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PD-1 endocytosis unleashes the cytolytic potential of checkpoint blockade in tumor immunity

Elham Ben Saad, Andres Oroya, Nikhil Ponnoor Anto, Meriem Bachais, Christopher E. Rudd

2024Cell Reports19 citationsDOIOpen Access PDF

Abstract

PD-1 immune checkpoint blockade (ICB) is a key cancer treatment. While blocking PD-1 binding to ligand is known, the role of internalization in enhancing ICB efficacy is less explored. Our study reveals that PD-1 internalization helps unlock ICB's full potential in cancer immunotherapy. Anti-PD-1 induces 50%–60% surface PD-1 internalization from human and mouse cells, leaving low to intermediate levels of resistant receptors. Complexes then appear in early and late endosomes. Both CD4 and CD8 T cells, especially CD8 + effectors, are affected. Nivolumab outperforms pembrolizumab in human T cells, while PD-1 internalization requires crosslinking by bivalent antibody. While mono- and bivalent anti-PD-1 inhibit tumor growth with CD8 tumor-infiltrating cells expressing increased granzyme B, bivalent antibody is more effective where the combination of steric blockade and endocytosis induces greater CD8 + T cell tumor infiltration and the expression of the cytolytic pore protein, perforin. Our findings highlight an ICB mechanism that combines steric blockade and PD-1 endocytosis for optimal checkpoint immunotherapy.

Topics & Concepts

BlockadeEndocytosisCytolysisImmunityCancer researchCell biologyImmune checkpointImmunologyBiologyImmune systemCytotoxicityReceptorGeneticsIn vitroCancer Immunotherapy and BiomarkersImmunotherapy and Immune ResponsesImmune Cell Function and Interaction
PD-1 endocytosis unleashes the cytolytic potential of checkpoint blockade in tumor immunity | Litcius