IL-21R-STAT3 signalling initiates a differentiation program in uterine tissue-resident NK cells to support pregnancy

Tissue-resident Natural Killer (trNK) cells are crucial components of local immunity that activate rapidly upon infection. However, under steady state conditions, their responses are tightly controlled to prevent unwanted tissue damage. The mechanisms governing their differentiation and activation a...

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Published in:Nature communications 2023-11, Vol.14 (1), p.7109-7109, Article 7109
Main Authors: Han, Mengwei, Hu, Luni, Wu, Di, Zhang, Yime, Li, Peng, Zhao, Xingyu, Zeng, Yanyu, Ren, Guanqun, Hou, Zhiyuan, Pang, Yanli, Zhao, Tongbiao, Zhong, Chao
Format: Article
Language:English
Subjects:
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Apoptosis
Arteries
Cell death
Cell differentiation
Cytotoxicity
Damage prevention
Decidua
Differentiation (biology)
Effector cells
Gene sequencing
Homeostasis
Humanities and Social Sciences
multidisciplinary
Natural killer cells
Pregnancy
Science
Science (multidisciplinary)
Stat3 protein
Tissues
Uterus
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Summary:Tissue-resident Natural Killer (trNK) cells are crucial components of local immunity that activate rapidly upon infection. However, under steady state conditions, their responses are tightly controlled to prevent unwanted tissue damage. The mechanisms governing their differentiation and activation are not fully understood. Here, we characterise uterine trNK cells longitudinally during pregnancy by single cell RNA sequencing and find that the combined expression pattern of 4-1BB and CD55 defines their three distinct stages of differentiation in mice. Mechanistically, an IL-21R-STAT3 axis is essential for initiating the trNK cell differentiation. The fully differentiated trNK cells demonstrate enhanced functionality, which is necessary for remodelling spiral arteries in the decidua. We identify an apoptotic program that is specific to the terminal differentiation stage, which may preclude tissue damage by these highly activated trNK cells. In summary, uterine trNK cells become intensely active and effective during pregnancy, but tightly controlled via a differentiation program that also limits potential harm, suggesting an intricate mechanism for harnessing trNK cells in maintaining pregnancy. Uterine natural killer (NK) cells support tissue homeostasis in the uterus during pregnancy, but it is not fully known how they differentiate into potentially cytotoxic effector cells while avoiding tissue damage. Here authors show that Il21 receptor signalling via STAT3 activation governs their differentiation, while an apoptotic cell death program ensures that harm is limited.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-42990-0