Identifying metabolic alterations associated with coral growth anomalies using 1H NMR metabolomics
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ABSTRACT: Coral growth anomalies (GAs) are tumor-like protrusions that are detrimental to coral health, impacting both the coral skeleton and soft tissues. These lesions are increasingly found throughout the tropics and are commonly associated with high human population density, yet little is known about the molecular pathology of the disease. Here, we investigate the metabolic impacts of GAs through 1H NMR metabolomics in Porites compressa tissues from a site of high disease prevalence (Coconut Island, Hawaii). We annotated 18 metabolites through complementary 1H and 1H–13C heteronuclear single quantum correlation (HSQC) data that increase confidence in pathway analyses and may bolster future efforts in coral metabolite annotation. Mass of extracted metabolites was elevated in both GA and unaffected (normal tissue from a diseased colony) compared to reference (normal tissue from GA-free colony) samples, potentially indicating elevated metabolic activity in GA-afflicted colonies. Relatively high variation in metabolomic profiles among corals of the same treatment confounded data interpretation, however, analyses of paired GA and unaffected samples identified 73 features that differed between these respective metabolome types. These features were largely annotated as unknowns, but 1-methylnicotinamide and trigonelline were found to be elevated in GA samples, while betaine, glycine and histamine were lower in GA samples. Pathway analyses suggest decreased choline oxidation in GA samples, making this a pathway of interest for future targeted studies. Collectively, our results provide unique insights into GA pathophysiology by showing these lesions alter both the absolute and relative metabolism of affected colonies and by identifying features (metabolites and unknowns) and metabolic pathways of interest in GA pathophysiology going forward.
INSTRUMENT(S): Nuclear Magnetic Resonance (NMR) -
SUBMITTER: Erik Andersson
PROVIDER: MTBLS2424 | MetaboLights | 2021-06-15
REPOSITORIES: MetaboLights
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