Starvation differentially affects gene expression, immunity and pathogen susceptibility across symbiotic states in a model cnidarian

Valadez-Ingersoll, Maria; Aguirre Carrión, Pablo J.; Bodnar, Caoimhe A.; Desai, Niharika A.; Gilmore, Thomas D.; Davies, Sarah W.

doi:10.1098/rspb.2023.1685

Cited by 3 publications

References 60 publications

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Prior heat stress increases pathogen susceptibility in the model cnidarian Exaiptasia diaphana

Diaz de Villegas,

Borbee,

Abdelbaki

et al. 2024

Commun Biol

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Anthropogenic climate change has significantly altered terrestrial and marine ecosystems globally, often in the form of climate-related events such as thermal anomalies and disease outbreaks. Although the isolated effects of these stressors have been well documented, a growing body of literature suggests that stressors often interact, resulting in complex effects on ecosystems. This includes coral reefs where sequential associations between heat stress and disease have had profound impacts. Here we used the model cnidarian Exaiptasia diaphana to investigate mechanisms linking prior heat stress to increased disease susceptibility. We examined anemone pathogen susceptibility and physiology (symbiosis, immunity, and energetics) following recovery from heat stress. We observed significantly increased pathogen susceptibility in anemones previously exposed to heat stress. Notably, prior heat stress reduced anemone energetic reserves (carbohydrate concentration), and activity of multiple immune components. Minimal effects of prior heat stress on symbiont density were observed. Together, results suggest changes in energetic availability might have the strongest effect on pathogen susceptibility and immunity following heat stress. The results presented here provide critical insight regarding the interplay between heat stress recovery and pathogen susceptibility in cnidarians and are an important first step towards understanding temporal associations between these stressors.

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Prior heat stress increases pathogen susceptibility in the model cnidarian Exaiptasia diaphana

Diaz de Villegas,

Borbee,

Abdelbaki

et al. 2024

Commun Biol

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Prior heat stress increases pathogen susceptibility in the model cnidarianExaptasia diaphana

Diaz de Villegas,

Borbee,

Abdelbaki

et al. 2023

Preprint

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Anthropogenic climate change has significantly altered terrestrial and marine ecosystems globally, often in the form of climate-related events such as thermal anomalies and disease outbreaks. Although the isolated effects of these stressors have been well documented, a growing body of literature suggests that stressors often interact, resulting in complex effects on ecosystems. Recent declines in coral cover from a variety of climate-related stressors make reef ecosystems well-suited to investigate sequential associations between climate impacts, particularly heat stress and disease. Here we used the model cnidarian Exaiptasia diaphana to investigate mechanisms linking heat stress to increased disease susceptibility. We examined anemone pathogen susceptibility and physiology (symbiosis, immunity, and energetics) following recovery from heat stress. We observed significantly increased pathogen susceptibility in anemones exposed to heat stress, likely linked to observed suppression of multiple immunological parameters. Furthermore, our data suggest that changes in resource allocation might drive observed reductions in immunity following thermal stress. These findings are an important first step towards understanding temporal associations between two of the most significant climate-associated stressors, heat and disease.

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Single-cell RNA-sequencing reveals immune system compartmentalization under symbiosis in the stony coralOculina arbuscula

Valadez-Ingersoll,

Rivera,

Da-Anoy

et al. 2024

Preprint

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Many cnidarians host single-celled algae within gastrodermal cells, yielding a mutually beneficial exchange of nutrients between host and symbiont, and dysbiosis can lead to host mortality. Previous research has uncovered symbiosis tradeoffs, including suppression of the NF-κB immune pathway in cnidarians hosting intracellular algae and correlations between symbiotic state and pathogen susceptibility. Here, we used a multiomic approach to characterize symbiotic states of the facultatively symbiotic coralOculina arbusculaby generating genotype-controlled fragments of symbiotic and aposymbiotic tissue. Metabarcoding of 16S rRNA showed no difference in bacterial communities between symbiotic states. Consistent with previous whole-organism RNA-seq studies, whole-organism proteomics revealed differential abundance of proteins related to immunity, consistent with immune suppression during symbiosis. Moreover, single-cell RNAseq identified diverse cell clusters within six cell types across symbiotic states. Specifically, the gastrodermal cell cluster containing algal-hosting cells from symbiotic tissue had higher expression of nitrogen cycling and sugar transport genes than gastrodermal cells from aposymbiotic tissue. Furthermore, lower expression of genes involved in immune regulation, including NF-κB pathway genes, was observed in these gastrodermal cells from symbiotic tissue. However, no differences in gene expression in the immune cell cluster were observed between symbiotic states. This work reveals a compartmentalization of immune system suppression in specific gastrodermal cells in symbiosis, which likely limits symbiosis tradeoffs by dampening immunity in algal hosting cells while still maintaining general organismal immunity.

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Starvation differentially affects gene expression, immunity and pathogen susceptibility across symbiotic states in a model cnidarian

Cited by 3 publications

References 60 publications

Prior heat stress increases pathogen susceptibility in the model cnidarian Exaiptasia diaphana

Prior heat stress increases pathogen susceptibility in the model cnidarian Exaiptasia diaphana

Prior heat stress increases pathogen susceptibility in the model cnidarianExaptasia diaphana

Single-cell RNA-sequencing reveals immune system compartmentalization under symbiosis in the stony coralOculina arbuscula

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