Changes in immune effort of male field crickets infested with mobile parasitoid larvae

Nathan W. Bailey; Marlene Zuk

doi:10.1016/j.jinsphys.2007.08.009

Changes in immune effort of male field crickets infested with mobile parasitoid larvae

Nathan W. Bailey, Marlene Zuk

Administration (CBS)

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30 Scopus citations

Abstract

Insect immune defenses include encapsulation and the production of lysozymes and phenoloxidase. However, the highly mobile larvae of parasitoid Ormiine flies (Ormia ochracea) can evade initial encapsulation, and instead co-opt host immune responses to form a critical respiratory funnel connecting them to outside oxygen. Here we ask how field crickets (Teleogryllus oceanicus) respond immunologically to O. ochracea infestation. Host encapsulation and phenoloxidase play important roles in the formation of the respiratory funnel, so we hypothesized that decreases in these immune parameters during infestation may interfere with respiratory funnel formation and increase the likelihood of larval death. Encapsulation ability decreased after infestation with O. ochracea larvae, but phenoloxidase activity increased in both infested crickets and controls, whereas lysozyme activity decreased in infested crickets but remained constant in controls. Hosts with fewer established larvae showed greater decreases in encapsulation, and phenoloxidase activity was positively associated with the degree of larval respiratory funnel melanization. Differences between phenoloxidase and lysozyme activity in infested crickets are consistent with a trade-off within the immune system of hosts, and our results demonstrate the effects of a prior immune challenge on the ability to mount a subsequent response.

Original language	English (US)
Pages (from-to)	96-104
Number of pages	9
Journal	Journal of Insect Physiology
Volume	54
Issue number	1
DOIs	https://doi.org/10.1016/j.jinsphys.2007.08.009
State	Published - Jan 2008

Bibliographical note

Funding Information:
Funding for this research was provided by grants from the National Science Foundation and the UCR Academic Senate to M. Zuk. R. Sauvajot and W. Wagner were a great help with obtaining permits and collecting flies, and S. Adamo gave valuable advice on the immune assays. We are particularly grateful to J. Wang for his help with the artificial infestations, and to K. Farooq for assisting with cricket maintenance. Two anonymous reviewers provided helpful comments on the manuscript. Last but not least, we thank C. Hayashi for use of her -80 freezer.

Keywords

Insect immunity
Lysozyme
Ormia ochracea
Parasitoid
Phenoloxidase
Respiratory funnel
Teleogryllus oceanicus

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title = "Changes in immune effort of male field crickets infested with mobile parasitoid larvae",

abstract = "Insect immune defenses include encapsulation and the production of lysozymes and phenoloxidase. However, the highly mobile larvae of parasitoid Ormiine flies (Ormia ochracea) can evade initial encapsulation, and instead co-opt host immune responses to form a critical respiratory funnel connecting them to outside oxygen. Here we ask how field crickets (Teleogryllus oceanicus) respond immunologically to O. ochracea infestation. Host encapsulation and phenoloxidase play important roles in the formation of the respiratory funnel, so we hypothesized that decreases in these immune parameters during infestation may interfere with respiratory funnel formation and increase the likelihood of larval death. Encapsulation ability decreased after infestation with O. ochracea larvae, but phenoloxidase activity increased in both infested crickets and controls, whereas lysozyme activity decreased in infested crickets but remained constant in controls. Hosts with fewer established larvae showed greater decreases in encapsulation, and phenoloxidase activity was positively associated with the degree of larval respiratory funnel melanization. Differences between phenoloxidase and lysozyme activity in infested crickets are consistent with a trade-off within the immune system of hosts, and our results demonstrate the effects of a prior immune challenge on the ability to mount a subsequent response.",

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Changes in immune effort of male field crickets infested with mobile parasitoid larvae

Abstract

Bibliographical note

Keywords

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