CD11c+ myeloid cell exosomes reduce intestinal inflammation during colitis
Kaylyn M. Bauer, Morgan C. Nelson, William W. Tang, Tyson R. Chiaro, D. Garrett Brown, Arevik Ghazaryan, Soh-Hyun Lee, Allison M. Weis, Jennifer H. Hill, Kendra A. Klag, Van B. Tran, Jacob W. Thompson, Andrew G. Ramstead, Josh K. Monts, James E. Marvin, Margaret Alexander, Warren P. Voth, W. Zac Stephens, Diane M. Ward, Aaron C. Petrey, June L. Round, Ryan M. O’Connell
Kaylyn M. Bauer, Morgan C. Nelson, William W. Tang, Tyson R. Chiaro, D. Garrett Brown, Arevik Ghazaryan, Soh-Hyun Lee, Allison M. Weis, Jennifer H. Hill, Kendra A. Klag, Van B. Tran, Jacob W. Thompson, Andrew G. Ramstead, Josh K. Monts, James E. Marvin, Margaret Alexander, Warren P. Voth, W. Zac Stephens, Diane M. Ward, Aaron C. Petrey, June L. Round, Ryan M. O’Connell
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Research Article Cell biology Immunology

CD11c+ myeloid cell exosomes reduce intestinal inflammation during colitis

Abstract

Intercellular communication is critical for homeostasis in mammalian systems, including the gastrointestinal (GI) tract. Exosomes are nanoscale lipid extracellular vesicles that mediate communication between many cell types. Notably, the roles of immune cell exosomes in regulating GI homeostasis and inflammation are largely uncharacterized. By generating mouse strains deficient in cell-specific exosome production, we demonstrate deletion of the small GTPase Rab27A in CD11c+ cells exacerbated murine colitis, which was reversible through administration of DC-derived exosomes. Profiling RNAs within colon exosomes revealed a distinct subset of miRNAs carried by colon- and DC-derived exosomes. Among antiinflammatory exosomal miRNAs, miR-146a was transferred from gut immune cells to myeloid and T cells through a Rab27-dependent mechanism, targeting Traf6, IRAK-1, and NLRP3 in macrophages. Further, we have identified a potentially novel mode of exosome-mediated DC and macrophage crosstalk that is capable of skewing gut macrophages toward an antiinflammatory phenotype. Assessing clinical samples, RAB27A, select miRNAs, and RNA-binding proteins that load exosomal miRNAs were dysregulated in ulcerative colitis patient samples, consistent with our preclinical mouse model findings. Together, our work reveals an exosome-mediated regulatory mechanism underlying gut inflammation and paves the way for potential use of miRNA-containing exosomes as a novel therapeutic for inflammatory bowel disease.

Authors

Kaylyn M. Bauer, Morgan C. Nelson, William W. Tang, Tyson R. Chiaro, D. Garrett Brown, Arevik Ghazaryan, Soh-Hyun Lee, Allison M. Weis, Jennifer H. Hill, Kendra A. Klag, Van B. Tran, Jacob W. Thompson, Andrew G. Ramstead, Josh K. Monts, James E. Marvin, Margaret Alexander, Warren P. Voth, W. Zac Stephens, Diane M. Ward, Aaron C. Petrey, June L. Round, Ryan M. O’Connell

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Figure 3

Rab27A functions in CD11c+ myeloid cells to regulate colitis phenotypes.

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Rab27A functions in CD11c+ myeloid cells to regulate colitis phenotypes....
(A) Weight loss of floxed animals versus CD11c-Cre Rab27A+ animals during a 6-day DSS course. (B) Colon length of A (n = 9), data representative of 4 independent experiments. (C) Weight loss of floxed versus CD4-Cre Rab27A+ animals during an 8-day DSS course (n = 9). (D) Colon length of C. (E) Representative flow plot of macrophage gating of F and G. (F) Percentage of CD38+ M1-like macrophages and of Erg2+ M2-like macrophages in floxed and CD11c-Rab27A cKO mLNs after DSS (n = 9). (G) Percentage of CD38+ M1-like macrophages and of Egr2+ M2-like macrophages in WT and CD11c-Rab27A cKO cLP after DSS (n = 6). (H) Serum LCN2 levels of mice from A as measured by ELISA (n = 6). (I) Percentage of colon crypt loss, severity of colon crypt loss, inflammation score, and total histology score of H&E-stained colons of A (n = 9). (J) Representative H&E-stained colons from A. (K) Representative H&E staining from WT and CD11c-Rab27A cKO mAb mice. (L) Total histology scores of K. (M) Quantification of epithelial crypt depth and number of inflammatory aggregates in K. Two-way ANOVA mixed model analysis with Geisser-Greenhouse correction for weight loss graphs. Unpaired 2-tailed t test for bar graphs except L. For L, 2-way ANOVA with Tukey’s multiple-comparison test comparing the column means. *P < 0.05, **P < 0.005, ***P < 0.0005. Scale bars in all images are 100 μm. See also Supplemental Figure 3.