Evidence of anticipatory immune and hormonal responses to predation risk in an echinoderm

Hamel, Jean‐François; Jobson, Sara; Caulier, Guillaume; Mercier, Annie

doi:10.1038/s41598-021-89805-0

Cited by 20 publications

(16 citation statements)

References 60 publications

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“…For instance, both exposure to air and lower salinities triggered an increase in phagocytes similar to results presented by Caulier et al (2020) after injection of foreign particles and following trawl collection. Phagocyte counts also aligned with the cellular reaction reported by Hamel et al (2021) who exposed C. frondosa to the predatory sea star Solaster endeca. Phagocytes were previously described as immune cells involved in phagocytosis of pathogens and in the release of humoral agents (Beck and Habicht, 1996;Rinkevich and Müller, 1996;Xue et al, 2015), suggesting that a form of internal damage occurred in sea cucumbers exposed to the most severe stressors in the present study.…”

Section: Discussionsupporting

confidence: 76%

“…While drawing fluid across the body wall using a syringe has commonly been used (e.g., Fontaine and Lambert, 1977;Galimany et al, 2018;Hou et al, 2019), this blind technique does not guarantee that only coelomic fluid is sampled because the respiratory tree, intestine, gonad, and hydrovascular system can be accidentally punctured during the process. On the other hand, the PV has not only been shown to provide a suitable source of coelomocytes and their aggregates for quantitative assessments (Li et al, 2019;Caulier et al, 2020;Hamel et al, 2021), but it has two major advantages: (i) it ensures the collection of fluid holding uncontaminated coelomocytes and aggregates, and (ii) it standardizes the origin and volume of samples across individuals, for increased reproducibility. The whole PV was emptied into a 25 mL Falcon tube to record fluid volume.…”

Section: Cellular Markers (Free and Aggregated Coelomocytes)mentioning

confidence: 99%

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Cellular, Hormonal, and Behavioral Responses of the Holothuroid Cucumaria frondosa to Environmental Stressors

Jobson

Hamel²,

Hughes

et al. 2021

Front. Mar. Sci.

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Holothuroids (sea cucumbers) are one of the most ubiquitous groups of benthic animals found across diverse marine ecosystems. As echinoderms, they also occupy an important place in the evolutionary hierarchy, sitting close to vertebrates in the deuterostome clade, making them valuable multidisciplinary model organisms. Apart from being ecologically and phylogenetically important, many species are commercially exploited for luxury seafood markets. With the global rise of aquaculture and fisheries, management and protection of these valuable species relies on a better understanding of how their immune systems respond to environmental and anthropogenic stressors. Here, the cellular, hormonal and behavioral indicators of stress in the North Atlantic sea cucumber Cucumaria frondosa were examined. The immediate and carry-over (post recovery) effects of a 1-hour exposure to low salinities or to emersion (at two temperatures) highlighted that morphoplasticity in C. frondosa was accompanied by shifts in all monitored indicators. From baseline levels measured in controls, densities of free coelomocytes increased, showing successions of specific cell types and subsequent coelomocyte aggregations, combined with a rise in cortisol levels. These responses mirrored increased fluctuations in cloacal opening rates, decreased force of attachment to the substrate, and enhanced movements and active buoyancy adjustment with increasingly severe stressors. The findings suggest that many systems of sea cucumbers are impacted by stresses that can be associated with harvesting and handling methods, with likely implications for the quality of the processed products. Gaining a deeper understanding of immune and hormonal responses of sea cucumbers is not only of broad ecological and evolutionary value, but also helpful for the development of sustainable fisheries and aquaculture practices, and conservation programs.

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Section: Discussionsupporting

confidence: 76%

Section: Cellular Markers (Free and Aggregated Coelomocytes)mentioning

confidence: 99%

Cellular, Hormonal, and Behavioral Responses of the Holothuroid Cucumaria frondosa to Environmental Stressors

Jobson

Hamel²,

Hughes

et al. 2021

Front. Mar. Sci.

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“…Coelomic cells in echinoderms and other bilaterians are involved in production and/or transport of metabolites, nutrients, and signalling and immunological factors (Shabelnikov et al, 2019). Echinoderm coelomocytes are sensitive to environmental stress and can reflect the physiological state of an individual (Branco et al, 2013; Shabelnikov et al, 2019; Hamel et al, 2021). We compared gene expression in coelomocytes of wild COTS with COTS placed in captivity and either fed or not fed over 30 days.…”

Section: Resultsmentioning

confidence: 99%

“…This astonishingly large transcriptional response can be partly attributed to the conditions of captivity leading to an abnormal state of stress (Morgan and Tromborg, 2007; Fischer and Romero, 2019) that can be harmful to organismal homeostasis (Boonstra, 2013; Basile et al, 2021; Hamel et al, 2021). The wide range of potential stressors for captive animals include the abiotic environment (sound, light, odours, temperature), restriction of movement due to confinement, changes in diet, and intra- and inter-species interactions (Morgan and Tromborg, 2007; Jandt et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

“…The scale of transcriptional changes induced by being removed from their natural habitat, and transported to and maintained in captivity likely reflects substantial changes in the physiology, behaviour and health of the COTS. Changes in gene expression in other animals accurately reflects changes in their physiological and developmental in a wide range of contexts (Lv et al, 2013;Meng et al, 2013;Milan et al, 2013;Hui et al, 2014;Gleason and Burton, 2015;Oomen and Hutchings, 2017;Zhang et al, 2017;Li et al, 2019;Ma et al, 2019) This astonishingly large transcriptional response can be partly attributed to the conditions of captivity leading to an abnormal state of stress (Morgan and Tromborg, 2007;Fischer and Romero, 2019) that can be harmful to organismal homeostasis (Boonstra, 2013;Basile et al, 2021;Hamel et al, 2021). The wide range of potential stressors for captive animals include the abiotic environment (sound, light, odours, temperature), restriction of movement due to confinement, changes in diet, and intra-and inter-species interactions (Morgan and Tromborg, 2007;Jandt et al, 2015).…”

Section: Wild and Captive Cots Have Strikingly Different Gene Express...mentioning

confidence: 99%

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Crown-of-thorns starfish in captivity experience sustained large-scale changes in gene expression

Morin

Jönsson

Wang

et al. 2022

Preprint

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Marine animals in the wild are often difficult to access, so that biologists have to extrapolate from the study of animals in captivity. However, the implicit assumption that physiological and cellular processes of animals in artificial environments are not significantly different from those in the wild has rarely been tested. Here we investigate the extent to which the biological state of an animal is impacted by captivity by comparing global gene expression in wild and captive crown-of-thorns starfish (COTS). We compare transcriptomes of three external tissues obtained from wild COTS with captive COTS maintained in aquaria for at least one week. On average, an astonishingly large 24% of the coding sequences in the genome are differentially expressed. Comparing transcriptomes from coelomocytes – cells in internal coelomic fluid – in wild and captive COTS, we find that 20% of the coding sequences in the genome rapidly change expression. These captive transcriptomes remained markedly different from the wild ones for more than 30 days in captivity, and showed no indication of reverting back to a wild state. Genes consistently upregulated in captivity include those involved in oxidative stress and energy metabolism, whereas genes downregulated are involved in intercellular signalling. These extensive changes in gene expression in captive COTS suggest that captivity has a profound and sustained impact on the physiology, behaviour and health of these echinoderms. The potential for such dramatic changes should be accounted for when designing studies seeking to understand wild animals.

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The sunflower sea star reduces grazing rates of purple sea urchins dependent upon urchin starvation state

Whippo,

Gravem,

Porter‐Hughes

et al. 2024

Ecosphere

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Ecosystem function is maintained in part by direct species interactions, but indirect interactions and non‐consumptive effects may be of equal ecological importance. Along the west coast of North America, the recent population collapse of the predatory sunflower sea star Pycnopodia helianthoides has been implicated in the proliferation of the purple sea urchin Strongylocentrotus purpuratus, and a concurrent decline in kelp canopy cover in several locales. Recent work began to quantify the predation rates effects (i.e., direct consumptive effects) of Pycnopodia on sea urchins that may lead to density‐mediated indirect effects on kelp. However, the importance of non‐consumptive effects on urchin behavior and the possible trait‐mediated indirect effects of Pycnopodia on kelp are not well understood. This leaves a critical gap in our knowledge about how these predators may be controlling grazer populations and, indirectly, primary production by macroalgae in nearshore habitats. We measured the non‐consumptive behavioral effects of Pycnopodia on S. purpuratus in the laboratory including grazing rates, feeding behavior, and movement of starved versus fed urchins, the latter simulating urchin metabolic conditions within urchin barrens. We found that the presence of a waterborne Pycnopodia cue reduced the grazing rate of fed urchins by 50% over short (~24 h) time scales. In contrast, starved urchins consumed kelp and did not exhibit an escape response in the presence of a Pycnopodia cue. This study highlights a trait‐mediated indirect interaction between Pycnopodia, S. purpuratus, and kelp, showing how the urchin response to a predator cue may differ based on urchin metabolic conditions or ecosystem state, and helps clarify the positive role of Pycnopodia on kelp forest health.

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Evidence of anticipatory immune and hormonal responses to predation risk in an echinoderm

Cited by 20 publications

References 60 publications

Cellular, Hormonal, and Behavioral Responses of the Holothuroid Cucumaria frondosa to Environmental Stressors

Cellular, Hormonal, and Behavioral Responses of the Holothuroid Cucumaria frondosa to Environmental Stressors

Crown-of-thorns starfish in captivity experience sustained large-scale changes in gene expression

The sunflower sea star reduces grazing rates of purple sea urchins dependent upon urchin starvation state

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