Uterine DCs are crucial for decidua formation during embryo implantation in mice
Vicki Plaks, Tal Birnberg, Tamara Berkutzki, Shay Sela, Adi BenYashar, Vyacheslav Kalchenko, Gil Mor, Eli Keshet, Nava Dekel, Michal Neeman, Steffen Jung
Vicki Plaks, Tal Birnberg, Tamara Berkutzki, Shay Sela, Adi BenYashar, Vyacheslav Kalchenko, Gil Mor, Eli Keshet, Nava Dekel, Michal Neeman, Steffen Jung
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Research Article

Uterine DCs are crucial for decidua formation during embryo implantation in mice

Abstract

Implantation is a key stage during pregnancy, as the fate of the embryo is often decided upon its first contact with the maternal endometrium. Around this time, DCs accumulate in the uterus; however, their role in pregnancy and, more specifically, implantation, remains unknown. We investigated the function of uterine DCs (uDCs) during implantation using a transgenic mouse model that allows conditional ablation of uDCs in a spatially and temporally regulated manner. Depletion of uDCs resulted in a severe impairment of the implantation process, leading to embryo resorption. Depletion of uDCs also caused embryo resorption in syngeneic and T cell–deficient pregnancies, which argues against a failure to establish immunological tolerance during implantation. Moreover, even in the absence of embryos, experimentally induced deciduae failed to adequately form. Implantation failure was associated with impaired decidual proliferation and differentiation. Dynamic contrast-enhanced MRI revealed perturbed angiogenesis characterized by reduced vascular expansion and attenuated maturation. We suggest therefore that uDCs directly fine-tune decidual angiogenesis by providing two critical factors, sFlt1 and TGF-β1, that promote coordinated blood vessel maturation. Collectively, uDCs appear to govern uterine receptivity, independent of their predicted role in immunological tolerance, by regulating tissue remodeling and angiogenesis. Importantly, our results may aid in understanding the limited implantation success of embryos transferred following in vitro fertilization.

Authors

Vicki Plaks, Tal Birnberg, Tamara Berkutzki, Shay Sela, Adi BenYashar, Vyacheslav Kalchenko, Gil Mor, Eli Keshet, Nava Dekel, Michal Neeman, Steffen Jung

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Figure 4

Local uDC depletion results in embryo resorption.

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Local uDC depletion results in embryo resorption. On E5.5, all mice were...
On E5.5, all mice were sacrificed, and the lower parts of each horn were retrieved for histology, while the upper parts were taken for flow cytometry analysis. (A and B) Left noninjected uterine horn versus (C and D) right uterine horn, locally injected with PBS on E3.5 as a control. (E and F) Left noninjected uterine horn (non inj) versus (G and H) right uterine horn, locally injected with DTx on E3.5. (I) Morphometric analysis of IS diameter at E5.5. Size of uDC-depleted IS (DTx) is presented as percentage of control (PBS-noninjected) IS (DTx: n = 2, 2 injected IS, 2 noninjected IS; PBS: n = 2, 3 injected IS, 4 noninjected IS; *P = 0.03, DTx right versus PBS right). Note that size of locally DTx-treated IS is significantly reduced compared with that of all other ISs (P < 0.04 versus DTx left and PBS right and left). uDCs are identified as CD11chiGFP+, and their percentages are indicated. (J) Experimental scheme. Uterine photograph (of a nonpregnant mouse) is only for illustration. OV, ovary.