Journal
ANATOMICAL RECORD-ADVANCES IN INTEGRATIVE ANATOMY AND EVOLUTIONARY BIOLOGY
Volume 305, Issue 12, Pages 3463-3471Publisher
WILEY
DOI: 10.1002/ar.24924
Keywords
metabolism; mitochondria; oxidative stress; skeletal muscle; wildlife
Categories
Funding
- South African National Research Foundation
- Tim and Marilyn Noakes Sports Science Postdoctoral Fellowship
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This study analyzed the skeletal muscle physiology and metabolism of a female Temminck's ground pangolin and found that it primarily relies on oxidative derived energy from fats and carbohydrates, indicating a high endurance capability compared to other wild animals and human endurance athletes. This research provides valuable insights for understanding and conserving this endangered species.
The pangolin (Manidae family) is the world's most trafficked animal, yet very little is known about its physiology and metabolism primarily due to its inconspicuous and solitary nature. Skeletal muscle samples from the Vastus lateralis were collected postmortem from a single female Temminck's ground pangolin (Manis temminckii). Samples were analyzed for fiber type composition, fiber size and myosin heavy chain isoform content. The oxidative and glycolytic metabolic capacity was determined through citrate synthase, 3-hydroxyacetyl co A dehydrogenase, creatine kinase, lactate dehydrogenase, phosphofructokinase and glycogen phosphorylase enzyme activities. Lastly, antioxidant capacity was determined through superoxide dismutase and catalase enzyme activities, and the total antioxidant capacity. The pangolin metabolic profile was then compared to other endurance and nonendurance mammals, in which data were standardized relative to human endurance athletes in order to provide context. Slow twitch type I fibers, rich in mitochondria were the predominant fiber type within the pangolin indicating a reliance on oxidative derived energy from fats and carbohydrates. This suggests that the pangolin has a high endurance capability when compared to other wild animals and human endurance athletes. This is the first study to investigate the skeletal muscle physiology and metabolism of any pangolin species, in an attempt to further understand this endangered animal and aid with conservation efforts.
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