Modulating cancer-stroma crosstalk by a nanoparticle-based photodynamic method to pave the way for subsequent therapies.

Cancer cells and their stromal microenvironment are mutually supportive. Either destroying cancer cells or damaging stromal components cannot guarantee a satisfactory outcome in the long-term treatment. Herein, we showed that the tumor-stroma crosstalk was disturbed by nanoparticle-based photodynamic therapy (PDT) in pancreatic tumor models, leading to the persistent inhibition of extracellular matrix (ECM) secretion and the enhanced therapeutic effect. By employing a conditioned medium method, we found that the nanoparticulate PDT at a sub-lethal dosage down-regulated TGFβ signaling pathways, leading to the decrease in drug resistance, proliferation, and migration of the cancer cells. Meanwhile, pancreatic stellate cells (PSCs) were inactivated by PDT, hindering the secretion of ECM. Combining the results that PDT indiscriminately killed PSCs and cancer cells, we showed that the mutual support between the cancer cells and the stroma was interrupted. We further presented the inhibition of the crosstalk persistently enhanced tumor penetration in stroma-rich pancreatic tumor models. The loosened stroma not only facilitated tumor eradication by subsequent therapy but also improved the efficiency of gemcitabine treatment on monthly later recurrent tumors. Therefore, our work may boost the potential of PDT to be a valuable individual or adjuvant treatment for desmoplastic cancers.