|Campbell, James - Jim|
|Shapiro ilan, David|
Submitted to: Journal of Invertebrate Pathology
Publication Type: Peer reviewed journal
Publication Acceptance Date: 5/22/2008
Publication Date: 8/15/2008
Publication URL: http://hdl.handle.net/10113/27649
Citation: Christen, J.M., Campbell, J.F., Zurek, L., Shapiro Ilan, D.I., Lewis, E.E., Ramaswamy, S.B. 2008. Role of symbiotic and non-symbiotic bacteria in carbon dioxide production from hosts infected with Steinermena riobrave. Journal of Invertebrate Pathology. 99(1): 35-42. Doi: http://dx.doi.org/10.1016/j.jip.2008.05.008. Interpretive Summary: Entomopathogenic nematodes in the family Steinernematidae and their mutualistic bacteria (Xenorhabdus sp.) are biological control agents of insects, but how they respond to host insects that are already infected is not well understood even though this has an important influence on efficacy. We hypothesized that growth of the nematode’s mutualistic bacteria in the insect host may contribute to the production of cues, specifically carbon dioxide (CO2), that could be used by the nematode infective stage (IJ) in evaluating potential hosts for infection. We characterized the population growth characteristics of both the mutualistic bacteria and other species of non-mutualistic bacteria in infected hosts. One insect host (Galleria mellonella larvae) infected by nematodes and bacteria together produced two distinct peaks of CO2, whereas hosts injected with bacteria alone showed only one peak of CO2. Another insect host (Tenebrio molitor larvae) infected with nematodes and bacteria together exhibited only one peak of CO2 production, with one peak also occurring in hosts infected with bacteria alone. These results indicate a relationship between bacterial growth and the first peak of CO2 in both host species, but not for the second peak exhibited in G. mellonella. Understanding these changes in cues and their causes can lead to a better understanding of why IJs select certain hosts over others and lead to more effective use as biological control agents.
Technical Abstract: Entomopathogenic nematodes of the family Steinernematidae and their mutualistic bacteria (Xenorhabdus cabanillasii) are lethal endoparasites of insects. We hypothesized that growth of the nematode’s mutualistic bacteria in the insect host may contribute to the production of cues used by the infective juveniles (IJ) in responding to potential hosts for infection. Specifically, we tested if patterns of bacterial growth could explain differences in CO2 production over the course of host infection. Growth of X. cabanillasii isolated from Steinernema riobrave exhibited the characteristic exponential and stationary growth phases. Other non-nematode symbiotic bacteria were also in infected hosts and exhibited similar growth patterns to Xenorhabdus. Galleria mellonella larvae infected with S. riobrave produced two distinct peaks of CO2 occurring at 25.6-36 h and 105-161 h post-infection, whereas larvae injected with Xenorhabdus alone showed only one peak of CO2, occurring at 22.8-36.2 h post-injection. Tenebrio molitor larvae infected with S. riobrave or injected with bacteria alone exhibited only one peak of CO2 production, which occurred later during S. riobrave infection (41.4-64.4 h post-infection compared to 20.4-35.9 h post-injection). These results indicate a relationship between bacterial growth and the first peak of CO2 in both host species, but not for the second peak exhibited in G. mellonella.