Perfluorocarbon loaded fluorinated covalent organic polymers with effective sonosensitization and tumor hypoxia relief enable synergistic sonodynamic-immunotherapy.

Relieving tumor hypoxia has recently been found to be a promising approach to reverse tumor immunosuppression and thus enhance the treatment outcomes of diverse cancer treatments. Herein, we prepared a type of fluorinated covalent conjugate polymers (COPs) with sonosensitizer meso-5, 10, 15, 20-tetra (4-hydroxylphenyl) porphyrin (THPP) and perfluorosebacic acid (PFSEA) as cross-linkers, yielding THPP-COPs with efficient sonodynamic efficacy and loading capacity towards perfluoro-15-crown-5-ether (PFCE), a model perfluorocarbon molecule. Upon intratumoral injection, such PFCE@THPP-COPs could not only attenuate tumor hypoxia, but also exhibit the most effective suppression effect on tumor growth in the presence of ultrasound exposure by inducing immunogenic cell death of cancer cells. Furthermore, we found that the sonodynamic therapy of PFCE@THPP-COPs together with anti-CD47 immunotherapy would synergistically suppress tumor growth by increasing the tumor-infiltrating frequencies of phagocytic M1 macrophages and cytotoxic CD3CD8 T cells, while reducing the frequency of immunosuppressive regulatory T cells. Moreover, such combination treatment could also elicit potent protective memory antitumor immunity to prevent tumor challenge. Therefore, this work presents PFCE@THPP-COPs are a type of multifunctional nano-sonosensitizers potent in removing negative impacts of inherent tumor hypoxia and immunosuppression, and suppressing tumor growth and tumor recurrence by priming host's antitumor immunity, particularly in synergizing with anti-CD47 immunotherapy.