Differential proteomic response of Sydney rock oysters (Saccostrea glomerata) to prolonged environmental stress

Differential proteomic response of Sydney rock oysters (Saccostrea glomerata) to prolonged environmental stress

•Sydney rock oyster gill tissues were analyzed by 2-DE proteomics from four bays in the Sydney Harbour estuary, Australia.•A suite of differentially expressed proteins were identified between sites of high and low stressor impact within each bay.•Differential protein expression patterns were largely...

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Bibliographic Details
Published in:Aquatic toxicology Vol. 173; pp. 53 - 62
Main Authors: Melwani, A.R., Thompson, E.L., Raftos, D.A.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-04-2016
Subjects:
Animals
Brackish
Contamination
Ecotoxicology
Environmental Exposure
Estuaries
Marine
Molluscs
Ostreidae - drug effects
Proteome - drug effects
Proteomics
Saccostrea glomerata
Stress
Stress, Physiological - drug effects
Water Pollutants, Chemical - analysis
Water Pollutants, Chemical - toxicity
PSE, Australia, New South Wales, Sydney
Molluscs
Ecotoxicology
Stress
Contamination
Proteomics
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Summary:•Sydney rock oyster gill tissues were analyzed by 2-DE proteomics from four bays in the Sydney Harbour estuary, Australia.•A suite of differentially expressed proteins were identified between sites of high and low stressor impact within each bay.•Differential protein expression patterns were largely unique to each bay.•Overall, half of the differentially expressed proteins fell into just two subcellular functional categories—energy metabolism and the cytoskeleton. Exposure to prolonged environmental stress can have impacts on the cellular homeostasis of aquatic organisms. The current study employed two-dimensional electrophoresis (2-DE) to test whether exposure to impaired water quality conditions in the Sydney Harbour estuary has significantly altered the proteomes of the resident Sydney rock oyster (Saccostrea glomerata). Adult S. glomerata were sampled from four bays in the estuary. Each bay consisted of a “high-impact” site adjacent to point sources of chemical contamination (e.g., storm drains/canals or legacy hotspots) and a “low-impact” site located ∼5km away from point sources. A mixture of environmental stressors differed significantly between high- and low-impact sites. Specifically, PAHs, PCBs, tributyltin, Pb, and Zn were significantly elevated in oyster tissues from high-impact sites, together with depleted dissolved oxygen and low pH in the water column. A 2-DE proteomics analysis subsequently identified 238 protein spots across 24 2-DE gels, of which 27–50 spots differed significantly in relative intensity between high- and low-impact sites per bay. Twenty-five percent of the differential spots were identified in more than one bay. The identities of 80 protein spots were determined by mass spectrometry. HSP 70, PPIB, and radixin were the three most highly expressed differential proteins. Despite the largely unique proteomes evident in each bay, functional annotations revealed that half of the differentially expressed proteins fell into just two subcellular functional categories—energy metabolism and the cytoskeleton. These findings provide a framework to further investigate adaptation of cellular mechanisms to prolonged stress in S. glomerata.
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ISSN:0166-445X
1879-1514
DOI:10.1016/j.aquatox.2016.01.003