Litcius/Paper detail

<p>Radiotherapy-Activated Hafnium Oxide Nanoparticles Produce Abscopal Effect in a Mouse Colorectal Cancer Model</p>

Ping Zhang, Audrey Darmon, Julie Marill, Naeemunnisa Mohamed Anesary, Sébastien Paris

2020International Journal of Nanomedicine81 citationsDOIOpen Access PDF

Abstract

PURPOSE: Despite tremendous results achieved by immune checkpoint inhibitors, most patients are not responders, mainly because of the lack of a pre-existing anti-tumor immune response. Thus, solutions to efficiently prime this immune response are currently under intensive investigations. Radiotherapy elicits cancer cell death, generating an antitumor-specific T cell response, turning tumors in personalized in situ vaccines, with potentially systemic effects (abscopal effect). Nonetheless, clinical evidence of sustained anti-tumor immunity as abscopal effect are rare. METHODS: Hafnium oxide nanoparticles (NBTXR3) have been designed to increase energy dose deposit within cancer cells. We examined the effect of radiotherapy-activated NBTXR3 on anti-tumor immune response activation and abscopal effect production using a mouse colorectal cancer model. RESULTS: We demonstrate that radiotherapy-activated NBTXR3 kill more cancer cells than radiotherapy alone, significantly increase immune cell infiltrates both in treated and in untreated distant tumors, generating an abscopal effect dependent on CD8+ lymphocyte T cells. CONCLUSION: These data show that radiotherapy-activated NBTXR3 could increase local and distant tumor control through immune system priming. Our results may have important implications for immunotherapeutic agent combination with radiotherapy.

Topics & Concepts

Abscopal effectImmune systemRadiation therapyCancer researchMedicineImmune checkpointImmunogenic cell deathCancerCD8Colorectal cancerImmunotherapyImmunologyInternal medicineCancer Immunotherapy and BiomarkersNanoplatforms for cancer theranosticsRadiation Therapy and Dosimetry