Human serous cavity macrophages and dendritic cells possess counterparts in the mouse with a distinct distribution between species.
Jichang HanAlexandre GallerandEmma C ErlichBeth A HelminkIris MairXin LiShaina R EckhouseFrancesca M DimouBaddr A ShakhsheerHannah M PhelpsMandy M ChanRachel L MintzDaniel D LeeJoel D SchillingConor M FinlayJudith E AllenClaudia V JakubzickKathryn J ElseEmily J OnuferNan ZhangGwendalyn J RandolphPublished in: Nature immunology (2023)
In mouse peritoneal and other serous cavities, the transcription factor GATA6 drives the identity of the major cavity resident population of macrophages, with a smaller subset of cavity-resident macrophages dependent on the transcription factor IRF4. Here we showed that GATA6 + macrophages in the human peritoneum were rare, regardless of age. Instead, more human peritoneal macrophages aligned with mouse CD206 + LYVE1 + cavity macrophages that represent a differentiation stage just preceding expression of GATA6. A low abundance of CD206 + macrophages was retained in C57BL/6J mice fed a high-fat diet and in wild-captured mice, suggesting that differences between serous cavity-resident macrophages in humans and mice were not environmental. IRF4-dependent mouse serous cavity macrophages aligned closely with human CD1c + CD14 + CD64 + peritoneal cells, which, in turn, resembled human peritoneal CD1c + CD14 - CD64 - cDC2. Thus, major populations of serous cavity-resident mononuclear phagocytes in humans and mice shared common features, but the proportions of different macrophage differentiation stages greatly differ between the two species, and dendritic cell (DC2)-like cells were especially prominent in humans.
Keyphrases
- dendritic cells
- transcription factor
- endothelial cells
- high grade
- high fat diet
- induced pluripotent stem cells
- pluripotent stem cells
- patient safety
- high fat diet induced
- adipose tissue
- type diabetes
- poor prognosis
- insulin resistance
- induced apoptosis
- risk assessment
- climate change
- endoplasmic reticulum stress
- peripheral blood
- oxidative stress
- binding protein
- sensitive detection
- cell death
- pi k akt
- human health
- anaerobic digestion