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Nucleated red blood cells: unexpected orchestrators of fetal immunity
Red blood cells (RBCs) are not typically considered active immune mediators. This dogma stems from the fact that RBC precursors discard organelles as they mature, thus losing the ability to alter gene expression in response to stimuli. Intriguingly, nucleated RBCs (nRBCs) circulate in human fetuses...
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Published in: | The Journal of immunology (1950) 2023-05, Vol.210 (1_Supplement), p.221-221.05 |
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Main Authors: | , |
Format: | Article |
Language: | English |
Online Access: | Get full text |
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Summary: | Red blood cells (RBCs) are not typically considered active immune mediators. This dogma stems from the fact that RBC precursors discard organelles as they mature, thus losing the ability to alter gene expression in response to stimuli. Intriguingly, nucleated RBCs (nRBCs) circulate in human fetuses and neonates. Due to evolutionary pressure for successful reproduction, circulation of nRBCs during pregnancy is likely important. However, the role of nRBCs in uteroremains unknown. To define the role of human nRBCs, we queried single cell RNA-seq data and found that transcriptomics support nRBCs as putative immune mediators.
Unexpectedly, we found that nRBCs express antigen processing & presentation machinery. nRBCs constitutively express MHC II & co-stimulatory molecules, hallmarks of specialized antigen-presenting cells. We further demonstrated that nRBCs internalize and cleave antigens. Currently, we aim to determine if nRBCs present antigens to T cells and to characterize the elicited response.
In addition, we found that nRBCs express pattern recognition receptors capable of detecting pathogens and initiating an antimicrobial response. We demonstrated that nRBCs respond to viral infection through upregulation of antiviral genes, interferons/interferon-stimulated genes, MHC I, and pro-inflammatory cytokines/chemokines. These data suggest a putative functionality for nRBCs in mediating antiviral immunity in utero. We are currently investigating antiviral functions of nRBCs.
Together, our findings shed light on an unexpected orchestrator of fetal immunity. Knowledge of the fetal immune system has potential to help us understand health and disease during pregnancy, as a neonate, and likely every stage of life after.
Supported by grants from NIH/NIDDK 5T32DK007780, NIH/NIGMS K12GM081259, Burroughs Wellcome Fund 2022 Next Gen Pregnancy Initiative Award |
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ISSN: | 0022-1767 1550-6606 |
DOI: | 10.4049/jimmunol.210.Supp.221.05 |