Unveiling the signaling network of FLT3-ITD AML improves drug sensitivity prediction

Sara Latini; Veronica Venafra; Giorgia Massacci; Valeria Bica; Simone Graziosi; Giusj Monia Pugliese; Marta Iannuccelli; Filippo Frioni; Gessica Minnella; John Donald Marra; Patrizia Chiusolo; Gerardo Pepe; Manuela Helmer Citterich; Dimitros Mougiakakos; Martin Böttcher; Thomas Fischer; Livia Perfetto; Francesca Sacco

doi:10.7554/eLife.90532

Unveiling the signaling network of FLT3-ITD AML improves drug sensitivity prediction

Sara Latini, Veronica Venafra, Giorgia Massacci, Valeria Bica, Simone Graziosi, Giusj Monia Pugliese, Marta Iannuccelli, Filippo Frioni, Gessica Minnella, John Donald Marra, Patrizia Chiusolo, Gerardo Pepe, Manuela Helmer Citterich, Dimitros Mougiakakos, Martin Böttcher, Thomas Fischer, Livia Perfetto, Francesca Sacco

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

Currently, the identification of patient-specific therapies in cancer is mainly informed by personalized genomic analysis. In the setting of acute myeloid leukemia (AML), patient-drug treatment matching fails in a subset of patients harboring atypical internal tandem duplications (ITDs) in the tyrosine kinase domain of the FLT3 gene. To address this unmet medical need, here we develop a systems-based strategy that integrates multiparametric analysis of crucial signaling pathways, and patient-specific genomic and transcriptomic data with a prior knowledge signaling network using a Boolean-based formalism. By this approach, we derive personalized predictive models describing the signaling landscape of AML FLT3-ITD positive cell lines and patients. These models enable us to derive mechanistic insight into drug resistance mechanisms and suggest novel opportunities for combinatorial treatments. Interestingly, our analysis reveals that the JNK kinase pathway plays a crucial role in the tyrosine kinase inhibitor response of FLT3-ITD cells through cell cycle regulation. Finally, our work shows that patient-specific logic models have the potential to inform precision medicine approaches.

Lingua originale	English
pagine (da-a)	N/A-N/A
Rivista	eLife
Volume	12
DOI	https://doi.org/10.7554/eLife.90532
Stato di pubblicazione	Pubblicato - 2024

Keywords

Boolean model
acute myeloid leukemia
cancer biology
cancer therapy
computational biology
drug resistance
human
mouse
systems biology
tyrosine kinase

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10.7554/eLife.90532

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Latini, S., Venafra, V., Massacci, G., Bica, V., Graziosi, S., Pugliese, G. M., Iannuccelli, M., Frioni, F., Minnella, G., Marra, J. D., Chiusolo, P., Pepe, G., Citterich, M. H., Mougiakakos, D., Böttcher, M., Fischer, T., Perfetto, L., & Sacco, F. (2024). Unveiling the signaling network of FLT3-ITD AML improves drug sensitivity prediction. eLife, 12, N/A-N/A. https://doi.org/10.7554/eLife.90532

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title = "Unveiling the signaling network of FLT3-ITD AML improves drug sensitivity prediction",

abstract = "Currently, the identification of patient-specific therapies in cancer is mainly informed by personalized genomic analysis. In the setting of acute myeloid leukemia (AML), patient-drug treatment matching fails in a subset of patients harboring atypical internal tandem duplications (ITDs) in the tyrosine kinase domain of the FLT3 gene. To address this unmet medical need, here we develop a systems-based strategy that integrates multiparametric analysis of crucial signaling pathways, and patient-specific genomic and transcriptomic data with a prior knowledge signaling network using a Boolean-based formalism. By this approach, we derive personalized predictive models describing the signaling landscape of AML FLT3-ITD positive cell lines and patients. These models enable us to derive mechanistic insight into drug resistance mechanisms and suggest novel opportunities for combinatorial treatments. Interestingly, our analysis reveals that the JNK kinase pathway plays a crucial role in the tyrosine kinase inhibitor response of FLT3-ITD cells through cell cycle regulation. Finally, our work shows that patient-specific logic models have the potential to inform precision medicine approaches.",

keywords = "Boolean model, acute myeloid leukemia, cancer biology, cancer therapy, computational biology, drug resistance, human, mouse, systems biology, tyrosine kinase, Boolean model, acute myeloid leukemia, cancer biology, cancer therapy, computational biology, drug resistance, human, mouse, systems biology, tyrosine kinase",

author = "Sara Latini and Veronica Venafra and Giorgia Massacci and Valeria Bica and Simone Graziosi and Pugliese, {Giusj Monia} and Marta Iannuccelli and Filippo Frioni and Gessica Minnella and Marra, {John Donald} and Patrizia Chiusolo and Gerardo Pepe and Citterich, {Manuela Helmer} and Dimitros Mougiakakos and Martin B{\"o}ttcher and Thomas Fischer and Livia Perfetto and Francesca Sacco",

year = "2024",

doi = "10.7554/eLife.90532",

language = "English",

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Latini, S, Venafra, V, Massacci, G, Bica, V, Graziosi, S, Pugliese, GM, Iannuccelli, M, Frioni, F, Minnella, G, Marra, JD, Chiusolo, P, Pepe, G, Citterich, MH, Mougiakakos, D, Böttcher, M, Fischer, T, Perfetto, L & Sacco, F 2024, 'Unveiling the signaling network of FLT3-ITD AML improves drug sensitivity prediction', eLife, vol. 12, pagg. N/A-N/A. https://doi.org/10.7554/eLife.90532

TY - JOUR

T1 - Unveiling the signaling network of FLT3-ITD AML improves drug sensitivity prediction

AU - Latini, Sara

AU - Venafra, Veronica

AU - Massacci, Giorgia

AU - Bica, Valeria

AU - Graziosi, Simone

AU - Pugliese, Giusj Monia

AU - Iannuccelli, Marta

AU - Frioni, Filippo

AU - Minnella, Gessica

AU - Marra, John Donald

AU - Chiusolo, Patrizia

AU - Pepe, Gerardo

AU - Citterich, Manuela Helmer

AU - Mougiakakos, Dimitros

AU - Böttcher, Martin

AU - Fischer, Thomas

AU - Perfetto, Livia

AU - Sacco, Francesca

PY - 2024

Y1 - 2024

N2 - Currently, the identification of patient-specific therapies in cancer is mainly informed by personalized genomic analysis. In the setting of acute myeloid leukemia (AML), patient-drug treatment matching fails in a subset of patients harboring atypical internal tandem duplications (ITDs) in the tyrosine kinase domain of the FLT3 gene. To address this unmet medical need, here we develop a systems-based strategy that integrates multiparametric analysis of crucial signaling pathways, and patient-specific genomic and transcriptomic data with a prior knowledge signaling network using a Boolean-based formalism. By this approach, we derive personalized predictive models describing the signaling landscape of AML FLT3-ITD positive cell lines and patients. These models enable us to derive mechanistic insight into drug resistance mechanisms and suggest novel opportunities for combinatorial treatments. Interestingly, our analysis reveals that the JNK kinase pathway plays a crucial role in the tyrosine kinase inhibitor response of FLT3-ITD cells through cell cycle regulation. Finally, our work shows that patient-specific logic models have the potential to inform precision medicine approaches.

AB - Currently, the identification of patient-specific therapies in cancer is mainly informed by personalized genomic analysis. In the setting of acute myeloid leukemia (AML), patient-drug treatment matching fails in a subset of patients harboring atypical internal tandem duplications (ITDs) in the tyrosine kinase domain of the FLT3 gene. To address this unmet medical need, here we develop a systems-based strategy that integrates multiparametric analysis of crucial signaling pathways, and patient-specific genomic and transcriptomic data with a prior knowledge signaling network using a Boolean-based formalism. By this approach, we derive personalized predictive models describing the signaling landscape of AML FLT3-ITD positive cell lines and patients. These models enable us to derive mechanistic insight into drug resistance mechanisms and suggest novel opportunities for combinatorial treatments. Interestingly, our analysis reveals that the JNK kinase pathway plays a crucial role in the tyrosine kinase inhibitor response of FLT3-ITD cells through cell cycle regulation. Finally, our work shows that patient-specific logic models have the potential to inform precision medicine approaches.

KW - Boolean model

KW - acute myeloid leukemia

KW - cancer biology

KW - cancer therapy

KW - computational biology

KW - drug resistance

KW - human

KW - mouse

KW - systems biology

KW - tyrosine kinase

KW - Boolean model

KW - acute myeloid leukemia

KW - cancer biology

KW - cancer therapy

KW - computational biology

KW - drug resistance

KW - human

KW - mouse

KW - systems biology

KW - tyrosine kinase

UR - http://hdl.handle.net/10807/274569

U2 - 10.7554/eLife.90532

DO - 10.7554/eLife.90532

M3 - Article

SN - 2050-084X

VL - 12

SP - N/A-N/A

JO - eLife

JF - eLife

ER -

Unveiling the signaling network of FLT3-ITD AML improves drug sensitivity prediction

Abstract

Keywords

OSS delle Nazioni Unite

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