Litcius/Paper detail

Low dose novel PARP-PI3K inhibition via nanoformulation improves colorectal cancer immunoradiotherapy

Madeleine Landry, Allison N. DuRoss, Megan J. Neufeld, Lukas Hahn, Gaurav Sahay, Robert Luxenhofer, Conroy Sun

2020Materials Today Bio25 citationsDOIOpen Access PDF

Abstract

Multimodal therapy is often used in oncology to overcome dosing limitations and chemoresistance. Recently, combination immunoradiotherapy has shown great promise in a select subset of patients with colorectal cancer (CRC). Furthermore, molecularly targeted agents delivered in tandem with immunotherapy regimens have been suggested to improve treatment outcomes and expand the population of responding patients. In this study, radiation-sensitizing small molecules niraparib (PARP inhibitor) and HS-173 (PI3K inhibitor) are identified as a novel combination that synergistically enhance toxicity and induce immunogenic cell death both in vitro and in vivo in a CRC model. These inhibitors were co-encapsulated in a polymer micelle to overcome solubility limitations while minimizing off-target toxicity. Mice bearing syngeneic colorectal tumors (CT26) were administered these therapeutic micelles in combination with X-ray irradiation and anti-CTLA-4 immunotherapy. This combination led to enhanced efficacy demonstrated by improved tumor control and increased tumor infiltrating lymphocytes. This report represents the first investigation of DNA damage repair inhibition combined with radiation to potentiate anti-CTLA-4 immunotherapy in a CRC model.

Topics & Concepts

Colorectal cancerMedicineCancer researchImmunotherapyPARP inhibitorPopulationIn vivoRadiation therapyPharmacologyCombination therapyCancerOncologyPoly ADP ribose polymeraseInternal medicineChemistryBiologyDNAEnvironmental healthPolymeraseBiochemistryBiotechnologyPARP inhibition in cancer therapyCancer Immunotherapy and BiomarkersNanoparticle-Based Drug Delivery