Lung megakaryocytes are immune modulatory cells
Daphne N. Pariser, Zachary T. Hilt, Sara K. Ture, Sara K. Blick-Nitko, Mark R. Looney, Simon J. Cleary, Estheany Roman-Pagan, Jerry Saunders II, Steve N. Georas, Janelle Veazey, Ferralita Madere, Laura Tesoro Santos, Allison Arne, Nguyen P.T. Huynh, Alison C. Livada, Selena M. Guerrero-Martin, Claire Lyons, Kelly A. Metcalf-Pate, Kathleen E. McGrath, James Palis, Craig N. Morrell
Daphne N. Pariser, Zachary T. Hilt, Sara K. Ture, Sara K. Blick-Nitko, Mark R. Looney, Simon J. Cleary, Estheany Roman-Pagan, Jerry Saunders II, Steve N. Georas, Janelle Veazey, Ferralita Madere, Laura Tesoro Santos, Allison Arne, Nguyen P.T. Huynh, Alison C. Livada, Selena M. Guerrero-Martin, Claire Lyons, Kelly A. Metcalf-Pate, Kathleen E. McGrath, James Palis, Craig N. Morrell
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Research Article Hematology Inflammation

Lung megakaryocytes are immune modulatory cells

Abstract

Although platelets are the cellular mediators of thrombosis, they are also immune cells. Platelets interact both directly and indirectly with immune cells, impacting their activation and differentiation, as well as all phases of the immune response. Megakaryocytes (Mks) are the cell source of circulating platelets, and until recently Mks were typically only considered bone marrow–resident (BM-resident) cells. However, platelet-producing Mks also reside in the lung, and lung Mks express greater levels of immune molecules compared with BM Mks. We therefore sought to define the immune functions of lung Mks. Using single-cell RNA sequencing of BM and lung myeloid-enriched cells, we found that lung Mks, which we term MkL, had gene expression patterns that are similar to antigen-presenting cells. This was confirmed using imaging and conventional flow cytometry. The immune phenotype of Mks was plastic and driven by the tissue immune environment, as evidenced by BM Mks having an MkL-like phenotype under the influence of pathogen receptor challenge and lung-associated immune molecules, such as IL-33. Our in vitro and in vivo assays demonstrated that MkL internalized and processed both antigenic proteins and bacterial pathogens. Furthermore, MkL induced CD4+ T cell activation in an MHC II–dependent manner both in vitro and in vivo. These data indicated that MkL had key immune regulatory roles dictated in part by the tissue environment.

Authors

Daphne N. Pariser, Zachary T. Hilt, Sara K. Ture, Sara K. Blick-Nitko, Mark R. Looney, Simon J. Cleary, Estheany Roman-Pagan, Jerry Saunders II, Steve N. Georas, Janelle Veazey, Ferralita Madere, Laura Tesoro Santos, Allison Arne, Nguyen P.T. Huynh, Alison C. Livada, Selena M. Guerrero-Martin, Claire Lyons, Kelly A. Metcalf-Pate, Kathleen E. McGrath, James Palis, Craig N. Morrell

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Figure 3

Lung Mk immune phenotype is environmentally regulated.

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Lung Mk immune phenotype is environmentally regulated. (A) MHC II and IC...
(A) MHC II and ICAM1 expression on Mks from P0 and adult mice. Neonatal lung Mks had reduced MHC II and ICAM1 compared with adult lung Mks (unpaired t test). (B) BM Mks increased MHC II expression in response to immune stimuli. BM Mks were incubated with immune stimuli for 48 hours and MHC II expression determined. LPS, INF-γ, and CpG increased MHC II (1-way ANOVA with Tukey’s multiple-comparison test). (C) BM Mks respond to CpG within 24 hours and the expression of immune molecules is similar to that of control BM Mks at day 6 (unpaired t test). (D) Lung-derived immune modulatory cytokines induced BM Mk immune differentiation. BM Mks were incubated with IL-33 or IL-33 in combination with other common lung cytokines. Forty-eight hours later immune differentiation was determined (1-way ANOVA with Tukey’s multiple-comparison test). *P = 0.01 to 0.05; **P = 0.001 to 0.01; ***P = 0.0001 to 0.001; ****P < 0.0001.