Macrophages exert homeostatic actions in pregnancy to protect against preterm birth and fetal inflammatory injury
Nardhy Gomez-Lopez, Valeria Garcia-Flores, Peck Yin Chin, Holly M. Groome, Melanie T. Bijland, Kerrilyn R. Diener, Roberto Romero, Sarah A. Robertson
Nardhy Gomez-Lopez, Valeria Garcia-Flores, Peck Yin Chin, Holly M. Groome, Melanie T. Bijland, Kerrilyn R. Diener, Roberto Romero, Sarah A. Robertson
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Research Article Reproductive biology

Macrophages exert homeostatic actions in pregnancy to protect against preterm birth and fetal inflammatory injury

Abstract

Macrophages are commonly thought to contribute to the pathophysiology of preterm labor by amplifying inflammation — but a protective role has not previously been considered to our knowledge. We hypothesized that given their antiinflammatory capability in early pregnancy, macrophages exert essential roles in maintenance of late gestation and that insufficient macrophages may predispose individuals to spontaneous preterm labor and adverse neonatal outcomes. Here, we showed that women with spontaneous preterm birth had reduced CD209+CD206+ expression in alternatively activated CD45+CD14+ICAM3– macrophages and increased TNF expression in proinflammatory CD45+CD14+CD80+HLA-DR+ macrophages in the uterine decidua at the materno-fetal interface. In Cd11bDTR/DTR mice, depletion of maternal CD11b+ myeloid cells caused preterm birth, neonatal death, and postnatal growth impairment, accompanied by uterine cytokine and leukocyte changes indicative of a proinflammatory response, while adoptive transfer of WT macrophages prevented preterm birth and partially rescued neonatal loss. In a model of intra-amniotic inflammation–induced preterm birth, macrophages polarized in vitro to an M2 phenotype showed superior capacity over nonpolarized macrophages to reduce uterine and fetal inflammation, prevent preterm birth, and improve neonatal survival. We conclude that macrophages exert a critical homeostatic regulatory role in late gestation and are implicated as a determinant of susceptibility to spontaneous preterm birth and fetal inflammatory injury.

Authors

Nardhy Gomez-Lopez, Valeria Garcia-Flores, Peck Yin Chin, Holly M. Groome, Melanie T. Bijland, Kerrilyn R. Diener, Roberto Romero, Sarah A. Robertson

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Figure 8

Adoptive transfer of M2-polarized macrophages to dams reduces inflammatory gene expression in fetal brain and lung after intra-amniotic administration of LPS.

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Adoptive transfer of M2-polarized macrophages to dams reduces inflammato...
(A) M2-polarized macrophages (M2 Mɸ) or vehicle were i.v. administered on 15.5 dpc and 16.5 dpc to C57BL/6 dams followed by intra-amniotic injection with LPS on 16.5 dpc (M2+LPS). Control C57BL/6 dams were injected intra-amniotically with LPS only (LPS). Dams were euthanized 16 hours after LPS injection to collect fetal brain and lung for evaluation of gene expression. (B) Heatmap visualization of inflammatory gene expression in fetal brains from M2+LPS and LPS dams (n = 8–10 each). (C) Expression of Il6, Tnf, Il1b, Il10, Ccl2, Ccl3, Ccl5, Ccl22, Nod1, Nod2, Casp1, and Nlrc4 in fetal brains. (D) Heatmap visualization of inflammatory gene expression in fetal lungs from M2+LPS and LPS dams (n = 8–21 each). (E) Expression of Il6, Il33, Ccl2, Il10, Casp1, Nod1, Nod2, and Nlrc4 in fetal lungs. Data are presented as box plots with medians, IQRs, and minimum/maximum ranges. Symbols are values from individual fetuses. Data were analyzed by Mann-Whitney U tests. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.