Pregnancy-induced humoral sensitization overrides T cell tolerance to fetus-matched allografts in mice
Ashley N. Suah, … , Maria-Luisa Alegre, Anita S. Chong
Ashley N. Suah, … , Maria-Luisa Alegre, Anita S. Chong
Published January 4, 2021
Citation Information: J Clin Invest. 2021;131(1):e140715. https://doi.org/10.1172/JCI140715.
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Research Article Immunology

Pregnancy-induced humoral sensitization overrides T cell tolerance to fetus-matched allografts in mice

Abstract

Immunological tolerance to semiallogeneic fetuses is necessary to achieving successful first pregnancy and permitting subsequent pregnancies with the same father. Paradoxically, pregnancy is an important cause of sensitization, resulting in the accelerated rejection of offspring-matched allografts. The underlying basis for divergent outcomes following reencounter of the same alloantigens on transplanted organs versus fetuses in postpartum females is incompletely understood. Using a mouse model that allows concurrent tracking of endogenous fetus-specific T and B cell responses in a single recipient, we show that semiallogeneic pregnancies simultaneously induce fetus-specific T cell tolerance and humoral sensitization. Pregnancy-induced antibodies, but not B cells, impeded transplantation tolerance elicited by costimulation blockade to offspring-matched cardiac grafts. Remarkably, in B cell–deficient mice, allogeneic pregnancy enabled the spontaneous acceptance of fetus-matched allografts. The presence of pregnancy-sensitized B cells that cannot secrete antibodies at the time of heart transplantation was sufficient to precipitate rejection and override pregnancy-established T cell tolerance. Thus, while induction of memory B cells and alloantibodies by pregnancies establishes formidable barriers to transplant success for multigravid women, our observations raise the possibility that humoral desensitization will not only improve transplantation outcomes, but also reveal an unexpected propensity of multiparous recipients to achieve tolerance to offspring-matched allografts.

Authors

Ashley N. Suah, Dong-Kha V. Tran, Stella H.W. Khiew, Michael S. Andrade, Jared M. Pollard, Dharmendra Jain, James S. Young, Dengping Yin, Geetha Chalasani, Maria-Luisa Alegre, Anita S. Chong

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Figure 2

Allogeneic pregnancy induces resistance to transplantation tolerance despite allogeneic T cell dysfunction.

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Allogeneic pregnancy induces resistance to transplantation tolerance des...
(A) Experimental design. Male 2W-OVA.BALB/c were mated with female C57BL/6 to generate allogeneic F1-expressing 2W-OVA (allogeneic pregnancy), or male C57BL/6 were mated with female C57BL/6 to generate syngeneic F1 (syngeneic pregnancy), or female C57BL/6 mice were transplanted with 2W-OVA.F1 (BALB/c × C57B6) skin graft. After resting for 45–60 days, PP or skin-transplanted mice received 2W-OVA.F1 heart transplants and were treated with CoB/DST to induce tolerance (TolRx), or CTLA-4Ig on POD0, POD2, POD4, and POD7 after HTx. (B) Percentage of heart graft survival; n = 10–25/group. †P < 0.05; ††P < 0.01; ††††P < 0.0001, log-rank test. (C) Percentage of heart graft survival, including acutely rejecting (AR) virgin controls: n = 6–10/group. †P < 0.05; †††P < 0.001, log-rank test. Spleens and inguinal, axillary, and brachial LNs were harvested from indicated mice on POD ≥ 30. (D) Total number of 2W:IAb Tregs; n = 7–38/group. (E) 2W:IAb Tconvs; n = 7–30/group. (F) Percentage of Tregs of 2W:IAb CD4+ cells; n = 8–23/group. (G) Percentage of IFN-γ+ of Tem CD4+ cells; n = 4–20/group. (H) Total number of OVA+ of CD8+ cells; n = 5–40/group. (I) Percentage of IFN-γ+ of Tem CD8+ cells; n = 4–29/group. Pre-HTx data are from Figure 1, I and J. Data are pooled from 2 or more independent experiments and represent mean ± SEM. *P < 0.05; ***P < 0.001; ****P < 0.0001, Kruskal-Wallis test with Dunn’s post hoc test or Mann-Whitney t test (DI). Data for the Pre-HTx groups in G and H are from Figure 1, I and J, respectively.