Large T cell clones expressing immune checkpoints increase during multiple myeloma evolution and predict treatment resistance.
Cirino BottaCristina PerezMarta LarrayozNoemi PuigMaría-Teresa CedenaRosalinda TerminiIbai GoicoecheaSara RodriguezAintzane ZabaletaAitziber LopezSarai SarvideLaura BlancoDaniele M PapettiMarco S NobileDaniela BesozziMassimo GentilePierpaolo CorrealeSergio SiragusaAlbert OriolMaria Esther González-GarciaAnna SuredaFelipe de ArribaRafael Rios-TamayoJosé María MoraledaMercedes GironellaMiguel T HernandezJoan BargayLuis PalomeraAlbert Pérez-MontañaHartmut GoldschmidtHervé Avet-LoiseauAldo M RoccaroAlberto OrfaoJoaquin Martinez-LopezLaura RosinolJuan-José LahuertaJoan BladéMaria-Victoria Mateos-MantecaJesús San F MiguelJose-Angel Martinez-ClimentJuan José Lahuertanull nullnull nullPublished in: Nature communications (2023)
Tumor recognition by T cells is essential for antitumor immunity. A comprehensive characterization of T cell diversity may be key to understanding the success of immunomodulatory drugs and failure of PD-1 blockade in tumors such as multiple myeloma (MM). Here, we use single-cell RNA and T cell receptor sequencing to characterize bone marrow T cells from healthy adults (n = 4) and patients with precursor (n = 8) and full-blown MM (n = 10). Large T cell clones from patients with MM expressed multiple immune checkpoints, suggesting a potentially dysfunctional phenotype. Dual targeting of PD-1 + LAG3 or PD-1 + TIGIT partially restored their function in mice with MM. We identify phenotypic hallmarks of large intratumoral T cell clones, and demonstrate that the CD27 - and CD27 + T cell ratio, measured by flow cytometry, may serve as a surrogate of clonal T cell expansions and an independent prognostic factor in 543 patients with MM treated with lenalidomide-based treatment combinations.