings provide a roadmap for the classification, risk stratification and mechanistic understanding of this disease.",

author = "Petri P{\"o}l{\"o}nen and {Di Giacomo}, Danika and Seffernick, {Anna Eames} and Abdelrahman Elsayed and Shunsuke Kimura and Francesca Benini and Montefiori, {Lindsey E.} and Wood, {Brent L.} and Jason Xu and Changya Chen and Zhongshan Cheng and Haley Newman and Jason Myers and Ilaria Iacobucci and Elizabeth Li and Jonathan Sussman and Dale Hedges and Yawei Hui and Caroline Diorio and Lahari Uppuluri and David Frank and Yiping Fan and Yunchao Chang and Soheil Meshinchi and Rhonda Ries and Rawan Shraim and Alexander Li and Bernt, {Kathrin M.} and Meenakshi Devidas and Winter, {Stuart S.} and Dunsmore, {Kimberly P.} and Hiroto Inaba and Carroll, {William L.} and Ramirez, {Nilsa C.} and Phillips, {Aaron H.} and Kriwacki, {Richard W.} and Yang, {Jun J.} and Vincent, {Tiffaney L.} and Yaqi Zhao and Ghate, {Pankaj S.} and Jian Wang and Colleen Reilly and Xin Zhou and Sanders, {Mathijs A.} and Junko Takita and Motohiro Kato and Nao Takasugi and Chang, {Bill H.} and Press, {Richard D.} and Mignon Loh and Evadnie Rampersaud and Elizabeth Raetz and Hunger, {Stephen P.} and Kai Tan and Chang, {Ti Cheng} and Gang Wu and Pounds, {Stanley B.} and Mullighan, {Charles G.} and Teachey, {David T.}",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature Limited 2024.",

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doi = "10.1038/s41586-024-07807-0",

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T1 - The genomic basis of childhood T-lineage acute lymphoblastic leukaemia

AU - Pölönen, Petri

AU - Di Giacomo, Danika

AU - Seffernick, Anna Eames

AU - Elsayed, Abdelrahman

AU - Kimura, Shunsuke

AU - Benini, Francesca

AU - Montefiori, Lindsey E.

AU - Wood, Brent L.

AU - Xu, Jason

AU - Chen, Changya

AU - Cheng, Zhongshan

AU - Newman, Haley

AU - Myers, Jason

AU - Iacobucci, Ilaria

AU - Li, Elizabeth

AU - Sussman, Jonathan

AU - Hedges, Dale

AU - Hui, Yawei

AU - Diorio, Caroline

AU - Uppuluri, Lahari

AU - Frank, David

AU - Fan, Yiping

AU - Chang, Yunchao

AU - Meshinchi, Soheil

AU - Ries, Rhonda

AU - Shraim, Rawan

AU - Li, Alexander

AU - Bernt, Kathrin M.

AU - Devidas, Meenakshi

AU - Winter, Stuart S.

AU - Dunsmore, Kimberly P.

AU - Inaba, Hiroto

AU - Carroll, William L.

AU - Ramirez, Nilsa C.

AU - Phillips, Aaron H.

AU - Kriwacki, Richard W.

AU - Yang, Jun J.

AU - Vincent, Tiffaney L.

AU - Zhao, Yaqi

AU - Ghate, Pankaj S.

AU - Wang, Jian

AU - Reilly, Colleen

AU - Zhou, Xin

AU - Sanders, Mathijs A.

AU - Takita, Junko

AU - Kato, Motohiro

AU - Takasugi, Nao

AU - Chang, Bill H.

AU - Press, Richard D.

AU - Loh, Mignon

AU - Rampersaud, Evadnie

AU - Raetz, Elizabeth

AU - Hunger, Stephen P.

AU - Tan, Kai

AU - Chang, Ti Cheng

AU - Wu, Gang

AU - Pounds, Stanley B.

AU - Mullighan, Charles G.

AU - Teachey, David T.

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Y1 - 2024/8/29

N2 - T-lineage acute lymphoblastic leukaemia (T-ALL) is a high-risk tumour1 that has eluded comprehensive genomic characterization, which is partly due to the high frequency of noncoding genomic alterations that result in oncogene deregulation2,3. Here we report an integrated analysis of genome and transcriptome sequencing of tumour and remission samples from more than 1,300 uniformly treated children with T-ALL, coupled with epigenomic and single-cell analyses of malignant and normal T cell precursors. This approach identified 15 subtypes with distinct genomic drivers, gene expression patterns, developmental states and outcomes. Analyses of chromatin topology revealed multiple mechanisms of enhancer deregulation that involve enhancers and genes in a subtype-specific manner, thereby demonstrating widespread involvement of the noncoding genome. We show that the immunophenotypically described, high-risk entity of early T cell precursor ALL is superseded by a broader category of ‘early T cell precursor-like’ leukaemia. This category has a variable immunophenotype and diverse genomic alterations of a core set of genes that encode regulators of hematopoietic stem cell development. Using multivariable outcome models, we show that genetic subtypes, driver and concomitant genetic alterations independently predict treatment failure and survival. These findings provide a roadmap for the classification, risk stratification and mechanistic understanding of this disease.

AB - T-lineage acute lymphoblastic leukaemia (T-ALL) is a high-risk tumour1 that has eluded comprehensive genomic characterization, which is partly due to the high frequency of noncoding genomic alterations that result in oncogene deregulation2,3. Here we report an integrated analysis of genome and transcriptome sequencing of tumour and remission samples from more than 1,300 uniformly treated children with T-ALL, coupled with epigenomic and single-cell analyses of malignant and normal T cell precursors. This approach identified 15 subtypes with distinct genomic drivers, gene expression patterns, developmental states and outcomes. Analyses of chromatin topology revealed multiple mechanisms of enhancer deregulation that involve enhancers and genes in a subtype-specific manner, thereby demonstrating widespread involvement of the noncoding genome. We show that the immunophenotypically described, high-risk entity of early T cell precursor ALL is superseded by a broader category of ‘early T cell precursor-like’ leukaemia. This category has a variable immunophenotype and diverse genomic alterations of a core set of genes that encode regulators of hematopoietic stem cell development. Using multivariable outcome models, we show that genetic subtypes, driver and concomitant genetic alterations independently predict treatment failure and survival. These findings provide a roadmap for the classification, risk stratification and mechanistic understanding of this disease.

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The genomic basis of childhood T-lineage acute lymphoblastic leukaemia

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