Resolvin D1 supports skeletal myofiber regeneration via actions on myeloid and muscle stem cells
James F. Markworth, … , Krishna Rao Maddipati, Susan V. Brooks
James F. Markworth, … , Krishna Rao Maddipati, Susan V. Brooks
Published August 4, 2020
Citation Information: JCI Insight. 2020;5(18):e137713. https://doi.org/10.1172/jci.insight.137713.
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Research Article Inflammation Muscle biology

Resolvin D1 supports skeletal myofiber regeneration via actions on myeloid and muscle stem cells

Abstract

Specialized proresolving mediators (SPMs) actively limit inflammation and expedite its resolution by modulating leukocyte recruitment and function. Here we profiled intramuscular lipid mediators via liquid chromatography-tandem mass spectrometry–based metabolipidomics following myofiber injury and investigated the potential role of SPMs in skeletal muscle inflammation and repair. Both proinflammatory eicosanoids and SPMs increased following myofiber damage induced by either intramuscular injection of barium chloride or synergist ablation–induced functional muscle overload. Daily systemic administration of the SPM resolvin D1 (RvD1) as an immunoresolvent limited the degree and duration of inflammation, enhanced regenerating myofiber growth, and improved recovery of muscle strength. RvD1 suppressed inflammatory cytokine expression, enhanced polymorphonuclear cell clearance, modulated the local muscle stem cell response, and polarized intramuscular macrophages to a more proregenerative subset. RvD1 had minimal direct impact on in vitro myogenesis but directly suppressed myokine production and stimulated macrophage phagocytosis, showing that SPMs can modulate both infiltrating myeloid and resident muscle cell populations. These data reveal the efficacy of immunoresolvents as a novel alternative to classical antiinflammatory interventions in the management of muscle injuries to modulate inflammation while stimulating tissue repair.

Authors

James F. Markworth, Lemuel A. Brown, Eunice Lim, Carolyn Floyd, Jacqueline Larouche, Jesus A. Castor-Macias, Kristoffer B. Sugg, Dylan C. Sarver, Peter C.D. Macpherson, Carol Davis, Carlos A. Aguilar, Krishna Rao Maddipati, Susan V. Brooks

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Figure 2

Muscle lipid mediator responses to functional plantaris overload.

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Muscle lipid mediator responses to functional plantaris overload. (A) Sp...
(A) Sprague-Dawley rats underwent bilateral functional overload of the plantaris muscle via synergist ablation surgery. Plantaris muscles from age- and sex-matched rats served as nonsurgical controls. Muscle cross sections were stained for H&E, muscle fiber type, or inflammatory cells, including PMNs (HIS48), ED1 monocyte/macrophages (CD68), and ED2 macrophages (CD163). Type IIx fibers remain unstained (black). Scale bars: 200 μm (top, bottom), 400 μm (middle). (B and C) Absolute and relative plantaris muscle mass following functional overload. (D) Frequency distribution of cross sectional area (CSA) of total muscle fiber population in plantaris muscles of control and day 28 post–synergist ablation rats. Inset shows the mean myofiber CSA. (E) Mean myofiber CSA of split by respective muscle fiber type. (F) Quantification of intramuscular PMNs (HIS48+ cells), inflammatory ED1 macrophages (CD68+ cells), and resident/M2-like ED2 macrophages (CD163+ cells). (G) Whole-muscle mRNA expression of 5-LOX, 12-LOX, and 12/15-LOX. (H and I) Muscle mRNA expression of immune cell markers, cytokines, and markers of macrophage activation state. Gene expression was normalized to Gapdh. (J) Heatmap of the top 30 muscle lipid mediators (based on PLS-DA VIP score) modulated by functional overload as determined by LC-MS/MS analysis. Bars show the mean ± SEM of 8–12 plantaris muscles from 4–6 rats per group. Dots represent data from each muscle. P values were determined 1-way ANOVA followed by Holm-Šidák post hoc tests with nonsurgery rats serving as a control group (B, C, and EI) or by 2-tailed unpaired t tests (D).