Molecular-Based Ecosystem to Improve Personalized Medicine in Chronic Myelomonocytic Leukemia

Lanino, L.; Hunter, A.M.; Gagelmann, N.; Robin, M.; Dall'Olio, D.; Flamigni, A.; Sala, C.; Gurnari, C.; Wang, Y.; Pleyer, L.; Xicoy, B.; Montalban-Bravo, G.; Shih, L.; Alsugair, A.; Fathima, S.; Gregorio, C.; Rollo, C.; Palomo, L.; Platzbecker, A.S.; Asti, G.; Itzykson, R.; Sallman, D.A.; Fariselli, P.; Kern, W.; Garcia-Manero, G.; Platzbecker, U.; Solé, F.; Diez-Campelo, M.; Maciejewski, J.; Bejar, R.; Thol, F.; Kroger, N.; Savona, M.; Fenaux, P.; Sanz, G.; Kordasti, S.; Santini, V.; Fontenay, M.; Zeidan, A.M.; Komrokji, R.S.; Haferlach, T.; Germing, U.; Castellani, G.; D'Amico, S.; Patnaik, M.; Ieva, F.; Solary, E.; Tefferi, A.; Padron, E.; Della Porta, M.G.; Null, N.; Haque, T.; Abdel-Wahab, O.; Geissler, K.; Bataller, A.; Bazinet, A.; Meggendorfer, M.; Quintavalla, M.; Bruseghini, A.; Sauta, E.; Carota, L.; Sanavia, T.; Dall'Olio, L.; Travaglino, E.; Zamora, L.; Quintela, D.; Jerez, A.; Cornejo, E.; Garcia Martin, P.; Diaz-Beya, M.; Avendano Pita, A.; Roldan, V.; Fiallo Suárez, D.V.; Cerezo Velasco, E.; Calabuig, M.; Such, E.; Castilla-Llorente, C.; Bulabois, C.E.; Souchet, L.; Awada, H.; Bernardi, M.; Chiusolo, P.; Curti, A.; Giaccone, L.; Finelli, C.; Casetti, I.; Onida, F.; Borin, L.M.; Yung Follo, M.; Consagra, A.; Passamonti, F.; Diral, E.; Vucinic, V.; Bergonzi, G.M.; Voso, M.T.; Hou, H.; Chou, W.; Yao, C.; Lin, C.; Tien, H.; Campagna, A.; Ubezio, M.; Russo, A.; Todisco, G.; Maggioni, G.; Tentori, C.A.; Buizza, A.; Ferrari, I.; Di Matteo, M.; Crespi, A.; Figini, G.; Delponte, C.; Pesce, F.; Zampini, M.; Riva, E.; Delleani, M.; Iascone, E.; Crisafulli, L.; Ficara, F.; Ventura, D.; Pinocchio, N.; Brindisi, M.; Santoro, A.; Kiwan, A.; Vanoudenhove, J.; Al Ali, N.H.; Graubert, T.A.; Thota, S.; Griffiths, E.

doi:10.1200/jco-25-02116

Purpose: Chronic myelomonocytic leukemia (CMML) is a rare myeloid neoplasm characterized by clinical heterogeneity and is associated with poor outcomes. To date, limited molecular information has been incorporated into disease classification and risk stratification. We aimed to integrate genomic features into the clinical decision-making process for CMML. Patients and methods: We analyzed a retrospective cohort of 3013 patients with CMML (training set) and a prospective population of 516 patients (validation set). Using an innovative framework for multimodal data analysis, we developed molecular-based disease taxonomy and prognostication. Results: Unsupervised clustering identified nine entities with distinct genomic features and outcomes (P < .001), including splicing machinery, transcription factors, signal transduction and tyrosine kinase pathways aberrations, and high-risk molecular signatures. Notably, 15% of patients showed molecular/clinical overlap with other myeloid neoplasms. We integrated molecular and clinical information to build the international CMML Prognostic Scoring System (iCPSS), incorporating mutations in nine genes together with hematologic parameters and cytogenetic abnormalities. The iCPSS identified five groups with distinct probability of overall and leukemia-free survival in both training and validation cohorts (P < .001), outperforming existing prognostic models. Importantly, 55% of patients were reassigned to higher or lower risk groups by the iCPSS. Decision analysis demonstrated that iCPSS could refine the optimal timing of allogeneic transplantation at the individual level; compared with conventional prognostic tools, iCPSS-based decision modeling changed transplantation strategy in 31% of cases, resulting in a significant gain-in-life expectancy for eligible patient population (P < .001). A federated learning platform was implemented to enable continuous, privacy-preserving model update across multiple centers. Conclusion: Molecular information improves CMML classification and prognostication, supports more effective clinical decision making, and potentially refines the design of clinical trials.

Molecular-Based Ecosystem to Improve Personalized Medicine in Chronic Myelomonocytic Leukemia / L. Lanino, A.M. Hunter, N. Gagelmann, M. Robin, D. Dall'Olio, A. Flamigni, C. Sala, C. Gurnari, Y. Wang, L. Pleyer, B. Xicoy, G. Montalban-Bravo, L. Shih, A. Alsugair, S. Fathima, C. Gregorio, C. Rollo, L. Palomo, A.S. Platzbecker, G. Asti, R. Itzykson, D.A. Sallman, P. Fariselli, W. Kern, G. Garcia-Manero, U. Platzbecker, F. Solé, M. Diez-Campelo, J. Maciejewski, R. Bejar, F. Thol, N. Kroger, M. Savona, P. Fenaux, G. Sanz, S. Kordasti, V. Santini, M. Fontenay, A.M. Zeidan, R.S. Komrokji, T. Haferlach, U. Germing, G. Castellani, S. D'Amico, M. Patnaik, F. Ieva, E. Solary, A. Tefferi, E. Padron, M.G. Della Porta, N. Null, T. Haque, O. Abdel-Wahab, K. Geissler, A. Bataller, A. Bazinet, M. Meggendorfer, M. Quintavalla, A. Bruseghini, E. Sauta, L. Carota, T. Sanavia, L. Dall'Olio, E. Travaglino, L. Zamora, D. Quintela, A. Jerez, E. Cornejo, P. Garcia Martin, M. Diaz-Beya, A. Avendano Pita, V. Roldan, D.V. Fiallo Suárez, E. Cerezo Velasco, M. Calabuig, E. Such, C. Castilla-Llorente, C.E. Bulabois, L. Souchet, H. Awada, M. Bernardi, P. Chiusolo, A. Curti, L. Giaccone, C. Finelli, I. Casetti, F. Onida, L.M. Borin, M. Yung Follo, A. Consagra, F. Passamonti, E. Diral, V. Vucinic, G.M. Bergonzi, M.T. Voso, H. Hou, W. Chou, C. Yao, C. Lin, H. Tien, A. Campagna, M. Ubezio, A. Russo, G. Todisco, G. Maggioni, C.A. Tentori, A. Buizza, I. Ferrari, M. Di Matteo, A. Crespi, G. Figini, C. Delponte, F. Pesce, M. Zampini, E. Riva, M. Delleani, E. Iascone, L. Crisafulli, F. Ficara, D. Ventura, N. Pinocchio, M. Brindisi, A. Santoro, A. Kiwan, J. Vanoudenhove, N.H. Al Ali, T.A. Graubert, S. Thota, E. Griffiths. - In: JOURNAL OF CLINICAL ONCOLOGY. - ISSN 0732-183X. - (2026), pp. 1-16. [Epub ahead of print] [10.1200/jco-25-02116]

Molecular-Based Ecosystem to Improve Personalized Medicine in Chronic Myelomonocytic Leukemia

Lanino, Luca;Hunter, Anthony M.;Gagelmann, Nico;Robin, Marie;Dall'Olio, Daniele;Flamigni, Alice;Sala, Claudia;Gurnari, Carmelo;Wang, Yu-Hung;Pleyer, Lisa;Xicoy, Blanca;Montalban-Bravo, Guillermo;Shih, Lee-Yung;Alsugair, Ali;Fathima, Saubia;Gregorio, Caterina;Rollo, Cesare;Palomo, Laura;Platzbecker, Anne Sophie;Asti, Gianluca;Itzykson, Raphael;Sallman, David A.;Fariselli, Piero;Kern, Wolfgang;Garcia-Manero, Guillermo;Platzbecker, Uwe;Solé, Francesc;Diez-Campelo, Maria;Maciejewski, Jaroslaw;Bejar, Rafael;Thol, Felicitas;Kroger, Nicolaus;Savona, Michael;Fenaux, Pierre;Sanz, Guillermo;Kordasti, Shahram;Santini, Valeria;Fontenay, Michaela;Zeidan, Amer M.;Komrokji, Rami S.;Haferlach, Torsten;Germing, Ulrich;Castellani, Gastone;D'Amico, Saverio;Patnaik, Mrinal;Ieva, Francesca;Solary, Eric;Tefferi, Ayalew;Padron, Eric;Della Porta, Matteo Giovanni;null, null;Haque, Tamanna;Abdel-Wahab, Omar;Geissler, Klaus;Bataller, Alex;Bazinet, Alexandre;Meggendorfer, Manja;Quintavalla, Mirco;Bruseghini, Alessandro;Sauta, Elisabetta;Carota, Luciana;Sanavia, Tiziana;Dall'Olio, Lorenzo;Travaglino, Erica;Zamora, Lurdes;Quintela, David;Jerez, Andres;Cornejo, Elena;Garcia Martin, Paloma;Diaz-Beya, Marina;Avendano Pita, Alejandro;Roldan, Veronica;Fiallo Suárez, Dolly Viviana;Cerezo Velasco, Estefania;Calabuig, Marisa;Such, Esperanza;Castilla-Llorente, Cristina;Bulabois, Claude E.;Souchet, Laetitia;Awada, Hussein;Bernardi, Massimo;Chiusolo, Patrizia;Curti, Antonio;Giaccone, Luisa;Finelli, Carlo;Casetti, Ilaria;F. Onida^{Membro del Collaboration Group};Borin, Lorenza Maria;Yung Follo, Matilde;Consagra, Angela;F. Passamonti^{Membro del Collaboration Group};Diral, Elisa;Vucinic, Vladan;Bergonzi, Gregorio M.;Voso, Maria Teresa;Hou, Hsin-An;Chou, Wen-Chien;Yao, Chi-Yuan;Lin, Chien-Chin;Tien, Hwei-Fang;Campagna, Alessia;Ubezio, Marta;Russo, Antonio;Todisco, Gabriele;Maggioni, Giulia;Tentori, Cristina A.;Buizza, Alessandro;Ferrari, Ivan;Di Matteo, Maria;Crespi, Alessandra;Figini, Giulia;Delponte, Camilla;Pesce, Francesco;Zampini, Matteo;Riva, Elena;Delleani, Mattia;Iascone, Eleonora;Crisafulli, Laura;Ficara, Francesca;Ventura, Denise;Pinocchio, Nicole;Brindisi, Matteo;Santoro, Armando;Kiwan, Ahmad;VanOudenhove, Jennifer;Al Ali, Najla H.;Graubert, Timothy A.;Thota, Swapna;Griffiths, Elizabeth

2026

Abstract

Purpose: Chronic myelomonocytic leukemia (CMML) is a rare myeloid neoplasm characterized by clinical heterogeneity and is associated with poor outcomes. To date, limited molecular information has been incorporated into disease classification and risk stratification. We aimed to integrate genomic features into the clinical decision-making process for CMML. Patients and methods: We analyzed a retrospective cohort of 3013 patients with CMML (training set) and a prospective population of 516 patients (validation set). Using an innovative framework for multimodal data analysis, we developed molecular-based disease taxonomy and prognostication. Results: Unsupervised clustering identified nine entities with distinct genomic features and outcomes (P < .001), including splicing machinery, transcription factors, signal transduction and tyrosine kinase pathways aberrations, and high-risk molecular signatures. Notably, 15% of patients showed molecular/clinical overlap with other myeloid neoplasms. We integrated molecular and clinical information to build the international CMML Prognostic Scoring System (iCPSS), incorporating mutations in nine genes together with hematologic parameters and cytogenetic abnormalities. The iCPSS identified five groups with distinct probability of overall and leukemia-free survival in both training and validation cohorts (P < .001), outperforming existing prognostic models. Importantly, 55% of patients were reassigned to higher or lower risk groups by the iCPSS. Decision analysis demonstrated that iCPSS could refine the optimal timing of allogeneic transplantation at the individual level; compared with conventional prognostic tools, iCPSS-based decision modeling changed transplantation strategy in 31% of cases, resulting in a significant gain-in-life expectancy for eligible patient population (P < .001). A federated learning platform was implemented to enable continuous, privacy-preserving model update across multiple centers. Conclusion: Molecular information improves CMML classification and prognostication, supports more effective clinical decision making, and potentially refines the design of clinical trials.

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				Settore MEDS-09/B - Malattie del sangue
			
	Data di pubblicazione
	
				2026
			
	Data ahead of print o data di stampa
	
				27-mar-2026
			
	Rivista in ANCE
	
				JOURNAL OF CLINICAL ONCOLOGY
			
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				https://dx.doi.org/10.1200/jco-25-02116
			
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				01 - Articolo su periodico

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