Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/124116
Title: Biomarkers related to gas embolism: Gas score, pathology, and gene expression in a gas bubble disease model
Authors: Velázquez Wallraf, Alicia Sofía 
Caballero Cansino, María José 
Fernández Rodríguez, Antonio Jesús 
Betancor, Mónica B.
Saavedra Santana, Pedro 
Hemingway, Holden W.
Bernaldo De Quirós Miranda, Yara 
UNESCO Clasification: 3105 Peces y fauna silvestre
240108 Genética animal
Keywords: Animals
Descompression sickness/genetics
Embolism, Air/genetics
Fishes
Gene expression, et al
Issue Date: 2023
Journal: PLoS ONE 
Abstract: Fish exposed to water supersaturated with dissolved gas experience gas embolism similar to decompression sickness (DCS), known as gas bubble disease (GBD) in fish. GBD has been postulated as an alternative to traditional mammals' models on DCS. Gas embolism can cause mechanical and biochemical damage, generating pathophysiological responses. Increased expression of biomarkers of cell damage such as the heat shock protein (HSP) family, endothelin 1 (ET-1) or intercellular adhesion molecule 1 (ICAM-1) has been observed, being a possible target for further studies of gas embolism. The GBD model consisted of exposing fish to supersaturation in water with approximately 170% total dissolved gas (TDG) for 18 hours, producing severe gas embolism. This diagnosis was confirmed by a complete histopathological exam and the gas score method. HSP70 showed a statistically significant upregulation compared to the control in all the studied organs (p <0.02). Gills and heart showed upregulation of HSP90 with statistical significance (p = 0.015 and p = 0.02, respectively). In addition, HSP70 gene expression in gills was positively correlated with gas score (p = 0.033). These results suggest that gas embolism modify the expression of different biomarkers, with HSP70 being shown as a strong marker of this process. Furthermore, gas score is a useful tool to study the abundance of gas bubbles, although individual variability always remains present. These results support the validity of the GBD model in fish to study gas embolism in diseases such as DCS.
URI: http://hdl.handle.net/10553/124116
ISSN: 1932-6203
DOI: 10.1371/journal.pone.0288659
Source: PloS one [EISSN 1932-6203], v. 18 (7), (Enero 2023)
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