不确定意义的单克隆抗体病
多发性骨髓瘤
间质细胞
血管生成
癌症研究
间充质干细胞
骨髓
医学
干扰素
生物
肿瘤微环境
地塞米松
疾病
内皮干细胞
舱室(船)
肿瘤进展
免疫学
干细胞
骨病
核糖核酸
单克隆抗体
内皮
单克隆
免疫疗法
新生血管
病理
干扰素γ
作者
Itziar Cenzano,Miguel Cócera,Marta Larráyoz,Lorea Campos-Dopazo,Sonia Sanz,Azari Bantan,Amaia Vilas‐Zornoza,Patxi San Martín‐Úriz,Paula Aguirre‐Ruiz,Diego Alignani,Aitziber López,Ignacio Sancho,Javier Ruiz,Purificación Ripalda‐Cemboráin,Marta Abengózar,Emma Muiños Lopeź,Vincenzo Lagani,Jesper Tegnér,Mikel Hernáez,Xabier Agirre
标识
DOI:10.1038/s41467-026-74389-y
摘要
Abstract Progression from monoclonal gammopathy of undetermined significance (MGUS) to multiple myeloma (MM) is accompanied by profound remodeling of the bone marrow microenvironment (BME), yet the contribution of its non-immune compartment remains unclear. Using single-cell RNA sequencing in genetically engineered mouse models that recapitulate disease evolution, we transcriptionally profile endothelial cells (EC) and mesenchymal stem cells (MSC). EC adopt a stress-associated program at MGUS that precedes angiogenesis in MM, while MSC undergo early and sustained loss of differentiation capacity. We identify a coordinated interferon (IFN)-driven program across EC and MSC that defines MM in the BIcγ1 model but is absent in the more aggressive MI cγ1 model. Treatment with bortezomib, lenalidomide, and dexamethasone suppresses this IFN signature, promotes endothelial adaptation, and restores osteogenic potential in MSC. Validation in patient samples reveals enrichment of this IFN-signature across disease stages. These findings define dynamic and targetable alterations in the non-immune BME during myeloma progression.
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