Transcriptome profiling of blood from common bottlenose dolphins (Tursiops truncatus) in the northern Gulf of Mexico to enhance health assessment capabilities

• Published in: PloS one Vol. 17; no. 8; p. e0272345
• Main Authors: Morey, Jeanine S, Balmer, Brian C, Zolman, Eric S, Takeshita, Ryan, De Guise, Sylvain, Rowles, Teresa K, Smith, Cynthia R, Wells, Randall S, Schwacke, Lori H
• Format: Journal Article
• Language: English
• Published: San Francisco Public Library of Science 24.08.2022; Public Library of Science (PLoS)
• Subjects: Analysis; Aquatic mammals; Assessments; Biology and Life Sciences; Biomarkers; Blood; Cetacea; Cytoskeleton; Delphinidae; Dolphins; Dolphins & porpoises; Earth Sciences; Evaluation; Exposure; Gene expression; Genes; Genetic aspects; Genomes; Homeostasis; Hydrocarbons; Immune response; Immune system; Lung diseases; Medicine and Health Sciences; Mitochondria; Molecular modelling; Network analysis; Oil spills; PCB; Physiology; Polychlorinated biphenyls; Pregnancy; Principal components analysis; Reproductive failure; Toxic diseases; Transcriptomes; Transcriptomics; Tursiops truncatus; Veterinarians; Veterinary medicine; Wildlife; United States; United States > US; Sarasota Florida; Gulf of Mexico
• ISSN: 1932-6203; 1932-6203
• DOI: 10.1371/journal.pone.0272345

Following the 2010 Deepwater Horizon disaster and subsequent unusual mortality event, adverse health impacts have been reported in bottlenose dolphins in Barataria Bay, LA including impaired stress response and reproductive, pulmonary, cardiac, and immune function. These conditions were primarily diagnosed through hands-on veterinary examinations and analysis of standard diagnostic panels. In human and veterinary medicine, gene expression profiling has been used to identify molecular mechanisms underlying toxic responses and disease states. Identification of molecular markers of exposure or disease may enable earlier detection of health effects or allow for health evaluation when the use of specialized methodologies is not feasible. To date this powerful tool has not been applied to augment the veterinary data collected concurrently during dolphin health assessments. This study examined transcriptomic profiles of blood from 76 dolphins sampled in health assessments during 2013–2018 in the waters near Barataria Bay, LA and Sarasota Bay, FL. Gene expression was analyzed in conjunction with the substantial suite of health data collected using principal component analysis, differential expression testing, over-representation analysis, and weighted gene co-expression network analysis. Broadly, transcript profiles of Barataria Bay dolphins indicated a shift in immune response, cytoskeletal alterations, and mitochondrial dysfunction, most pronounced in dolphins likely exposed to Deepwater Horizon oiling. While gene expression profiles in Barataria Bay dolphins were altered compared to Sarasota Bay for all years, profiles from 2013 exhibited the greatest alteration in gene expression. Differentially expressed transcripts included genes involved in immunity, inflammation, reproductive failure, and lung or cardiac dysfunction, all of which have been documented in dolphins from Barataria Bay following the Deepwater Horizon oil spill. The genes and pathways identified in this study may, with additional research and validation, prove useful as molecular markers of exposure or disease to assist wildlife veterinarians in evaluating the health of dolphins and other cetaceans.