Innate immune gene expression in<i>Acropora palmata</i>is consistent despite variance in yearly disease events

Young, Benjamin; Serrano, Xaymara M.; Rosales, Stephanie M.; Miller, Margaret W.; Williams, Dana E.; Traylor-Knowles, Nikki

doi:10.1101/2020.01.20.912410

Cited by 2 publications

(3 citation statements)

References 93 publications

(102 reference statements)

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“…Assuming the proportion of A. rohweri to host reads are indeed reflective of infection status [75][76][77], relative resistance of Ac. palmata may be attributed to environmental factors such as depth, innate host immunity, or defenses mounted by the host microbiome [78][79][80]. Determining which factors may be leading to resistance in Ac.…”

Section: Discussionmentioning

confidence: 99%

The coral symbiontCandidatusAquarickettsia is variably abundant in threatened Caribbean acroporids and transmitted horizontally

Baker

Reich

Kitchen

et al. 2021

Preprint

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The aquatic symbiont “Candidatus Aquarickettsia rohweri” infects a diversity of non-bilaterian metazoan phyla. In the threatened coral Acropora cervicornis, Aquarickettsia proliferates in response to increased nutrient exposure, resulting in suppressed growth and increased disease susceptibility and mortality. This study evaluated the extent, as well as the ecology and evolution of Aquarickettsia infecting the Caribbean corals: Ac. cervicornis and Ac. palmata and their hybrid (‘Ac. prolifera’). The bacterial parasite Aquarickettsia was found in all acroporids, with host and sampling location impacting infection magnitude. Phylogenomic and genome-wide single nucleotide variant analysis found Aquarickettsia clustering by region, not by coral taxon. Fixation analysis suggested within coral colonies, Aquarickettsia are genetically isolated to the extent that reinfection is unlikely. Relative to other Rickettsiales, Aquarickettsia is undergoing positive selection, with Florida populations experiencing greater positive selection relative to the other Caribbean locations. This may be due to Aquarickettsia response to increased nutrient stress in Florida, as indicated by greater in situ replication rates in these corals. Aquarickettsia did not significantly codiversify with either coral animal nor algal symbiont, and qPCR analysis of gametes and juveniles from susceptible coral genotypes indicated absence in early life stages. Thus, despite being an obligate parasite, Aquarickettsia must be horizontally transmitted via coral mucocytes, an unidentified secondary host, or a yet unexplored environmentally mediated mechanism. Importantly, the prevalence of Aquarickettsia in Ac. cervicornis and high abundance in Florida populations suggests that disease mitigation efforts in the US and Caribbean should focus on preventing early infection via horizontal transmission.

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Section: Discussionmentioning

confidence: 99%

The coral symbiontCandidatusAquarickettsia is variably abundant in threatened Caribbean acroporids and transmitted horizontally

Baker

Reich

Kitchen

et al. 2021

Preprint

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“…Two scleractinian coral transcriptomic datasets were mined for homologs of P2; one from Pocillopora damicornis exposed to the synthetic immune stimulus lipopolysaccharide (LPS), NCBI SRA BioProject PRJNA587509, (34) and the second from Acropora palmata exposed to the naturally occurring white band disease (WBD); NCBI SRA BioProject PRJNA529682, (42); Figure 1D. In P. damicornis, one Mpeg-1 homolog was found to be significantly upregulated (pdam_00017055, LFC = 1.21), while in A. palmata two paralogs of Mpeg-1 were found to be significantly downregulated in response to WBD (Apalm_v2_evm.model.Sc0a5M3_382_HRSCAF_692.340, LFC = −1.38; Apalm_v2_evm.model.Sc0a5M3_382_HRSCAF _692.335, LFC = −0.94).…”

Section: Stony Coral Mpeg-1 Genes Exhibit Alternate Reactions To Immumentioning

confidence: 99%

“…With the presence of multiple paralogs, it is possible that some of these genes are not involved in innate immunity. Additionally, the variation in gene expression in A. palmata could be due to environmental challenges, as these were nursery reared corals (42). Further investigation into the function of these genes in multiple species of coral will be valuable for our understanding of the functional repertoire of this gene family in cnidarians, as well as, the effects of environmental stress.…”

Section: Stony Coral Mpeg-1 Genes Exhibit Alternate Reactions To Immumentioning

confidence: 99%

The Complicated Evolutionary Diversification of the Mpeg-1/Perforin-2 Family in Cnidarians

et al. 2020

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The invertebrate innate immune system is surprisingly complex, yet our knowledge is limited to a few select model systems. One understudied group is the phylum Cnidaria (corals, sea anemones, etc.). Cnidarians are the sister group to Bilateria and by studying their innate immunity repertoire, a better understanding of the ancestral state can be gained. Corals in particular have evolved a highly diverse innate immune system that can uncover evolutionarily basal functions of conserved genes and proteins. One rudimentary function of the innate immune system is defense against harmful bacteria using pore forming proteins. Macrophage expressed gene 1/Perforin-2 protein (Mpeg-1/P2) is a particularly important pore forming molecule as demonstrated by previous studies in humans and mice, and limited studies in non-bilaterians. However, in cnidarians, little is known about Mpeg-1/P2. In this perspective article, we will summarize the current state of knowledge of Mpeg-1/P2 in invertebrates, analyze identified Mpeg-1/P2 homologs in cnidarians, and demonstrate the evolutionary diversity of this gene family using phylogenetic analysis. We will also show that Mpeg-1 is upregulated in one species of stony coral in response to lipopolysaccharides and downregulated in another species of stony coral in response to white band disease. This data presents evidence that Mpeg-1/P2 is conserved in cnidarians and we hypothesize that it plays an important role in cnidarian innate immunity. We propose that future research focus on the function of Mpeg-1/P2 family in cnidarians to identify its primary role in innate immunity and beyond.

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Innate immune gene expression inAcropora palmatais consistent despite variance in yearly disease events

Cited by 2 publications

References 93 publications

The coral symbiontCandidatusAquarickettsia is variably abundant in threatened Caribbean acroporids and transmitted horizontally

The coral symbiontCandidatusAquarickettsia is variably abundant in threatened Caribbean acroporids and transmitted horizontally

The Complicated Evolutionary Diversification of the Mpeg-1/Perforin-2 Family in Cnidarians

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