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Sonogenetics-controlled synthetic designer cells for cancer therapy in tumor mouse models

Tian Gao, Lingxue Niu, Xin Wu, Di Dai, Yang Zhou, Mengyao Liu, Ke Wu, Yuanhuan Yu, Ningzi Guan, Haifeng Ye

2024Cell Reports Medicine30 citationsDOIOpen Access PDF

Abstract

Bacteria-based therapies are powerful strategies for cancer therapy, yet their clinical application is limited by a lack of tunable genetic switches to safely regulate the local expression and release of therapeutic cargoes. Rapid advances in remote-control technologies have enabled precise control of biological processes in time and space. We developed therapeutically active engineered bacteria mediated by a sono-activatable integrated gene circuit based on the thermosensitive transcriptional repressor TlpA 39 . Through promoter engineering and ribosome binding site screening, we achieved ultrasound (US)-induced protein expression and secretion in engineered bacteria with minimal noise and high induction efficiency. Specifically, delivered either intratumorally or intravenously, engineered bacteria colonizing tumors suppressed tumor growth through US-irradiation-induced release of the apoptotic protein azurin and an immune checkpoint inhibitor, a nanobody targeting programmed death-ligand 1, in different tumor mouse models. Beyond developing safe and high-performance designer bacteria for tumor therapy, our study illustrates a sonogenetics-controlled therapeutic platform that can be harnessed for bacteria-based precision medicine.

Topics & Concepts

Synthetic biologyBacteriaCancer researchCancer therapyApoptosisBiologyCell biologyComputational biologyCancerChemistryBiochemistryGeneticsCancer Research and Treatments3D Printing in Biomedical ResearchVirus-based gene therapy research