Targeting TNFRSF25 by agonistic antibodies and multimeric TL1A proteins co-stimulated CD8+ T cells and inhibited tumor growth.

Background: Tumor necrosis factor receptor superfamily 25 (TNFRSF25) is a T-cell co-stimulatory receptor. Expression of its ligand, TNF-like cytokine 1A (TL1A), on mouse tumor cells has been shown to promote tumor regression. This study aimed to develop TNFRSF25 agonists (both antibodies (Abs) and TL1A proteins) and to investigate their potential antitumor effects.

Methods: Anti-mouse TNFRSF25 (mTNFRSF25) Abs and multimeric TL1A proteins were generated as TNFRSF25 agonists. Their agonism was assessed in luciferase reporter and T-cell co-stimulation assays, and their antitumor effects were evaluated in syngeneic mouse tumor models. TNFRSF25 expression within the tumor microenvironment and the effects of an anti-mTNFRSF25 agonistic Ab on tumor-infiltrating T cells were evaluated by flow cytometry. Cell depletion assays were used to identify the immune cell types that contribute to the antitumor effect of the anti-mTNFRSF25 Ab. The Fc gamma receptor (FcγR) dependence of TNFRSF25 agonists was assessed in an in vivo T-cell expansion model and a mouse tumor model using Fc variants and FcγR-deficient mice.

Results: TNFRSF25 agonists exhibited antitumor effects in syngeneic mouse tumor models without causing observed side effects. We identified an anti-mTNFRSF25 agonistic Ab, 1A6-m1, which exhibited greater antitumor activity than a higher affinity anti-TNFRSF25 Ab which engages an overlapping epitope with 1A6-m1. 1A6-m1 activated CD8⁺ T cells and antigen-specific T cells, leading to tumor regression; it also induced long-term antitumor immune memory. Although activating TNFRSF25 by 1A6-m1 expanded splenic regulatory T (Treg) cells, it did not influence intratumoral Treg cells. Moreover, 1A6-m1's antitumor effects required the engagement of both inhibitory FcγRIIB and activating FcγRIII. Replacing 1A6-m1's CH1-hinge region with that of human IgG2 (h2) conferred enhanced antitumor effects. Finally, we also generated multimeric human and mouse TL1A fusion proteins as TNFRSF25 agonists, and they co-stimulated CD8⁺ T cells and reduced tumor growth, even in the absence of Fc-FcγR interactions.

Conclusion: Our data demonstrates the potential of activating TNFRSF25 by Abs and multimeric TL1A proteins for cancer immunotherapy and provides insights into their development astherapeutics.