Iron-based nanoscale coordination polymers synergistically induce immunogenic ferroptosis by blocking dihydrofolate reductase for cancer immunotherapy

Iron is indispensable for cancer cell survival and cancer cells are more vulnerable to ferroptosis than normal cells. Ferroptosis holds promise for overcoming chemoresistance and inducing tumor immunogenic cell death, which offers new possibilities for cancer immunotherapy. However, the prevalence of immunogenic ferroptosis in cancer cells is diminished because of the high levels of reducing substances within tumor microenvironments. Ferroptosis-needed iron is overdose for livings, which is also an obstacle for effective immune responses. In this study, we construct self-assembled carrier-free nanoscale coordination polymers based on iron and methotrexate (MFe-NCPs). The low-dose-iron-induced immunogenic ferroptosis is obviously enhanced by methotrexate via inhibiting dihydrofolate reductase and abating substance reduction, respectively. Of note, MFe-NCPs sequen-tially promoted antigen presentation, immune activation, T cell infiltration and boosted the therapeutic effect of immune checkpoint blockade therapy.