Title

Performance of Repetitive Tasks Induces Decreased Grip Strength and Increased Fibrogenic Proteins in Skeletal Muscle: Role of Force and Inflammation

Authors

Samir M. Abdelmagid, Department of Surgery, Plastic and Reconstructive Division, Children's Hospital of Philadelphia
Ann E. Barr, Pacific UniversityFollow
Mario Rico, Sol Sherry Thrombosis Research Center, Temple University School of Medicine
Mamta Amin, Department of Anatomy and Cell Biology, Temple University School of Medicine
Judith Litvin, Department of Anatomy and Cell Biology/Musculoskeletal Research Group, Temple University School of Medicine
Steven N. Popoff, Department of Anatomy and Cell Biology/Musculoskeletal Research Group, Temple University School of Medicine
Fayez F. Safadi, Musculoskeletal Research Group, Temple University School of Medicine & Department of Anatomy and Neurobiology, Northeast Ohio Medical University
Mary F. Barbe, Department of Anatomy and Cell Biology/Musculoskeletal Research Group, Temple University School of Medicine

Document Type

Article

Publication Date

2012

Journal

PLoS ONE

Rights

This work is licensed under a Creative Commons Attribution 3.0 License.

Description

Background

This study elucidates exposure-response relationships between performance of repetitive tasks, grip strength declines, and fibrogenic-related protein changes in muscles, and their link to inflammation. Specifically, we examined forearm flexor digitorum muscles for changes in connective tissue growth factor (CTGF; a matrix protein associated with fibrosis), collagen type I (Col1; a matrix component), and transforming growth factor beta 1 (TGFB1; an upstream modulator of CTGF and collagen), in rats performing one of two repetitive tasks, with or without anti-inflammatory drugs.

Methodology/Results

To examine the roles of force versus repetition, rats performed either a high repetition negligible force food retrieval task (HRNF), or a high repetition high force handle-pulling task (HRHF), for up to 9 weeks, with results compared to trained only (TR-NF or TR-HF) and normal control rats. Grip strength declined with both tasks, with the greatest declines in 9-week HRHF rats. Quantitative PCR (qPCR) analyses of HRNF muscles showed increased expression of Col1 in weeks 3–9, and CTGF in weeks 6 and 9. Immunohistochemistry confirmed PCR results, and also showed greater increases of CTGF and collagen matrix in 9-week HRHF rats than 9-week HRNF rats. ELISA, and immunohistochemistry revealed greater increases of TGFB1 in TR-HF and 6-week HRHF, compared to 6-week HRNF rats. To examine the role of inflammation, results from 6-week HRHF rats were compared to rats receiving ibuprofen or anti-TNF-α treatment in HRHF weeks 4–6. Both treatments attenuated HRHF-induced increases in CTGF and fibrosis by 6 weeks of task performance. Ibuprofen attenuated TGFB1 increases and grip strength declines, matching our prior results with anti-TNFα.

Conclusions/Significance

Performance of highly repetitive tasks was associated with force-dependent declines in grip strength and increased fibrogenic-related proteins in flexor digitorum muscles. These changes were attenuated, at least short-term, by anti-inflammatory treatments.

Recommended Citation

Abdelmagid SM, Barr AE, Rico M, Amin M, Litvin J, et al. (2012) Performance of Repetitive Tasks Induces Decreased Grip Strength and Increased Fibrogenic Proteins in Skeletal Muscle: Role of Force and Inflammation. PLoS ONE 7(5): e38359. doi:10.1371/journal.pone.0038359