Abstract
Transcytosis is a crucial process that nanomedicines can experience in various delivery stages. However, little was known about whether it endows biofunctions to the nanomedicines. Here, we reported that transporting photodynamic nanoparticles across cancer cells via the endoplasmic reticulum (ER)-Golgi pathway formulated them with abundant neoantigens and damage-associated molecular patterns. The resultant nanoparticles (Tran-NPs) were potent in dendritic cell maturation and T cell activation. Meanwhile, the photodynamic Tran-NPs maintained their primary function of repolarizing immunosuppressive cells. The immune responses were observed in melanoma B16F10 tumor models. Our work suggested that the transcytosis process reprogrammed the nanoparticles with immunological properties, which might shed light on the design of nanomedicines.
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