Neutrophil and monocyte kinetics play critical roles in mouse peritoneal adhesion formation

Peritoneal adhesions are pathological fibroses that ensnare organs after abdominal surgery. This dense connective tissue can cause small bowel obstruction, female infertility, and chronic abdominal pain. The pathogenesis of adhesions is a fibrotic response to tissue damage coordinated between mesoth...

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Published in:Blood advances Vol. 3; no. 18; pp. 2713 - 2721
Main Authors: Tsai, Jonathan M., Shoham, Maia, Fernhoff, Nathaniel B., George, Benson M., Marjon, Kristopher D., McCracken, Melissa N., Kao, Kevin S., Sinha, Rahul, Volkmer, Anne Kathrin, Miyanishi, Masanori, Seita, Jun, Rinkevich, Yuval, Weissman, Irving L.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 24-09-2019
American Society of Hematology
Elsevier
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Summary:Peritoneal adhesions are pathological fibroses that ensnare organs after abdominal surgery. This dense connective tissue can cause small bowel obstruction, female infertility, and chronic abdominal pain. The pathogenesis of adhesions is a fibrotic response to tissue damage coordinated between mesothelial cells, fibroblasts, and immune cells. We have previously demonstrated that peritoneal adhesions are a consequence of mechanical injury to the mesothelial layer sustained during surgery. Neutrophils are among the first leukocytes involved in the early response to tissue damage. Here, we show that when subjected to mechanical stress, activated mesothelial cells directly recruit neutrophils and monocytes through upregulation of chemokines such as CXCL1 and monocyte chemoattractant protein 1 (MCP-1). We find that neutrophils within the adhesion sites undergo cell death and form neutrophil extracellular traps (NETosis) that contribute to pathogenesis. Conversely, tissue-resident macrophages were profoundly depleted throughout the disease time course. We show that this is distinct from traditional inflammatory kinetics such as after sham surgery or chemically induced peritonitis, and suggest that adhesions result from a primary difference in inflammatory kinetics. We find that transient depletion of circulating neutrophils significantly decreases adhesion burden, and further recruitment of monocytes with thioglycolate or MCP-1 also improves outcomes. Our findings suggest that the combination of neutrophil depletion and monocyte recruitment is sufficient to prevent adhesion formation, thus providing insight for potential clinical interventions. •Upon injury, the mesothelium recruits neutrophils to the peritoneal space, which contributes to adhesion formation.•Neutrophil recruitment and macrophage-depletion kinetics in adhesions differ from the normal innate response. [Display omitted]
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J.M.T., M.S., and N.B.F. contributed equally to this work and have the right to be listed first on all publication listings.
ISSN:2473-9529
2473-9537
DOI:10.1182/bloodadvances.2018024026