An Antibody-like Polymeric Nanoparticle Removes Intratumoral Galectin-1 to Enhance Antitumor T-Cell Responses in Cancer Immunotherapy
Yu Gu, Yu Zhao, Zhanzhan Zhang, Jialei Hao, Yadan Zheng, Qi Liu, Yang Liu, Linqi Shi
Abstract
Antibodies have shown potential to deplete immunosuppressive factors in tumor tissues. However, intrinsic drawbacks, including time-consuming processes in preparation, high cost, and short half-life time, greatly restrict their applications. In this work, we report an antibody-like polymeric nanoparticle (APN) that is capable of specifically capturing and removing galectin-1 in tumor tissues, thereby enhancing the antitumor T-cell responses. The APN is composed of an albumin-polymer hybrid nanoparticle (core) and an acid-responsive PEG shell. The core of the APN contains multiple recognition units and Tuftsin peptides to capture target factors and activate macrophage-mediated phagocytosis, respectively. By employing galactose as recognition units, the APN facilitated the phagocytosis of galectin-1 in tumor tissues, thereby improving the antitumor responses of tumor-infiltrating T cells. Since the recognition units in the APN can be further replaced to capture and remove other peptides/proteins, the APN provides a feasible approach for the development of synthetic nanoformulations to regulate biological systems and treat diseases.