Maternal T cells limit engraftment after in utero hematopoietic cell transplantation in mice
Amar Nijagal, Marta Wegorzewska, Erin Jarvis, Tom Le, Qizhi Tang, Tippi C. MacKenzie
Amar Nijagal, Marta Wegorzewska, Erin Jarvis, Tom Le, Qizhi Tang, Tippi C. MacKenzie
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Research Article

Maternal T cells limit engraftment after in utero hematopoietic cell transplantation in mice

Abstract

Transplantation of allogeneic stem cells into the early gestational fetus, a treatment termed in utero hematopoietic cell transplantation (IUHCTx), could potentially overcome the limitations of bone marrow transplants, including graft rejection and the chronic immunosuppression required to prevent rejection. However, clinical use of IUHCTx has been hampered by poor engraftment, possibly due to a host immune response against the graft. Since the fetal immune system is relatively immature, we hypothesized that maternal cells trafficking into the fetus may pose the true barrier to effective IUHCTx. Here, we have demonstrated that there is macrochimerism of maternal leukocytes in the blood of unmanipulated mouse fetuses, with substantial increases in T cell trafficking after IUHCTx. To determine the contribution of these maternal lymphocytes to rejection after IUHCTx, we bred T and/or B cell–deficient mothers to wild-type fathers and performed allogeneic IUHCTx into the immunocompetent fetuses. There was a marked improvement in engraftment if the mother lacked T cells but not B cells, indicating that maternal T cells are the main barrier to engraftment. Furthermore, when the graft was matched to the mother, there was no difference in engraftment between syngeneic and allogeneic fetal recipients. Our study suggests that the clinical success of IUHCTx may be improved by transplanting cells matched to the mother.

Authors

Amar Nijagal, Marta Wegorzewska, Erin Jarvis, Tom Le, Qizhi Tang, Tippi C. MacKenzie

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Figure 4

Maternal macrochimerism in mid-gestation fetal blood.

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Maternal macrochimerism in mid-gestation fetal blood. (A) The breeding s...
(A) The breeding scheme used to identify maternal leukocytes in fetal blood. (B) Representative flow cytometric plots depicting the profile of CD45.2+ (maternal, left panel), CD45.1+/CD45.2+ (adult control, middle panel), and E15.5 fetal blood (right panel; F, fetal; M, maternal). Lineage analysis of maternal leukocytes found in fetal blood (gate M in B) was performed using cell surface markers for (C) innate and (D) adaptive immune cells. (C) The gating strategy for identifying innate immune cells involved first detecting Gr-1+ or F4/80+ leukocytes. NK cells were identified among the Gr-1F4/80 cells. Gr1F4/80NK1.1 cells were further divided into CD11c+ and B220+ leukocytes. (D) Adaptive immune cells were characterized by identifying CD3+ and CD19+ maternal leukocytes. The CD3+ subpopulation was further characterized based on CD4 and CD8 expression. (E) Percentages of various leukocyte subsets found in the mother (maternal) and in the fetus (trafficked) at E12.5–E15.5 (n ≥ 3; *P < 0.01, **P < 1 × 10–8 by t test). (F) Percentage of maternal leukocytes (number of CD45.2+ cells/total CD45+ cells) in fetal circulation at various embryonic days of gestation (E12.5, n = 1; E13.5, n = 4; E14.5, n = 8; E15.5, n = 5; E18.5, n = 14; E20, n = 12; E22, n = 3). There was a significant negative correlation between maternal macrochimerism and gestational age (Pearson r = –0.94, P = 0.002).