Costs and benefits of sublethal Drosophila C virus infection. Gupta, V., Stewart, C. O., Rund, S. S. C., Monteith, K., & Vale, P. F. Journal of Evolutionary Biology, 30(7):1325–1335, 2017. Paper doi abstract bibtex 15 downloads Viruses are major evolutionary drivers of insect immune systems. Much of our knowledge of insect immune responses derives from experimental infections using the fruit fly Drosophila melanogaster. Most experiments, however, employ lethal pathogen doses through septic injury, frequently overwhelming host physiology. While this approach has revealed several immune mechanisms, it is less informative about the fitness costs hosts may experience during infection in the wild. Using both systemic and oral infection routes, we find that even apparently benign, sublethal infections with the horizontally transmitted Drosophila C virus (DCV) can cause significant physiological and behavioural morbidity that is relevant for host fitness. We describe DCV-induced effects on fly reproductive output, digestive health and locomotor activity, and we find that viral morbidity varies according to the concentration of pathogen inoculum, host genetic background and sex. Notably, sublethal DCV infection resulted in a significant increase in fly reproduction, but this effect depended on host genotype. We discuss the relevance of sublethal morbidity for Drosophila ecology and evolution, and more broadly, we remark on the implications of deleterious and beneficial infections for the evolution of insect immunity.
@article{gupta_costs_2017,
title = {Costs and benefits of sublethal {Drosophila} {C} virus infection},
volume = {30},
copyright = {All rights reserved},
issn = {1420-9101},
url = {https://onlinelibrary.wiley.com/doi/epdf/10.1111/jeb.13096},
doi = {10.1111/jeb.13096},
abstract = {Viruses are major evolutionary drivers of insect immune systems. Much of our knowledge of insect immune responses derives from experimental infections using the fruit fly Drosophila melanogaster. Most experiments, however, employ lethal pathogen doses through septic injury, frequently overwhelming host physiology. While this approach has revealed several immune mechanisms, it is less informative about the fitness costs hosts may experience during infection in the wild. Using both systemic and oral infection routes, we find that even apparently benign, sublethal infections with the horizontally transmitted Drosophila C virus (DCV) can cause significant physiological and behavioural morbidity that is relevant for host fitness. We describe DCV-induced effects on fly reproductive output, digestive health and locomotor activity, and we find that viral morbidity varies according to the concentration of pathogen inoculum, host genetic background and sex. Notably, sublethal DCV infection resulted in a significant increase in fly reproduction, but this effect depended on host genotype. We discuss the relevance of sublethal morbidity for Drosophila ecology and evolution, and more broadly, we remark on the implications of deleterious and beneficial infections for the evolution of insect immunity.},
language = {eng},
number = {7},
journal = {Journal of Evolutionary Biology},
author = {Gupta, V. and Stewart, C. O. and Rund, S. S. C. and Monteith, K. and Vale, P. F.},
year = {2017},
pages = {1325--1335},
}
Downloads: 15
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