Long-term platinum-based drug accumulation in cancer-associated fibroblasts promotes colorectal cancer progression and resistance to therapy.
Jenniffer LinaresAnna Sallent-AragayJordi Badia-RamentolAlba Recort-BascuasAna MéndezNoemí Manero-RupérezDaniele Lo ReElisa I RivasMarc GuiuMelissa ZwickMar IglesiasCarolina Martinez-CiarpagliniNoelia TarazonaMonica VareseXavier Hernando-MomblonaAdrià Cañellas-SociasMayra OrrilloMarta GarridoNadia SaoudiElena Elez FernandezPilar NavarroJosep TaberneroRoger R GomisEduard BatlleJorge PisoneroAndres CervantesClara MontagutAlexandre CalonPublished in: Nature communications (2023)
A substantial proportion of cancer patients do not benefit from platinum-based chemotherapy (CT) due to the emergence of drug resistance. Here, we apply elemental imaging to the mapping of CT biodistribution after therapy in residual colorectal cancer and achieve a comprehensive analysis of the genetic program induced by oxaliplatin-based CT in the tumor microenvironment. We show that oxaliplatin is largely retained by cancer-associated fibroblasts (CAFs) long time after the treatment ceased. We determine that CT accumulation in CAFs intensifies TGF-beta activity, leading to the production of multiple factors enhancing cancer aggressiveness. We establish periostin as a stromal marker of chemotherapeutic activity intrinsically upregulated in consensus molecular subtype 4 (CMS4) tumors and highly expressed before and/or after treatment in patients unresponsive to therapy. Collectively, our study underscores the ability of CT-retaining CAFs to support cancer progression and resistance to treatment.