Fetal and maternal NLRP3 signaling is required for preterm labor and birth
Kenichiro Motomura, Roberto Romero, Jose Galaz, Li Tao, Valeria Garcia-Flores, Yi Xu, Bogdan Done, Marcia Arenas-Hernandez, Derek Miller, Pedro Gutierrez-Contreras, Marcelo Farias-Jofre, Siddhesh Aras, Lawrence I. Grossman, Adi L. Tarca, Nardhy Gomez-Lopez
Kenichiro Motomura, Roberto Romero, Jose Galaz, Li Tao, Valeria Garcia-Flores, Yi Xu, Bogdan Done, Marcia Arenas-Hernandez, Derek Miller, Pedro Gutierrez-Contreras, Marcelo Farias-Jofre, Siddhesh Aras, Lawrence I. Grossman, Adi L. Tarca, Nardhy Gomez-Lopez
View: Text | PDF
Research Article Immunology Reproductive biology

Fetal and maternal NLRP3 signaling is required for preterm labor and birth

Abstract

Preterm birth is the leading cause of neonatal morbidity and mortality worldwide. One of every 4 preterm neonates is born to a mother with intra-amniotic inflammation driven by invading bacteria. However, the molecular mechanisms underlying this hostile immune response remain unclear. Here, we used a translationally relevant model of preterm birth in Nlrp3-deficient and -sufficient pregnant mice to identify what we believe is a previously unknown dual role for the NLRP3 pathway in the fetal and maternal signaling required for the premature onset of the labor cascade leading to fetal injury and neonatal death. Specifically, the NLRP3 sensor molecule and/or inflammasome is essential for triggering intra-amniotic and decidual inflammation, fetal membrane activation, uterine contractility, and cervical dilation. NLRP3 also regulates the functional status of neutrophils and macrophages in the uterus and decidua, without altering their influx, as well as maternal systemic inflammation. Finally, both embryo transfer experimentation and heterozygous mating systems provided mechanistic evidence showing that NLRP3 signaling in both the fetus and the mother is required for the premature activation of the labor cascade. These data provide insights into the mechanisms of fetal-maternal dialog in the syndrome of preterm labor and indicate that targeting the NLRP3 pathway could prevent adverse perinatal outcomes.

Authors

Kenichiro Motomura, Roberto Romero, Jose Galaz, Li Tao, Valeria Garcia-Flores, Yi Xu, Bogdan Done, Marcia Arenas-Hernandez, Derek Miller, Pedro Gutierrez-Contreras, Marcelo Farias-Jofre, Siddhesh Aras, Lawrence I. Grossman, Adi L. Tarca, Nardhy Gomez-Lopez

×

Figure 9

Nlrp3 deficiency protects against preterm birth by dysregulating the functions of macrophages infiltrating the decidua and uterus.

Options: View larger image (or click on image) Download as PowerPoint
Nlrp3 deficiency protects against preterm birth by dysregulating the fu...
(A) Pregnant Nlrp3+/+ and Nlrp3–/– mice were intra-amniotically injected with LPS (100 ng/25 μL) or PBS on 16.5 days post coitum (dpc) (n = 3 per group). The decidual and uterine tissues were collected on 17.5 dpc. Macrophages were sorted from these tissues by FACS. A representative gating strategy used for FACS of decidual and uterine macrophages is shown. Macrophage transcriptomes were obtained by RNA-Seq. (B and C) Venn diagrams representing the overlap of DEGs in the (B) decidual and (C) uterine macrophages as determined by the comparison between LPS- and PBS-injected Nlrp3–/– (unfilled circle) and Nlrp3+/+ (filled circle) dams. (D and E) BPs enriched in the comparison between (D) decidual and (E) uterine macrophages from Nlrp3+/+ dams injected with LPS and those injected with PBS. (F and G) BPs enriched in the comparison between (F) decidual and (G) uterine macrophages from Nlrp3–/– dams injected with LPS and those injected with PBS. Hypergeometric distribution was used to test for significance in the case of BPs. The P values of BPs were adjusted by high-specificity pruning.