Gene expression responses over 24 h to lengthening and shortening contractions in human muscle: major changes in CSRP3, MUSTN1, SIX1, and FBXO32

Author:

Kostek Matthew C.1,Chen Yi-Wen12,Cuthbertson Daniel J.3,Shi Rongye1,Fedele Mark J.4,Esser Karyn A.45,Rennie Michael J.6

Affiliation:

1. Center for Genetic Medicine Research, Children's National Medical Center, Washington, District of Columbia

2. Department of Pediatrics, George Washington University, Washington, District of Columbia

3. Department of Medicine, Ninewells Hospital and Medical School, University of Dundee, Dundee, United Kingdom

4. School of Kinesiology, University of Illinois, Chicago, Illinois

5. Department of Physiology College of Medicine, University of Kentucky, Lexington, Kentucky

6. School of Biomedical Sciences, Graduate Entry Medical School, University of Nottingham, Derby City Hospital, United Kingdom

Abstract

Resistance training using lengthening (eccentric) contractions induces greater increases in muscle size than shortening (concentric) contractions, but the underlying molecular mechanisms are not clear. Using temporal expression profiling, we compared changes in gene expression within 24 h of an acute bout of each type of contractions conducted simultaneously in the quadriceps of different legs. Five healthy young men performed shortening contractions with one leg while the contralateral leg performed lengthening contractions. Biopsies were taken from both legs before exercise and 3, 6, and 24 h afterwards, in the fed state. Expression profiling ( n = 3) was performed using a custom-made Affymetrix MuscleChip containing probe sets of ∼3,300 known genes and expressed sequence tags expressed in skeletal muscle. We identified 51 transcripts differentially regulated between the two exercise modes. Using unsupervised hierarchical clustering, we identified four distinct clusters, three of which corresponded to unique functional categories (protein synthesis, stress response/early growth, and sarcolemmal structure). Using quantitative RT-PCR ( n = 5), we verified expression changes (lengthening/shortening) in SIX1 (3 h, −1.9-fold, P < 0.001), CSRP3 (6 h, 2.9-fold, P < 0.05), and MUSTN1 (24 h, 4.3-fold, P < 0.05). We examined whether FBXO32/atrogin-1/MAFbx, a known regulator of protein breakdown and of muscle atrophy was differentially expressed: the gene was downregulated after lengthening contractions (3 h, 2.7-fold, P < 0.05; 6 h, 3.3-fold, P < 0.05; 24 h, 2.3-fold, P < 0.05). The results suggested that lengthening and shortening contractions activated distinct molecular pathways as early as 3 h postexercise. The molecular differences might contribute to mechanisms underlying the physiological adaptations seen with training using the two modes of exercise.

Publisher

American Physiological Society

Subject

Genetics,Physiology

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