Nanobody-based bispecific antibody engagers targeting CTLA-4 or PD-L1 for cancer immunotherapy.

Publication information:

Liu, Xin, Camille Le Gall, Ryan K Alexander, Ella Borgman, Thomas Balligand, and Hidde L Ploegh. [2025] 2025. “Nanobody-Based Bispecific Antibody Engagers Targeting CTLA-4 or PD-L1 for Cancer Immunotherapy”. Nature Biomedical Engineering. doi:10.1038/s41551-025-01447-z.

Abstract

As immune checkpoint blockade induces durable responses in only a subset of patients, more effective immunotherapies are needed. Here we present bispecific antibody engagers, fusion proteins composed of a nanobody that recognizes immunoglobulin kappa light chains (VHH) and a nanobody that recognizes either CTLA-4 or PD-L1. These fusions show strong antitumour activity in mice through recruitment of polyclonal immunoglobulins independently of specificity or isotype. The anti-CTLA-4 VHH-VHH conjugate demonstrates superior antitumour activity compared with the conventional monoclonal anti-CTLA-4 antibody and reduces the number of intratumoural regulatory T cells in a mouse model of colorectal carcinoma. The anti-PD-L1 VHH-VHH conjugate is less effective in the colorectal carcinoma model while still outperforming a conventional antibody of similar specificity. The potency of the anti-PD-L1 VHH-VHH conjugate was enhanced by installation of the cytotoxic drug maytansine or a STING agonist. The ability of such fusions to engage the Fc-mediated functions of all immunoglobulin isotypes is an appealing strategy to further improve on the efficacy of immune checkpoint blockade, commonly delivered as a monoclonal immunoglobulin of a single defined isotype.