Maternal B cell signaling orchestrates fetal development in mice

B cell participation in early embryo/fetal development and the underlying molecular pathways have not been explored. To understand whether maternal B cell absence or impaired signaling interferes with placental and fetal growth, we paired CD19-deficient (CD19-/-) mice, females with B cell-specific MyD88 (BMyD88-/-) or IL-10 (BIL-10-/-) deficiency as well as WT and MyD88-/- controls on C57Bl/6 background with BALB/c males. Pregnancies were followed by ultrasound and Doppler measurements. Implantation number was reduced in BMyD88-/- and MyD88-/- mice. Loss of MyD88 or B cell-specific deletion of MyD88 or IL-10 resulted in decreased implantation areas at gestation days (gd)5, 8 and 10, accompanied by reduced placental thickness, diameter and areas at gd10. Uterine artery resistance was enhanced in BIL-10-/- dams at gd10. Challenge with 0.4mg LPS/kg BW at gd16 revealed that BMyD88-/-, BIL-10-/- and CD19-/- mothers delivered preterm while controls maintained their pregnancy. B cell specific MyD88 and IL-10 expression is essential for appropriate in utero development. IL-10+B cells are involved in uterine blood flow regulation during pregnancy. Finally, B cell-specific CD19, MyD88 and IL-10 expression influences susceptibility towards preterm birth.