Acute thermal stress and endotoxin exposure modulate metabolism and immunity in marine mussels (Perna canaliculus)

Abstract

Mass mortalities of New Zealand Green-lipped mussels (Perna canaliculus) are thought to be associated with increased water temperatures and immune challenges from opportunistic pathogens. However, the combined effects of acute thermal stress and immune stimulation on mussels are poorly understood. To investigate these responses, adult mussels were exposed to different temperatures (26 °C [thermal stress] vs 15 °C [ambient]) and a bacterial-derived endotoxin injection (with vs without) to mimic a pathogen infection. Various immunological and metabolic parameters were measured over two days via enzyme staining reactions, flow cytometry, and metabolomic profiling. None of the treatments impacted total and differential haemocyte counts, haemocyte viability or production of reactive oxygen species. Acid phosphatase and phenoloxidase activities were detected only within granulocytes (not in hyalinocytes), although their relative expressions also were not affected. Conversely, metabolite profiling exposed impacts of thermal stress and endotoxin exposure at a metabolic level, indicative of physiological changes in energy expenditure and partitioning. At the higher water temperature, free fatty acid and amino acid constituents increased and decreased, respectively, which supports an elevated energy demand and higher metabolic rate due to thermal stress. Ultimately, energy production is being sustained via multiple routes including the glycolysis pathway, TCA cycle, and β-oxidation. Additionally, branched-chain amino acids, the urea cycle and the glutathione pathway were affected by the higher temperature. The metabolic response of mussels exposed to endotoxin exposure resulted in increased metabolite response largely linked to protein and lipid degradation. After 5 days of exposure, survival data confirmed a severe physiological impact of the higher temperature through incidences of mortality. However, the thermal challenge in combination with the specific endotoxin treatment applied did not lead to a synergistic effect on mortality. These findings provide new insights into the relationship between thermal stress and immunity to better understand the immune defence system in mussels.