Maternal CXCR4 deletion results in placental defects and pregnancy loss mediated by immune dysregulation
Fang Lyu, Chase Burzynski, Yuan yuan Fang, Aya Tal, Alice Y. Chen, Jacqueline Kisa, Kriti Agrawal, Yuval Kluger, Hugh S. Taylor, Reshef Tal
Fang Lyu, Chase Burzynski, Yuan yuan Fang, Aya Tal, Alice Y. Chen, Jacqueline Kisa, Kriti Agrawal, Yuval Kluger, Hugh S. Taylor, Reshef Tal
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Research Article Reproductive biology

Maternal CXCR4 deletion results in placental defects and pregnancy loss mediated by immune dysregulation

Abstract

CXCR4 is a key regulator of the development of NK cells and DCs, both of which play an important role in early placental development and immune tolerance at the maternal-fetal interface. However, the role of CXCR4 in pregnancy is not well understood. Our study demonstrates that adult-induced global genetic CXCR4 deletion, but not uterine-specific CXCR4 deletion, was associated with increased pregnancy resorptions and decreased litter size. CXCR4-deficient mice had decreased NK cells and increased granulocytes in the decidua, along with increased leukocyte numbers in peripheral blood. We found that CXCR4-deficient mice had abnormal decidual NK cell aggregates and NK cell infiltration into trophoblast areas beyond the giant cell layer. This was associated with low NK cell expression of granzyme B, a NK cell granule effector, indicative of NK cell dysfunction. Pregnancy failure in these mice was associated with abnormalities in placental vascular development and increased placental expression of inflammatory genes. Importantly, adoptive BM transfer of WT CXCR4+ BM cells into CXCR4-deficient mice rescued the reproductive deficits by normalizing NK cell function and mediating normal placental vascular development. Collectively, our study found an important role for maternal CXCR4 expression in immune cell function, placental development, and pregnancy maintenance.

Authors

Fang Lyu, Chase Burzynski, Yuan yuan Fang, Aya Tal, Alice Y. Chen, Jacqueline Kisa, Kriti Agrawal, Yuval Kluger, Hugh S. Taylor, Reshef Tal

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Figure 2

Immune cell abnormalities in hematopoietic organs and maternal-fetal interface of CXCR4-KO mice.

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Immune cell abnormalities in hematopoietic organs and maternal-fetal int...
(A) Total WBC, lymphocytes, granulocytes, and monocytes in peripheral blood for WT and KO pregnant (E9.5–E12.5) and nonpregnant mice. n = 8–10 mice/group. (B) Complete blood count of peripheral blood showing percentage of cell distribution for lymphocytes, monocytes, and granulocytes in WT and KO pregnant (E9.5–E12.5) and nonpregnant mice. n = 8–10 mice/group. (C) Total BM and spleen cells for WT and KO mice. n = 14–15 mice/group. (D) Gating strategy used for flow cytometry analysis of blood,a single spleen, decidua, and myometrium tissues. Representative images shown are of a spleen sample. Leukocytes were gated as CD45+ cells and further gated as NK1.1+ (NK cells) or CD3+ (T cells). Tregs were classified as CD3+CD4+CD25+ cells. Granulocytes were identified as Ly6G+ cells that were NK1.1CD3. Ly6GCD3NK1.1 cells were gated on CD11b+ cells to identify CD11b+F4/80+ macrophages and CD11b+F4/80 monocytes. (E) Comparison of percentage CD45+ cells out of total tissue cells in the decidua and myometrium of WT and KO mice. n = 6–7 mice/group. (F) Representative graphs of flow cytometry analysis of decidua from WT and KO pregnant mice (E9.5–E12.5). (GK) Graphs summarizing the flow cytometry results showing the proportions of indicated immune subpopulations in blood (G), BM (H), spleen (I), decidua (J), and myometrium (K) of WT and KO pregnant mice (E9.5–E12.5). n = 5–6 mice/group. *P < 0.05; **P < 0.01; ***P < 0.001 by 2-tailed Student’s t test for comparisons between 2 groups. Graphical data are shown as mean ± SEM.