A novel exosome-like nanovesicles from Cordyceps militaris potentiate immunomodulatory and anti-tumor effect by reprogramming macrophages

Aims: Fungi-derived exosome-like nanovesicles (ENs) are emerging as a highly promising class of nanoparticles, particularly noted for their cost-effective production. However, their impact on immune regulation and their potential as anti-tumor agents need further exploration. Our study specifically focused on the investigation of the immunomodulatory and anti-tumor properties of ENs derived from Cordyceps militaris, an edible fungus that had achieved large-scale commercial production, referred to as CMDENs. Main methods: The ENs of C. militaris were collected through ultra-high-speed centrifugation, followed by characterization of their physicochemical properties and contents. Subsequently, the biological distribution of these vesicles was investigated using in vivo fluorescence imaging experiments. Finally, the immune activation and polarization of macrophages were examined through both in vitro and in vivo experiments. Key findings: Herein, we presented the discovery of CMDENs that were rich in proteins, lipids, flavonoids and alkaloids. Immunomodulatory experiments conducted in vivo demonstrated that CMDENs exhibited protective effects against cyclophosphamide-induced immunosuppression in mice by significantly enhancing macrophage phagocytosis and peripheral blood immune cell counts. Moreover, CMDENs effectively induced the polarization of M0- and M2-like macrophages toward M1-like phenotype by activating MAPKs signaling pathway. Notably, CMDENs exhibited remarkable capabilities in inhibiting tumor growth by reprogramming tumor-associated macrophages and activating tumor-infiltrating T lymphocytes, without any observed toxicity in mice bearing tumors. Significance: Our research suggested that CMDENs possessed the potential to be explored as a nanoimmunomodulatory agent for cancer.