The double‐edged sword of immune defence and damage control: do food availability and immune challenge alter the balance?

Stahlschmidt, Zachary R.; Acker, Madison; Kovalko, Ilya; Adamo, Shelley A.

doi:10.1111/1365-2435.12454

Cited by 29 publications

(18 citation statements)

References 54 publications

(117 reference statements)

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“…For example, immune challenge affects wing spot size and oxidative stress impacts wing spot colour. Given that the immune response and oxidative stress are interconnected mechanisms (Costantini & Møller, ; Stahlschmidt, Acker, Kovalko, & Adamo, ), the interplay between immunity, oxidative status and SSC development should be further examined (Contreras‐Garduño & Canales‐Lazcano, ).…”

Section: Discussionmentioning

confidence: 99%

Sexual signals reveal males’ oxidative stress defences: Testing this hypothesis in an invertebrate

et al. 2018

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The hypothesis that sexual traits reveal the oxidative stress resistance of their bearers has been widely tested in vertebrates but remains unexplored in invertebrates. Here, Hetaerina americana was used to test whether oxidative stress defences are advertised by male wing spot size and colour (a male sexual trait). To this end, we investigated (1) whether oxidative stress reduced survival, (2) whether wing spot size revealed males’ antioxidant defences and (3) how wing spot size and colour were affected by oxidative stress. We elevated oxidative stress by injecting adult males with paraquat (PQ, a compound that favours the production of free radicals) and then examined how this affected male survival and wing spot size. We then related the expression of wing spot size to indicators of oxidative stress—hydrogen peroxide (H2O2) and total antioxidant capacity (TAC), super oxide dismutase (SOD) and catalase (CAT)—in adult males (whose wing spot is fixed) injected with PQ. In teneral males, whose wing spots are still forming, we compared wing spot size, colour (red and yellow chroma) and brightness in individuals injected with PQ or water as a control. Oxidative stress reduced the survival of adult and teneral males. While the H2O2 and TAC markers of antioxidant defences were positively correlated with wing spot size, there was no correlation with CAT and a negative correlation with SOD. In teneral males, PQ increased the yellow chroma and brightness of wing spots, but did not affect spot size or red chroma. Our results highlight the importance of measuring different markers as indicators of male oxidative stress defences, and that the sexual signals of invertebrates may reveal the oxidative stress status of their bearers. A http://onlinelibrary.wiley.com/doi/10.1111/1365-2435.13051/suppinfo is available for this article.

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Section: Discussionmentioning

confidence: 99%

Sexual signals reveal males’ oxidative stress defences: Testing this hypothesis in an invertebrate

et al. 2018

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“…Immune defence can be affected by many extrinsic factors, such as temperature (Martin, Hopkins, Mydlarz, & Rohr, ; Thomas & Blanford, ), resource level (Stahlschmidt, Acker, Kovalko, & Adamo, ) and pollutants (Martin et al., ). Heat waves may critically impair invertebrate immunocompetence (e.g.…”

Section: Discussionmentioning

confidence: 99%

“…Immune defence can be affected by many extrinsic factors, such as temperature (Martin, Hopkins, Mydlarz, & Rohr, 2010;Thomas & Blanford, 2003), resource level (Stahlschmidt, Acker, Kovalko, & Adamo, 2015) and pollutants (Martin et al, 2010 (Minchella, 1984) and/or fecundity (Lafferty & Kuris, 1999;Minchella, 1984), the observed responses to high temperature may reduce the residual reproductive value of individuals if heat waves take place, for instance, during epidemics.…”

Section: Immune Defencementioning

confidence: 99%

Resilience to heat waves in the aquatic snail Lymnaea stagnalis: Additive and interactive effects with micropollutants

et al. 2017

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Multiple anthropogenic changes, such as climate change and chemical pollution, threaten the persistence of natural populations. Yet, their potential additive and interactive effects on organismal performance and fitness are poorly understood, thus limiting our ability to predict the effects of the global change. We conducted a laboratory experiment to study the singular and combined effects of experimental heat waves and micropollutants (i.e. low‐concentration toxicants; henceforth micropollutants [MPs]) on the freshwater snail, Lymnaea stagnalis. To comprehensively understand physiological and ecological consequences of stress, we studied a broad range of traits from respiration rate to feeding performance and growth. We also determined traits contributing to fitness and immune responses, as these are key traits in determining both organismal fitness and interspecific (e.g. host–parasite) interactions. We tested whether a constant exposure to MPs affects the ability of snails to tolerate heat waves (8 days of 23.5°C), and subsequently to recover from them, and whether the effects are immediate or delayed. We found strong immediate additive effects of both stressors on reproduction, while they synergistically increased respiration and antagonistically decreased food consumption. Moreover, these effects were transient. Although the heat wave increased metabolic rates, individuals did not increase their resource uptake. This caused an apparent imbalance in resource levels—a probable cause for the observed trade‐off between immune function and reproductive traits (i.e. phenoloxidase‐like activity decreased, while reproductive output increased). In addition, exposure to MPs led to a temporarily reduced reproductive output. Our results indicate that even short‐term heat waves and low concentrations of chemical pollution can have large, mainly additive impacts on organismal fitness (e.g. altering susceptibility to infections and reproductive output). This suggests that long‐term effects of existing stressors and heat waves need to be considered when assessing the resilience of natural populations.

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“…Although GSH is not typically thought of as part of the immune response, it plays a key role in buffering animals against both pathogen toxins (Aucoin et al, 1995) and the oxidative stress that can be generated by PO activity (Clark et al, 2010). We include it here as a likely component of 'infection tolerance' (Stahlschmidt et al, 2015). Hemolymph was deproteinated immediately after collection by centrifuging at 18,845 g for 10 min at 4°C and then adding the sample to an equal amount of metaphosphoric acid (0.1 g ml −1 , Sigma-Aldrich).…”

Section: Immune Assaysmentioning

confidence: 99%

Reconfiguration of the immune system network during food limitation in the caterpillarManduca sexta

Adamo

Davies

Easy

et al. 2016

Journal of Experimental Biology

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Dwindling resources might be expected to induce a gradual decline in immune function. However, food limitation has complex and seemingly paradoxical effects on the immune system. Examining these changes from an immune system network perspective may help illuminate the purpose of these fluctuations. We found that food limitation lowered long-term (i.e. lipid) and short-term (i.e. sugars) energy stores in the caterpillar Manduca sexta. Food limitation also: altered immune gene expression, changed the activity of key immune enzymes, depressed the concentration of a major antioxidant (glutathione), reduced resistance to oxidative stress, reduced resistance to bacteria (Grampositive and -negative bacteria) but appeared to have less effect on resistance to a fungus. These results provide evidence that food limitation led to a restructuring of the immune system network. In severely food-limited caterpillars, some immune functions were enhanced. As resources dwindled within the caterpillar, the immune response shifted its emphasis away from inducible immune defenses (i.e. those responses that are activated during an immune challenge) and increased emphasis on constitutive defenses (i.e. immune components that are produced consistently). We also found changes suggesting that the activation threshold for some immune responses (e.g. phenoloxidase) was lowered. Changes in the configuration of the immune system network will lead to different immunological strengths and vulnerabilities for the organism.

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The double‐edged sword of immune defence and damage control: do food availability and immune challenge alter the balance?

Cited by 29 publications

References 54 publications

Sexual signals reveal males’ oxidative stress defences: Testing this hypothesis in an invertebrate

Sexual signals reveal males’ oxidative stress defences: Testing this hypothesis in an invertebrate

Resilience to heat waves in the aquatic snail Lymnaea stagnalis: Additive and interactive effects with micropollutants

Reconfiguration of the immune system network during food limitation in the caterpillarManduca sexta

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