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 1

Inducible NRP2 expression on distinct subsets of human CD4+ T cells.

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Inducible NRP2 expression on distinct subsets of human CD4+ T cells. (A)...
(A) Representative dot plots and (B) a summary of 6 independent flow cytometric analyses (mean ± SD) of NRP2 staining of freshly isolated human PBMCs. (C) Representative cytospin of negatively isolated human CD4+ T cells stained for NRP2 (clone MM03; green) and CD3 (red); imaged by confocal microscopy. Representative images of 4 independent experiments showing an NRP2-expressing CD4+ cell at high-power magnification. Scale bar: 1 μm. (D) Representative dot plots of NRP2 expression on human CD4+ T cells cultured in the presence of phytohemagglutinin (PHA; 3 μg/mL for up to 72 hours) and evaluated by flow cytometry. (E) Line graph summarizing 3 independent experiments (data shown as mean ± SD; Friedman’s test with Dunn’s multiple-comparison test, *P < 0.05, **P < 0.01). (F) NRP2 expression by flow cytometry on human CD4+ T cells within splenocytes of huSCID mice at selected time intervals after humanization. Dot plots are gated on human CD4+ cells (murine CD45neg). (G) Line graph illustrating changes in the expression of NRP2 on CD4+ T cells over a 21-day period after humanization of huSCID mice (n = 4–8 independent experiments per time point; data shown as mean ± SD; Kruskal-Wallis test with Dunn’s multiple-comparison test, *P < 0.05, **P < 0.01).