LAG3 regulates antibody responses in a murine model of kidney transplantation
Michael Nicosia, … , Booki Min, Anna Valujskikh
Michael Nicosia, … , Booki Min, Anna Valujskikh
Published May 13, 2025
Citation Information: J Clin Invest. 2025;135(13):e172988. https://doi.org/10.1172/JCI172988.
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Research Article Immunology

LAG3 regulates antibody responses in a murine model of kidney transplantation

Abstract

Lymphocyte activation gene 3 (LAG3) is a coinhibitory receptor expressed by various immune cells. Although the immunomodulatory potential of LAG3 is being explored in cancer and autoimmunity, there is no information on its role after organ transplantation. Our study investigated the functions of LAG3 in a mouse model of renal allograft rejection. LAG3–/– recipients rapidly rejected MHC-mismatched renal allografts that were spontaneously accepted by WT recipients, with graft histology characteristic of antibody-mediated rejection. Depletion of recipient B cells but not CD8+ T cells significantly extended kidney allograft survival in LAG3–/– recipients. Treatment of WT recipients with an antagonistic LAG3 antibody enhanced anti-donor immune responses and induced kidney damage associated with chronic rejection. The studies of conditional LAG3–/– recipients and mixed bone marrow chimeras demonstrated that LAG3 expression on either T or B cells is sufficient to regulate anti-donor humoral immunity but not to induce acute allograft rejection. The numbers and proinflammatory functions of graft-infiltrating NK cells were markedly increased in LAG3–/– recipients, suggesting that LAG3 also regulates the effector stage of antibody-mediated rejection. These findings identified LAG3 as a regulator of immune responses to kidney allografts and a potential therapeutic target for antibody-mediated rejection prevention and treatment.

Authors

Michael Nicosia, Ran Fan, Juyeun Lee, Gabriella All, Victoria Gorbacheva, José I. Valenzuela, Yosuke Yamamoto, Ashley Beavers, Nina Dvorina, William M. Baldwin III, Eduardo Chuluyan, Motoo Araki, Brian T. Gaudette, Robert L. Fairchild, Booki Min, Anna Valujskikh

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Figure 3

Recipient LAG3 deficiency enhances anti-donor immune responses.

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Recipient LAG3 deficiency enhances anti-donor immune responses. Analyses...
Analyses of donor-reactive immunity in B6.WT and B6.LAG3–/– allograft recipients were performed at day 10 after transplant. (A) The composition of spleen T cell subsets was defined as follows: CD3 — CD3+, CD4 — CD3+CD4+, CD8 — CD3+CD8+, Tregs — CD3+CD4+FoxP3+, CD4 Naive — CD3+CD4+CD62LhiCD44lo, CD4 CM — CD3+CD4+CD62LhiCD44hi, CD4 EffM — CD3+CD4+CD62LloCD44hi, CD8 Naive — CD3+CD8+CD62LhiCD44lo, CD8 CM — CD3+CD8+CD62LhiCD44hi, CD8 EffM — CD3+CD8+CD62LloCD44hi, TFh — TCRb+CD4+FoxP3-PD-1+CXCR5+, and TFreg — TCRb+CD4+FoxP3+PD-1+CXCR5+. (B) The composition of splenic B cell subsets was defined as follows: B220 — B220+, FoB — B220+IgMintCD21/35int, MZB — B220+IgMhiCD21/35hi, TrB — B220+IgMhiCD21/35lo, Bregs — CD19+CD1dhiCD5+, GCB — B220+GL7+CD38lo, PCB — B220 CD138hi. (C) Top: Serum levels of IgG against donor MHC-I (H2-Dk) and MHC-II (I-Ak). Bottom: IgG subclass analysis of serum titers of IgG3, IgG1, IgG2c, and IgG2b from WT and LAG3–/– recipients at day 14 after transplant. The data are pooled from 2–3 experiments, and each symbol represents an individual mouse. (D) The frequencies of donor reactive IFN-γ–secreting splenocytes on day 14 after transplant. (E) Representative histograms of LAG3 expression by CD4+CXCR5+PD-1+ follicular T cells and B220CD138+ plasma cells. Analysis of DSA responses utilized multiple unpaired t tests with Benjamini, Krieger, and Yekutieli false discovery approaches. For all other analyses, Student’s t tests were performed.