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Metabolomics and biochemical assays reveal the metabolic responses to hypo-salinity stress and osmoregulatory role of cAMP-PKA pathway in Mercenaria mercenaria

Hypo-salinity events frequently occur in marine ecosystem due to persistent rainfall and freshwater inflow, reducing the cytosol osmolarity and triggering cellular stress responses in aquatic organisms. Euryhaline bivalves have developed sophisticated regulatory mechanisms to adapt to salinity fluct...

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Autores principales: Zhou, Cong, Song, Hao, Feng, Jie, Hu, Zhi, Yang, Mei-jie, Shi, Pu, Li, Yong-ren, Guo, Yong-jun, Li, Hai-zhou, Zhang, Tao
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Research Network of Computational and Structural Biotechnology 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9385449/
https://www.ncbi.nlm.nih.gov/pubmed/36016713
http://dx.doi.org/10.1016/j.csbj.2022.08.004
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author Zhou, Cong
Song, Hao
Feng, Jie
Hu, Zhi
Yang, Mei-jie
Shi, Pu
Li, Yong-ren
Guo, Yong-jun
Li, Hai-zhou
Zhang, Tao
author_facet Zhou, Cong
Song, Hao
Feng, Jie
Hu, Zhi
Yang, Mei-jie
Shi, Pu
Li, Yong-ren
Guo, Yong-jun
Li, Hai-zhou
Zhang, Tao
author_sort Zhou, Cong
collection PubMed
description Hypo-salinity events frequently occur in marine ecosystem due to persistent rainfall and freshwater inflow, reducing the cytosol osmolarity and triggering cellular stress responses in aquatic organisms. Euryhaline bivalves have developed sophisticated regulatory mechanisms to adapt to salinity fluctuations over a long period of evolution. In this study, we performed multiple biochemical assays, widely targeted metabolomics, and gene expression analysis to investigate the comprehensive metabolic responses to hypo-salinity stress and osmoregulation mechanisms in hard clam Mercenaria mercenaria, which is a euryhaline bivalve species widely cultured in China. During hypo-salinity stress, increased vacuoles appeared in gill filaments. The Na(+) and Cl(-) concentrations in gills significantly decreased because of the up-regulation of Na(+)/K(+)-ATPase (NKA) activity. The cAMP content dramatically decreased at 5 d post hypo-salinity stress. Meanwhile, the gene expression levels of adenylate cyclase, proteinkinase A, and sodium and calcium channel proteins were evidently down-regulated, suggesting that cAMP-PKA pathway was inhibited to prevent ambient inorganic ions from entering the gill cells. Antioxidant metabolites, such as serine and Tyr-containing dipeptides, were significantly up-regulated to resist oxidative stress. Glycerolipid metabolism was strengthened to stabilize membrane structure when hypo-salinity stress was prolonged to 5 days. At 1 d post hypo-salinity stress, an increase in alanine and lactate contents marked the initiation of anaerobic metabolism. Acylcarnitines accumulation indicated that fatty acids β-oxidation was promoted to provide energy for osmoregulation. The potential biomarkers of hypo-salinity stress were identified in hard clams. This study provides novel insights into the metabolic regulatory mechanisms to hypo-salinity stress in euryhaline bivalves.
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spelling pubmed-93854492022-08-24 Metabolomics and biochemical assays reveal the metabolic responses to hypo-salinity stress and osmoregulatory role of cAMP-PKA pathway in Mercenaria mercenaria Zhou, Cong Song, Hao Feng, Jie Hu, Zhi Yang, Mei-jie Shi, Pu Li, Yong-ren Guo, Yong-jun Li, Hai-zhou Zhang, Tao Comput Struct Biotechnol J Research Article Hypo-salinity events frequently occur in marine ecosystem due to persistent rainfall and freshwater inflow, reducing the cytosol osmolarity and triggering cellular stress responses in aquatic organisms. Euryhaline bivalves have developed sophisticated regulatory mechanisms to adapt to salinity fluctuations over a long period of evolution. In this study, we performed multiple biochemical assays, widely targeted metabolomics, and gene expression analysis to investigate the comprehensive metabolic responses to hypo-salinity stress and osmoregulation mechanisms in hard clam Mercenaria mercenaria, which is a euryhaline bivalve species widely cultured in China. During hypo-salinity stress, increased vacuoles appeared in gill filaments. The Na(+) and Cl(-) concentrations in gills significantly decreased because of the up-regulation of Na(+)/K(+)-ATPase (NKA) activity. The cAMP content dramatically decreased at 5 d post hypo-salinity stress. Meanwhile, the gene expression levels of adenylate cyclase, proteinkinase A, and sodium and calcium channel proteins were evidently down-regulated, suggesting that cAMP-PKA pathway was inhibited to prevent ambient inorganic ions from entering the gill cells. Antioxidant metabolites, such as serine and Tyr-containing dipeptides, were significantly up-regulated to resist oxidative stress. Glycerolipid metabolism was strengthened to stabilize membrane structure when hypo-salinity stress was prolonged to 5 days. At 1 d post hypo-salinity stress, an increase in alanine and lactate contents marked the initiation of anaerobic metabolism. Acylcarnitines accumulation indicated that fatty acids β-oxidation was promoted to provide energy for osmoregulation. The potential biomarkers of hypo-salinity stress were identified in hard clams. This study provides novel insights into the metabolic regulatory mechanisms to hypo-salinity stress in euryhaline bivalves. Research Network of Computational and Structural Biotechnology 2022-08-05 /pmc/articles/PMC9385449/ /pubmed/36016713 http://dx.doi.org/10.1016/j.csbj.2022.08.004 Text en © 2022 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Research Article
Zhou, Cong
Song, Hao
Feng, Jie
Hu, Zhi
Yang, Mei-jie
Shi, Pu
Li, Yong-ren
Guo, Yong-jun
Li, Hai-zhou
Zhang, Tao
Metabolomics and biochemical assays reveal the metabolic responses to hypo-salinity stress and osmoregulatory role of cAMP-PKA pathway in Mercenaria mercenaria
title Metabolomics and biochemical assays reveal the metabolic responses to hypo-salinity stress and osmoregulatory role of cAMP-PKA pathway in Mercenaria mercenaria
title_full Metabolomics and biochemical assays reveal the metabolic responses to hypo-salinity stress and osmoregulatory role of cAMP-PKA pathway in Mercenaria mercenaria
title_fullStr Metabolomics and biochemical assays reveal the metabolic responses to hypo-salinity stress and osmoregulatory role of cAMP-PKA pathway in Mercenaria mercenaria
title_full_unstemmed Metabolomics and biochemical assays reveal the metabolic responses to hypo-salinity stress and osmoregulatory role of cAMP-PKA pathway in Mercenaria mercenaria
title_short Metabolomics and biochemical assays reveal the metabolic responses to hypo-salinity stress and osmoregulatory role of cAMP-PKA pathway in Mercenaria mercenaria
title_sort metabolomics and biochemical assays reveal the metabolic responses to hypo-salinity stress and osmoregulatory role of camp-pka pathway in mercenaria mercenaria
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9385449/
https://www.ncbi.nlm.nih.gov/pubmed/36016713
http://dx.doi.org/10.1016/j.csbj.2022.08.004
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