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Nanobiohybrid Oncolytic Bacteria with Optimized Intratumoral Distribution for Combined Sono–Photodynamic/Immunotherapy

Xu Zhang, Zhongsheng Zang, Zhenguo Liang, Xiaoyu Xu, Jinling Zheng, Na Liang, Shayibai Shabiti, Zixi Wang, Shiwen Yu, Yujue Wang, Chenli Liu, Wenjun Li, Lintao Cai

2025ACS Nano14 citationsDOI

Abstract

"Living therapeutic carriers" present a promising avenue for cancer research, but it is still challenging to achieve uniform and durable distribution of payloads throughout the solid tumor owing to the tumor microenvironment heterogeneity. Herein, a living drug sprinkle biohybrid (YB1-HCNs) was constructed by hitching acid/enzyme-triggered detachable nanoparticles (HCNs) backpack on the surface of metabolic oligosaccharide-engineered oncolytic bacteria YB1. Along with the process of tumor penetration by bacterial hypoxia navigation, YB1-HCNs responsively and continuously release HCNs, achieving a uniform distribution of loaded agents throughout the tumor. Upon successive irradiation of laser and ultrasound (US), the HCNs can separately generate type II and type I ROS for superior sono-photodynamic therapy (SPDT), which enables HCNs to synergize with YB1 for a satisfactory therapeutic effect in both superficial normoxic and deep hypoxic regions of the tumor. After a single dose, this efficient combination realized 98.3% primary tumor inhibition rate and prolonged survival of mice for 90 days with no recurrence, further inducing a powerful immunological memory effect to completely suppress tumor rechallenge in cured mice. Such a bacterial hybridization vector enables optimization of the spatial distribution of YB1 and HCNs, providing an innovative strategy to maximize therapeutic outcomes and evoke durable antitumor immunity.

Topics & Concepts

Oncolytic virusPhotodynamic therapyImmunotherapyBacteriaDistribution (mathematics)Materials scienceMicrobiologyCancer researchMedicineChemistryImmune systemBiologyTumor cellsImmunologyMathematicsGeneticsMathematical analysisOrganic chemistryCancer Research and TreatmentsNanoplatforms for cancer theranosticsPhotodynamic Therapy Research Studies
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