Browsing by Author "Estrada, Juan Manuel"

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    Gills de novo assembly reveals oxidative stress, unfolded protein, and immune response on red cusk-eel ( Genypterus chilensis ) under thermal stress
    (2024) Dettleff, Phillip; Toloza, Carla; Fuentes, Marcia; Aedo, Jorge; Zuloaga, Rodrigo; Estrada, Juan Manuel; Molina, Alfredo; Valdes, Juan Antonio
    The heat waves on the South Pacific coast could lead to thermal stress in native fish. The red cusk-eel ( Genypterus chilensis ) is relevant for Chilean artisanal fisheries and aquaculture diversification. This study examined the effect of high-temperature stress in the gills of G. chilensis in control (14 degrees C) and high-temperature stress (19 degrees C) conditions. High-temperature stress induces a significant increase in gills cortisol levels. Additionally, oxidative damage was observed in gills (protein carbonylation and lipoperoxidation). RNA-seq data was used to build the first transcriptome assembly of gills in this species (23,656 annotated transcripts). A total of 1138 downregulated and 1531 up-regulated transcripts were observed in response to high-temperature stress in gills. The enrichment analysis showed immune response and replication enriched processes (on down-regulated transcripts), and processes related to the folding of proteins, endoplasmic reticulum, and transporter activity (on upregulated transcripts). The present study showed how gills could be affected by high-temperature stress.
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    High temperature induces oxidative damage, immune modulation, and atrophy in the gills and skeletal muscle of the teleost fish black cusk-eel (Genypterus maculatus)
    (2025) Becerra, Sofía; Arriagada-Solimano M.; Escobar Aguirre, Sebastián Gonzalo; Palomino, Jaime; Aedo, Jorge; Estrada, Juan Manuel; Barra Valdebenito, Verónica; Zuloaga, Rodrigo; Valdés, Juan Antonio; Dettleff, Phillip
    The high temperature associated with heat waves is a relevant abiotic factor that could impact the biology of teleost fish. The innate immune response, muscular growth, and oxidative stress status are relevant functions in fish tissues that could be affected by increased temperature. In this study, black cusk-eel (Genypterus maculatus) juveniles were subjected to increased temperature, to experimentally replicate heat waves registered from the South Pacific Ocean for five days. The results showed that thermal stress modulated the immune response in gills, with up-regulation of antibacterial peptides, pro-inflammatory cytokines, and Toll-like receptors genes, including hepcidin, gzma, tnfa, cxcl8, and tlr5, with no effect on complement system genes. In skeletal muscle, high temperature triggered atrophy-related gene expression, with up-regulation of foxo1, foxo3, fbxo32, murf1, and atg16l. Increased temperature also generated an up-regulation of transcripts encoding heat shock protein (hsp60 and hsp70) in gills and skeletal muscle, generating oxidative stress in both tissues, with increased expression of the antioxidant genes sod1 and gpx1 in gills and skeletal muscle, respectively, with oxidative damage observed at the DNA level (AP sites), protein (carbonyl content), and lipoperoxidation (HNE content) in both tissues. The present study shows that short-term increases in temperature like those observed in heat waves could affect the immune response in gills, induced atrophy in skeletal muscle, and generate oxidative stress in a teleost species important for Chilean aquaculture diversification, information relevant under the context of climate change scenario.