Processes acting at the level of the mitochondria have been suggested to affect the thermal limits of organisms.To determinewhether changes in mitochondrial properties could underlie shifts in thermal limits, we examined how mitochondrial properties are affected by thermal acclimation in the eurythermal killifish, Fundulus heteroclitus a species with substantial plasticity in whole-organism thermal limits.We hypothesized that thermal acclimation would result in functional changes in the mitochondria that could result in trade-offs in function during acute thermal shifts.Wemeasured the mitochondrial respiration rate (VO2) through multiple complexes of the electron transport system following thermal acclimation (to 5, 15, 33°C) and assessed maintenance of mitochondrial membrane potential (δp) and rates of reactive oxygen species (ROS) production as an estimate of costs. Acclimation to 5°C resulted in amodest compensation ofmitochondrial respiration at low temperatures, but these mitochondria were able to maintain δp with acute exposure to high temperatures, and ROS production did not differ between acclimation groups, suggesting that these increases in mitochondrial capacity do not alter mitochondrial thermal sensitivity. Acclimation to 33°C suppressed mitochondrial respiration as a result of effects on NADH dehydrogenase (complex I). These higherature acclimated fish nonetheless maintained levels of δp and ROS production similar to those of the other acclimation groups. This work demonstrates that killifish mitochondria can successfully acclimate to a wide range of temperatures without incurring major functional trade-offs during acute thermal shifts and that higherature acclimation results in a suppression of metabolism, consistent with patterns observed at the organismal level.
CITATION STYLE
Chung, D. J., & Schulte, P. M. (2015). Mechanisms and costs of mitochondrial thermal acclimation in a eurythermal killifish (Fundulus heteroclitus). Journal of Experimental Biology, 218(11), 1621–1631. https://doi.org/10.1242/jeb.120444
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