Muscle plasticity of Inuit sled dogs in Greenland

This study examined flexible adjustments of skeletal muscle size, fiber structure, and capillarization in Inuit sled dogs responding to seasonal changes in temperature, exercise and food supply. Inuit dogs pull sleds in winter and are fed regularly throughout this working season. In summer, they rem...

Full description

Bibliographic Details
Published in:Journal of Experimental Biology
Main Authors: Gerth N., Sum S., Jackson S., Starck J.M.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2009
Subjects:
acclimatization
animal
animal experiment
animal food
animal husbandry
article
body size
comparative study
dog
echography
Greenland
histology
lipid metabolism
male
mitochondrion
nutritional value
physiology
sarcomere
season
skeletal muscle
temperature
ultrastructure
Animal Feed
Animals
Dogs
Mitochondria
Muscle Fibers
Skeletal
Muscle
Nutritive Value
Physical Conditioning
Sarcomeres
Seasons
Animalia
Canis familiaris
Qaanaaq
Qeqertarsuaq
inuit
Online Access:http://hdl.handle.net/10019.1/12944
https://doi.org/10.1242/jeb.028324
Description
Summary:This study examined flexible adjustments of skeletal muscle size, fiber structure, and capillarization in Inuit sled dogs responding to seasonal changes in temperature, exercise and food supply. Inuit dogs pull sleds in winter and are fed regularly throughout this working season. In summer, they remain chained to rocks without exercise, receiving food intermittently and often fasting for several days. We studied two dog teams in Northern Greenland (Qaanaaq) where dogs are still draught animals vital to Inuit hunters, and one dog team in Western Greenland (Qeqertarsuaq) where this traditional role has been lost. Northern Greenland dogs receive more and higher quality food than those in Western Greenland. We used ultrasonography for repeated muscle size measurements on the same individuals, and transmission electron microscopy on micro-biopsies for summer-winter comparisons of muscle histology, also within individuals. At both study sites, dogs' muscles were significantly thinner in summer than in winter - atrophy attributable to reduced fiber diameter. Sarcomeres from West Greenland dogs showed serious myofilament depletion and expansion of the sarcoplasmatic space between myofibrils during summer. At both study sites, summer samples showed fewer interfibrillar and subsarcolemmal mitochondria, and fewer lipid droplets between myofibrils, than did winter samples. In summer, capillary density was higher and inter-capillary distance smaller than in winter, but the capillaryto-fiber-ratio and number of capillaries associated with single myofibers were constant. Increased capillary density was probably a by-product of differential tissue responses to condition changes rather than a functional adaptation, because thinning of muscle fibers in summer was not accompanied by reduction in the capillary network. Thus, skeletal muscle of Inuit dogs responds flexibly to changes in functional demands. This flexibility is based on differential changes in functional components: mitochondrial numbers, lipid droplet size, and the ...

Similar Items