Genetically engineered macrophages as living cell drug carriers for targeted cancer therapy.

Precise targeting is a major prerequisite for effective cancer therapy because it ensures a sufficient therapeutic dosage in tumors while minimizing off-target side effects. Herein, we report a live-macrophage-based therapeutic system for high-efficiency tumor therapy. As a proof of concept, anti-human epidermal growth factor receptor-2 (HER2) affibodies were genetically engineered onto the extracellular membrane of macrophages (AE-Mφ), which further internalized doxorubicin (DOX)-loaded poly(lactic-co-glycolic acid) nanoparticles (NPs) to produce a macrophage-based therapeutic system armed with anti-HER2 affibodies. NPs(DOX)@AE-Mφ were able to target HER2+ cancer cells and specifically elicit affibody-mediated cell therapy. Most importantly, the superior HER2 + -targeting capability of NPs(DOX)@AE-Mφ greatly guaranteed high accumulation at the tumor site for improved chemotherapy, which acted synergistically with cell therapy to significantly enhance anti-tumor efficacy. This study suggests that NPs(DOX)@AE-Mφ could be utilized as an innovative 'living targeted drug' platform for combining both macrophage-mediated cell therapy and targeted chemotherapy for the individualized treatment of solid tumors.