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Itaconate-producing neutrophils regulate local and systemic inflammation following trauma
Janna L. Crossley, Sonya Ostashevskaya-Gohstand, Stefano Comazzetto, Jessica S. Hook, Lei Guo, Neda Vishlaghi, Conan Juan, Lin Xu, Alexander R. Horswill, Gerta Hoxhaj, Jessica G. Moreland, Robert J. Tower, Benjamin Levi
Janna L. Crossley, Sonya Ostashevskaya-Gohstand, Stefano Comazzetto, Jessica S. Hook, Lei Guo, Neda Vishlaghi, Conan Juan, Lin Xu, Alexander R. Horswill, Gerta Hoxhaj, Jessica G. Moreland, Robert J. Tower, Benjamin Levi
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Research Article Immunology Inflammation

Itaconate-producing neutrophils regulate local and systemic inflammation following trauma

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Abstract

Modulation of the immune response to initiate and halt the inflammatory process occurs both at the site of injury as well as systemically. Due to the evolving role of cellular metabolism in regulating cell fate and function, tendon injuries that undergo normal and aberrant repair were evaluated by metabolic profiling to determine its impact on healing outcomes. Metabolomics revealed an increasing abundance of the immunomodulatory metabolite itaconate within the injury site. Subsequent single-cell RNA-Seq and molecular and metabolomic validation identified a highly mature neutrophil subtype, not macrophages, as the primary producers of itaconate following trauma. These mature itaconate-producing neutrophils were highly inflammatory, producing cytokines that promote local injury fibrosis before cycling back to the bone marrow. In the bone marrow, itaconate was shown to alter hematopoiesis, skewing progenitor cells down myeloid lineages, thereby regulating systemic inflammation. Therapeutically, exogenous itaconate was found to reduce injury-site inflammation, promoting tenogenic differentiation and impairing aberrant vascularization with disease-ameliorating effects. These results present an intriguing role for cycling neutrophils as a sensor of inflammation induced by injury — potentially regulating immune cell production in the bone marrow through delivery of endogenously produced itaconate — and demonstrate a therapeutic potential for exogenous itaconate following tendon injury

Authors

Janna L. Crossley, Sonya Ostashevskaya-Gohstand, Stefano Comazzetto, Jessica S. Hook, Lei Guo, Neda Vishlaghi, Conan Juan, Lin Xu, Alexander R. Horswill, Gerta Hoxhaj, Jessica G. Moreland, Robert J. Tower, Benjamin Levi

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Figure 2

Itaconate is produced by a subset of highly mature neutrophils within the HO injury site.

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Itaconate is produced by a subset of highly mature neutrophils within th...
(A) UMAP of scRNA-Seq data obtained from the tendon injury area 7 days after burn/tenotomy (62). Dashed box denotes neutrophil cluster. (B) Feature plot of Acod1 expression. (C) Feature plot of the neutrophil marker S100a8. (D) RNAscope of the injured tendon region stained for Acod1, as well as for neutrophils (S100a8) and macrophages (Aif1). Scale bar: 50 µm. (E) UMAP of scRNA-Seq data obtained from the bone marrow, blood, and tendon injury site after burn/tenotomy surgery. (F) Feature plot of the neutrophil marker S100a8. (G). Feature plot of Acod1. (H) UMAP of subclustered neutrophils. (I) Expression of Acod1 and markers of early (Elane), middle (Ltf), and late-stage (Cebpb) neutrophils. (J) Ridge plot of neutrophil maturation clustered by physiological site of origin. (K) Expression of Acod1 in neutrophils clustered by site of origin. (L) Expression of Acod1 as well as neutrophil (S100a8) and macrophage (Aif1) markers in cells fractionated into neutrophils, macrophages, and “rest” from the bone marrow, blood, and tendon injury site. n = 4/site. (M) Levels of itaconate in neutrophils, macrophages, and “rest” isolated from the blood or tendon injury site. (N) Trajectory analysis of neutrophils colored by neutrophil subcluster (region i), site of origin (region ii), or pseudotime (region iii). (O) Expression pattern of early (Elane), middle (Ltf), and late-stage (Cebpb) neutrophil markers, overall maturation score, and Acod1 expression across neutrophil trajectory pseudotime. Data are shown as mean ± SD. *P < 0.05, **P < 0.01, ***P < 0.001, determined by 2-way ANOVA followed by Tukey’s multiple-comparison test, relative to tendon injury site “rest” unless otherwise noted.

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