Peer-reviewed veterinary case report
Myostatin levels drop with exercise and age in Alaskan sled dogs
By Shiomitsu, Sayaka et al.·Published in Journal of the American Veterinary Medical Association·2022·Department of Clinical Sciences, United States·View original on PubMed →
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Original publication title: Serum myostatin decreases in exercising and aging Alaskan sled dogs, while growth and differentiation factor 15 remains unaltered.
- Species:
- dog
Plain-English summary
A group of Alaskan Huskies participating in a long sled dog race showed a significant drop in a protein called myostatin, which is linked to muscle growth, before and after the race. The dogs had higher myostatin levels before racing, but these levels decreased dramatically during the race and were lower in older retired dogs. Interestingly, the levels of another protein, GDF-15, did not change significantly in any of the dogs, regardless of their age or racing status. This suggests that while exercise impacts myostatin levels, it doesn't seem to affect GDF-15, and age plays a role in myostatin levels as well.
People also search for: Alaskan Husky exercise effects · myostatin in dogs · sled dog racing health · aging in Alaskan Huskies · protein levels in exercising dogs
Abstract
OBJECTIVES: To evaluate the serum concentrations of myostatin and growth and differentiation factor 15 (GDF-15) in Alaskan Husky sled dogs participating in a 350-mile (560-km) race and in an older population, and to examine correlations between changes in serum concentrations and body condition scores (BCSs). ANIMALS: Dogs were recruited from 3 teams of Alaskan Huskies participating in the Alaskan-Yukon Quest sled-dog race and retirees from a research sled-dog colony. PROCEDURES: Serum samples and BCSs were collected prior to racing, midway, and postrace; and in an older cohort (13 to 14 years). Myostatin and GDF-15 concentrations were assessed using commercially available ELISA kits. RESULTS: The median myostatin prerace concentration (9,519 pg/mL) was significantly greater than the mid- and postrace concentrations (7,709 pg/mL and 3,247 pg/mL, respectively). The prerace concentration was also significantly greater than that of the retired sled group dogs at 6,134 pg/mL. GDF-15 median serum concentrations did not change significantly across any racing time point (approx 350 pg/mL) or in the older cohort. No significant correlations were observed between changes in BCS and myostatin or GDF-15 concentrations. CLINICAL RELEVANCE: Serum myostatin decreases dramatically, yet no correlations to loss of BCS could be found. Myostatin signaling may be involved in maintaining hypertrophic signaling during intense exercise. Neither racing distance nor geriatric/retirement status appears to have an effect on serum GDF-15 concentration. Myostatin was less in the older, retired sled dogs compared to the younger racing cohort. Such differences highlight the roles that fitness level and age play regarding myostatin levels.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/36173760/