Innate immune defenses at the maternal-fetal interface
EC Semmes, CB Coyne - Current opinion in immunology, 2022 - Elsevier
EC Semmes, CB Coyne
Current opinion in immunology, 2022•ElsevierHighlights•Decidual natural killer (dNK) cells transfer anti-microbial peptides to placental
trophoblasts to defend against infections.•Newly described maternal placenta-associated
macrophages and monocytes (PAMMs) may function in innate immune defense.•Fetal-
derived placental macrophages mount innate immune responses, yet may also be viral
reservoirs for TORCH pathogens.•Anti-viral interferon secretion by placental trophoblasts
contributes to placental dysfunction in congenital infections.•Novel organoid models and …
trophoblasts to defend against infections.•Newly described maternal placenta-associated
macrophages and monocytes (PAMMs) may function in innate immune defense.•Fetal-
derived placental macrophages mount innate immune responses, yet may also be viral
reservoirs for TORCH pathogens.•Anti-viral interferon secretion by placental trophoblasts
contributes to placental dysfunction in congenital infections.•Novel organoid models and …
Highlights
- Decidual natural killer (dNK) cells transfer anti-microbial peptides to placental trophoblasts to defend against infections.
- Newly described maternal placenta-associated macrophages and monocytes (PAMMs) may function in innate immune defense.
- Fetal-derived placental macrophages mount innate immune responses, yet may also be viral reservoirs for TORCH pathogens.
- Anti-viral interferon secretion by placental trophoblasts contributes to placental dysfunction in congenital infections.
- Novel organoid models and single-cell technologies can be applied to innate immunity at the human maternal-fetal interface
The human maternal-fetal interface is an immunologically complex environment that must balance the divergent demands of tolerance towards the developing fetus with anti-pathogen defense. The innate immune responses at the maternal-fetal interface that function in anti-microbial defense have been understudied to-date and how ‘TORCH’pathogens evade maternal innate immunity to infect the fetus remains poorly understood. Herein, we discuss how newly described decidual innate lymphoid cells and maternal placenta-associated macrophage subsets may be involved in anti-pathogen defense. Moreover, we outline recent advances in our understanding of how placental trophoblasts and fetal-derived macrophages (Hofbauer cells) function in anti-microbial defense. In summary, we highlight current gaps in knowledge and describe novel experimental models of the human decidua and placenta that are poised to advance our knowledge of innate immune defenses at the maternal-fetal interface.
Elsevier
