PURPOSE Tumor Protein 53 (p53) expressed from gene TP53 is a seminal tumor suppressor. We aimed to characterize mutational and nonmutational mechanisms of p53 dysfunction in myelodysplastic syndromes (MDS) and to investigate their clinical effect. PATIENTS AND METHODS We analyzed a cohort of 6,204 patients with MDS and subsets of patients with available information on RNA sequencing of tumor cells (n 5 109), high-dimensional phenotype of immune cells (n 5 77), and multiomics analysis (RNA sequencing and proteomics) on single cells (n 5 15). An independent validation was performed on 914 patients. RESULTS Biallelic TP53 inactivation was a powerful driver of disease progression and identified high-risk patients, regardless of variant allele frequency. Monoallelic and biallelic inactivation represent disease stages occurring as a multihit process in MDS with TP53 mutations, thus potentially refining the optimal timing of therapeutic interventions in these patients. We identified a subset of MDS (5%) characterized by TP53 wild-type and hyperexpression of abnormal p53 protein in bone marrow progenitors that exhibit dismal outcome. These patients presented upstream p53 signaling aberrations in Pi3K cascade; RAS, WNT, and NF-KB pathways; and MDM2 gene amplification, together with a downstream dysregulation of p53 targets. MDS with p53 dysfunction displayed a distinct immune dysregulation involving myeloid-derived inflammation and impaired antigen presentation, which may be a driver of their poor prognosis and provide the groundwork for innovative immunotherapies. CONCLUSION The identification of nonmutational p53 dysfunction in MDS may lay the foundation for a mechanistic classification of myeloid neoplasms, moving beyond a purely molecular stratification. The recognition of patients with p53 dysfunction is relevant to provide correct disease-risk assessment and interventions, as well as to refine the design of clinical trials.
Characterization and Clinical Implications of p53 Dysfunction in Patients With Myelodysplastic Syndromes / Zampini, Matteo; Riva, Elena; Lanino, Luca; Sauta, Elisabetta; Antunes Dos Reis, Rita; Ejarque, Rosa Maria Andres; Maggioni, Giulia; Termanini, Alberto; Merlotti, Alessandra; Campagna, Alessia; Dall'Olio, Lorenzo; Kulasekararaj, Austin; Calvi, Michela; Di Vito, Clara; Bonometti, Arturo; Rahal, Daoud; Croci, Giorgio; Boveri, Emanuela; Gianelli, Umberto; Ponzoni, Maurilio; Caselli, Rossella; Albertazzi, Serena; Todisco, Gabriele; Ubezio, Marta; Crisafulli, Laura; Frigo, Alessandro; Lugli, Enrico; Mosca, Ettore; Acha, Pamela; Ghisletti, Serena; Nicassio, Francesco; Santoro, Armando; Diez-Campelo, Maria; Solé, Francesc; Ades, Lionel; Platzbecker, Uwe; Santini, Valeria; Fenaux, Pierre; Haferlach, Torsten; Sallman, David; Garcia-Manero, Guillermo; Mavilio, Domenico; Remondini, Daniel; Castellani, Gastone; D'Amico, Saverio; Zeidan, Amer M; Komrokji, Rami; Kordasti, Shahram; Ficara, Francesca; Della Porta, Matteo Giovanni. - In: JOURNAL OF CLINICAL ONCOLOGY. - ISSN 1527-7755. - (2025). [Epub ahead of print] [10.1200/JCO-24-02394]
Characterization and Clinical Implications of p53 Dysfunction in Patients With Myelodysplastic Syndromes
Kordasti, ShahramPenultimo
Writing – Original Draft Preparation
;
2025-01-01
Abstract
PURPOSE Tumor Protein 53 (p53) expressed from gene TP53 is a seminal tumor suppressor. We aimed to characterize mutational and nonmutational mechanisms of p53 dysfunction in myelodysplastic syndromes (MDS) and to investigate their clinical effect. PATIENTS AND METHODS We analyzed a cohort of 6,204 patients with MDS and subsets of patients with available information on RNA sequencing of tumor cells (n 5 109), high-dimensional phenotype of immune cells (n 5 77), and multiomics analysis (RNA sequencing and proteomics) on single cells (n 5 15). An independent validation was performed on 914 patients. RESULTS Biallelic TP53 inactivation was a powerful driver of disease progression and identified high-risk patients, regardless of variant allele frequency. Monoallelic and biallelic inactivation represent disease stages occurring as a multihit process in MDS with TP53 mutations, thus potentially refining the optimal timing of therapeutic interventions in these patients. We identified a subset of MDS (5%) characterized by TP53 wild-type and hyperexpression of abnormal p53 protein in bone marrow progenitors that exhibit dismal outcome. These patients presented upstream p53 signaling aberrations in Pi3K cascade; RAS, WNT, and NF-KB pathways; and MDM2 gene amplification, together with a downstream dysregulation of p53 targets. MDS with p53 dysfunction displayed a distinct immune dysregulation involving myeloid-derived inflammation and impaired antigen presentation, which may be a driver of their poor prognosis and provide the groundwork for innovative immunotherapies. CONCLUSION The identification of nonmutational p53 dysfunction in MDS may lay the foundation for a mechanistic classification of myeloid neoplasms, moving beyond a purely molecular stratification. The recognition of patients with p53 dysfunction is relevant to provide correct disease-risk assessment and interventions, as well as to refine the design of clinical trials.| File | Dimensione | Formato | |
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