Litcius/Paper detail

Lysosome-Mitochondria Cascade Targeting Nanoparticle Drives Robust Pyroptosis for Cancer Immunotherapy

Jianxiong Liu, Yue Yan, Yimeng Zhang, Xingquan Pan, Heming Xia, Jiayi Zhou, Fangjie Wan, Xinyu Huang, Weiwei Zhang, Qiang Zhang, Binlong Chen, Yiguang Wang

2024Journal of the American Chemical Society52 citationsDOI

Abstract

The subcellular distribution of cargoes plays a crucial role in determining cell fate and therapeutic efficacy. However, achieving the precise delivery of therapeutics to specific intracellular targets remains a significant challenge. Here, we present a trimodular and acid/enzyme-gated nanoplatform (TAEN) that undergoes disassembly within acidic endosomes and then is cleaved by lysosomal cathepsin B to facilitate efficient and targeted transport of released cargoes into mitochondria compartments. By utilizing this nanovehicle, we successfully achieve selective sorting of photosensitizer molecules into mitochondria with a colocalization coefficient of up to 0.98, leading to the generation of reactive oxygen species stress specifically within the mitochondria for potent pyroptosis-based cancer therapy. The induction of mitochondrial stress triggers the intrinsic apoptotic pathway as well as caspase-3/gasdermin-E (GSDME) cascade, resulting in an enhanced cancer cell killing efficacy by nearly 2 orders of magnitude as compared to lysosomal stress. Furthermore, due to its superior capability to stimulate both innate and adaptive immune responses, our mitochondria-sorted nanophotosensitizer exhibits robust antitumor immune efficacy in multiple tumor-bearing mice models. This study not only provides insights into engineering nanomedicines for subcellular targeted delivery but also offers a valuable toolkit for advanced research in the field of nanobiology at subcellular resolution.

Topics & Concepts

ChemistryLysosomePyroptosisCancer immunotherapyImmunotherapyNanoparticleCascadeNanotechnologyImmune systemCancer researchBiochemistryApoptosisProgrammed cell deathImmunologyChromatographyMaterials scienceEnzymeBiologyInflammasome and immune disordersToxoplasma gondii Research StudiesNanoplatforms for cancer theranostics