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
IRCCS Humanitas Research Hospital, Rozzano - Milan, Italy.
Department of Biomedical Sciences, Humanitas University, Pieve Emanuele - Milan, Italy.
J Clin Oncol. 2025 Jun 20;43(18):2069-2083. doi: 10.1200/JCO-24-02394. Epub 2025 May 2.
Tumor Protein 53 (p53) expressed from gene 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.
We analyzed a cohort of 6,204 patients with MDS and subsets of patients with available information on RNA sequencing of tumor cells (n = 109), high-dimensional phenotype of immune cells (n = 77), and multiomics analysis (RNA sequencing and proteomics) on single cells (n = 15). An independent validation was performed on 914 patients.
Biallelic 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 mutations, thus potentially refining the optimal timing of therapeutic interventions in these patients. We identified a subset of MDS (5%) characterized by 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 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.
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.
由基因表达的肿瘤蛋白53(p53)是一种重要的肿瘤抑制因子。我们旨在明确骨髓增生异常综合征(MDS)中p53功能障碍的突变和非突变机制,并研究其临床影响。
我们分析了一组6204例MDS患者以及部分可获得肿瘤细胞RNA测序信息(n = 109)、免疫细胞高维表型信息(n = 77)和单细胞多组学分析(RNA测序和蛋白质组学)信息(n = 15)的患者亚组。对914例患者进行了独立验证。
双等位基因失活是疾病进展的有力驱动因素,并可识别高危患者,无论变异等位基因频率如何。单等位基因和双等位基因失活代表了MDS中发生多步骤过程的疾病阶段,伴有突变,因此可能优化这些患者治疗干预的最佳时机。我们鉴定出一小部分MDS(5%),其特征为p53野生型且骨髓祖细胞中异常p53蛋白过度表达,预后较差。这些患者在PI3K级联反应、RAS、WNT和NF-κB信号通路中存在上游p53信号异常,以及p53基因扩增,同时伴有p53靶点的下游失调。伴有p53功能障碍的MDS表现出独特的免疫失调,包括髓系来源的炎症和抗原呈递受损,这可能是其预后不良的驱动因素,并为创新免疫疗法奠定基础。
MDS中非突变性p53功能障碍的鉴定可能为髓系肿瘤的机制分类奠定基础,超越单纯的分子分层。识别p53功能障碍患者对于提供正确的疾病风险评估和干预措施以及优化临床试验设计具有重要意义。
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