Thermal injury initiates pervasive fibrogenesis in skeletal muscle.

Szczegóły
Abstrakt

Tytuł:: Thermal injury initiates pervasive fibrogenesis in skeletal muscle.
Autorzy:: Brightwell CR; Cell Biology Graduate Program, University of Texas Medical Branch, Galveston, Texas.; Department of Athletic Training and Clinical Nutrition, University of Kentucky, Lexington, Kentucky.; Center for Muscle Biology, University of Kentucky, Lexington, Kentucky.
Hanson ME; Department of Nutrition and Metabolism, University of Texas Medical Branch, Galveston, Texas.
El Ayadi A; Department of Surgery, University of Texas Medical Branch, Galveston, Texas.; Shriners Hospitals for Children, Galveston, Texas.
Prasai A; Department of Surgery, University of Texas Medical Branch, Galveston, Texas.; Shriners Hospitals for Children, Galveston, Texas.
Wang Y; Department of Surgery, University of Texas Medical Branch, Galveston, Texas.; Shriners Hospitals for Children, Galveston, Texas.
Finnerty CC; Department of Surgery, University of Texas Medical Branch, Galveston, Texas.; Shriners Hospitals for Children, Galveston, Texas.
Fry CS; Department of Athletic Training and Clinical Nutrition, University of Kentucky, Lexington, Kentucky.; Center for Muscle Biology, University of Kentucky, Lexington, Kentucky.; Shriners Hospitals for Children, Galveston, Texas.
Źródło:: American journal of physiology. Cell physiology [Am J Physiol Cell Physiol] 2020 Aug 01; Vol. 319 (2), pp. C277-C287. Date of Electronic Publication: 2020 May 20.
Typ publikacji:: Journal Article; Research Support, N.I.H., Extramural; Research Support, Non-U.S. Gov't
Język:: English
Imprint Name(s):: Original Publication: Bethesda, Md. : American Physiological Society,
MeSH Terms:: Burns/*genetics
Fibrosis/*genetics
Muscle, Skeletal/*metabolism
Myostatin/*genetics
Transforming Growth Factor beta/*genetics
Animals ; Burns/metabolism ; Burns/pathology ; Cell Proliferation/genetics ; Collagen/genetics ; Extracellular Matrix/genetics ; Extracellular Matrix/metabolism ; Fibroblasts/metabolism ; Fibroblasts/pathology ; Fibrosis/metabolism ; Fibrosis/pathology ; Gene Expression Regulation/genetics ; Humans ; Mice ; Muscle Fibers, Skeletal/metabolism ; Muscle Fibers, Skeletal/pathology ; Muscle, Skeletal/injuries ; Muscle, Skeletal/pathology ; Signal Transduction/genetics
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Grant Information:: R01 GM112936 United States GM NIGMS NIH HHS; AG000270 International HHS | NIH | National Institute on Aging (U.S. National Institute on Aging); T32 AG000270 United States AG NIA NIH HHS; GM112936 International HHS | NIH | National Institute of General Medical Sciences (NIGMS); AR072061 International HHS | NIH | National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS); R01 AR072061 United States AR NIAMS NIH HHS
Contributed Indexing:: Keywords: burn; extracellular matrix; fibrogenic/adipogenic; muscle fibrosis; myostatin; progenitor cell
Substance Nomenclature:: 0 (Mstn protein, mouse)
0 (Myostatin)
0 (Transforming Growth Factor beta)
9007-34-5 (Collagen)
Entry Date(s):: Date Created: 20200521 Date Completed: 20201022 Latest Revision: 20210802
Update Code:: 20240105
PubMed Central ID:: PMC7500217
DOI:: 10.1152/ajpcell.00337.2019
PMID:: 32432932
: Czasopismo naukowe

Severe burn injury induces a myriad of deleterious effects to skeletal muscle, resulting in impaired function and delayed recovery. Following burn, catabolic signaling and myofiber atrophy are key fiber-intrinsic determinants of weakness; less well understood are alterations in the interstitial environment surrounding myofibers. Muscle quality, specifically alterations in the extracellular matrix (ECM), modulates force transmission and strength. We sought to determine the impact of severe thermal injury on adaptation to the muscle ECM and quantify muscle fibrotic burden. After a 30% total body surface area dorsal burn, spinotrapezius muscle was harvested from mice at 7 (7d, n = 5), 14 (14d, n = 4), and 21 days (21d, n = 4), and a sham control group was also examined (Sham, n = 4). Expression of transforming growth factor-β (TGFβ), myostatin, and downstream effectors and proteases involved in fibrosis and collagen remodeling were measured by immunoblotting, and immunohistochemical and biochemical analyses assessed fibrogenic cell abundance and collagen deposition. Myostatin signaling increased progressively through 21 days postburn alongside fibrogenic/adipogenic progenitor cell expansion, with abundance peaking at 14 days postburn. Postburn, elevated expression of tissue inhibitor of matrix metalloproteinase 1 supported collagen remodeling resulting in a net accumulation of muscle collagen content. Collagen accumulation peaked at 14 days postburn but remained elevated through 21 days postburn, demonstrating minimal resolution of burn-induced fibrosis. These findings highlight a progressive upregulation of fibrogenic processes following burn injury, eliciting a fibrotic muscle phenotype that hinders regenerative capacity and is not resolved with 21 days of recovery.

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