Neuropilin-2 functions as a coinhibitory receptor to regulate antigen-induced inflammation and allograft rejection
Johannes Wedel, … , Diane R. Bielenberg, David M. Briscoe
Johannes Wedel, … , Diane R. Bielenberg, David M. Briscoe
Published July 1, 2025
Citation Information: J Clin Invest. 2025;135(13):e172218. https://doi.org/10.1172/JCI172218.
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Research Article Immunology

Neuropilin-2 functions as a coinhibitory receptor to regulate antigen-induced inflammation and allograft rejection

Abstract

Coinhibitory receptors function as central modulators of the immune response to resolve T effector activation and/or to sustain immune homeostasis. Here, using humanized SCID mice, we found that neuropilin–2 (NRP2) is inducible on late effector and exhausted subsets of human CD4+ T cells and that it is coexpressed with established coinhibitory molecules including PD-1, CTLA4, TIGIT, LAG3, and TIM3. In murine models, we also found that NRP2 is expressed on effector memory CD4+ T cells with an exhausted phenotype and that it functions as a key coinhibitory molecule. Knockout (KO) of NRP2 resulted in hyperactive CD4+ T cell responses and enhanced inflammation in delayed-type hypersensitivity and transplantation models. After cardiac transplantation, allograft rejection and graft failure were accelerated in global as well as CD4+ T cell–specific KO recipients, and enhanced alloimmunity was dependent on NRP2 expression on CD4+ T effectors but not on CD4+Foxp3+ Tregs. Also, KO Tregs were found to be as efficient as WT cells in the suppression of effector responses in vitro and in vivo. These collective findings identify NRP2 as a potentially novel coinhibitory receptor and demonstrate that its expression on CD4+ T effector cells is of great functional importance in immunity.

Authors

Johannes Wedel, Nora Kochupurakkal, Sek Won Kong, Sayantan Bose, Ji-Won Lee, Madeline Maslyar, Bayan Alsairafi, Kayla MacLeod, Kaifeng Liu, Hengcheng Zhang, Masaki Komatsu, Hironao Nakayama, Diane R. Bielenberg, David M. Briscoe

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Figure 3

NRP2pos CD4+ T cells have a distinct transcriptional profile.

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NRP2pos CD4+ T cells have a distinct transcriptional profile. Pooled pop...
Pooled populations of human CD4+ T cells were stimulated with PHA (3 μg/mL) for 16 hours in vitro, and NRP2pos and NRP2neg cells were sorted by flow cytometry and subjected to transcriptomic analysis. (A) Principal component analysis of unstimulated and stimulated subsets. (B) Protein-protein interaction analysis using NRP2 coregulated transcripts (≥2.5 log fold-change and Padj < 10–10 between unstimulated NRP2pos and NRP2neg cells shown in A. Subnetwork nodes are highlighted in color. (C) Heatmap depicting transcripts identified in protein interaction network analyses in B and additional transcripts that were upregulated in NRP2pos cells after PHA stimulation. (D) Enrichment for genes associated with dysfunctional T cells (90) using gene set enrichment analysis. Ranked in order for NRP2pos to NRP2neg cells in unstimulated conditions (NES, normalized enrichment score).