Immunologically Active Biomaterials for Cancer Therapy

Abstract

Our understanding of immunological regulation has progressed tremendously alongside the development of materials science, and at their intersection emerges the possibility to employ immunologically active biomaterials for cancer immunotherapy. Strong and sustained anticancer, immune responses are required to clear large tumor burdens in patients, but current approaches for immunotherapy are formulated as products for delivery in bolus, which may be indiscriminate and/or shortlived. Multifunctional biomaterial particles are now being developed to target and sustain antigen and adjuvant delivery to dendritic cells in vivo, and these have the potential to direct and prolong antigen-specific T cell responses. Three-dimensional immune cell niches are also being developed to regulate the recruitment, activation and deployment of immune cells in situ to promote potent antitumor responses. Recent studies demonstrate that materials with immune targeting and stimulatory capabilities can enhance the magnitude and duration of immune responses to cancer antigens, and preclinical results utilizing material-based immunotherapy in tumor models show a strong therapeutic benefit, justifying translation to and future testing in the clinic.