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Auteurs principaux: Luo, Zhi, Lin, Yingying, Ren, Shengjie, Ren, Daoquan, Xu, Chang, Han, Fenglu, Li, Erchao
Format: Artículo científico
Langue:en
Publié: Comparative biochemistry and physiology. Part D, Genomics & proteomics 2026
Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/42263458/
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author Luo, Zhi
Lin, Yingying
Ren, Shengjie
Ren, Daoquan
Xu, Chang
Han, Fenglu
Li, Erchao
author_facet Luo, Zhi
Lin, Yingying
Ren, Shengjie
Ren, Daoquan
Xu, Chang
Han, Fenglu
Li, Erchao
Luo, Zhi
Lin, Yingying
Ren, Shengjie
Ren, Daoquan
Xu, Chang
Han, Fenglu
Li, Erchao
collection PubMed - marine biology
contents Divergent responses of the gill, hepatopancreas, and eyestalk to acute alkalinity stress in Penaeus vannamei: Osmoregulatory compromise, metabolic trade-off, and endocrine disruption. Luo, Zhi Lin, Yingying Ren, Shengjie Ren, Daoquan Xu, Chang Han, Fenglu Li, Erchao The expansion of aquaculture into inland saline-alkali waters is constrained by high carbonate alkalinity (CA), a severe environmental stressor for crustaceans. However, the systemic molecular mechanisms underlying its lethal toxicity remain poorly understood. In this study, we employed a comparative transcriptomic approach to investigate the tissue-specific responses of Pacific white shrimp, Penaeus vannamei, under acute lethal stress (48 h-LC). We focused on three functionally distinct organs: the gill, hepatopancreas, and eyestalk. The results revealed a systemic but highly tissue-specific transcriptomic response. The gill, as the primary interface, exhibited severe structural impairment and critical failure of osmoregulation, highlighted by the significant downregulation of delta-1-pyrroline-5-carboxylate synthetase (P5CS). In contrast, the hepatopancreas initiates a profound metabolic trade-off, sacrificing growth-related pathways to bolster a robust antioxidant defense system, as evidenced by the activation of sulfur metabolism and high protein turnover. The eyestalk displayed a striking disconnect between hyperactivated stress signaling pathways (e.g., mTOR/FoxO) and the collapse of its protein secretory machinery, marked by the suppression of the ER translocon component Sec61. Collectively, our findings suggest that lethal alkalinity toxicity in P. vannamei results from systemic collapse driven by a complex interplay of osmoregulatory failure, metabolic trade-offs, and endocrine disruption. This study provides a comprehensive molecular snapshot of an organism at its physiological limit, offering novel insights into the adaptive strategies and ultimate tolerance boundaries of crustaceans in extreme environments.
format Artículo científico
id pubmed_42263458
institution PubMed
language en
publishDate 2026
publisher Comparative biochemistry and physiology. Part D, Genomics & proteomics
record_format pubmed
spellingShingle Divergent responses of the gill, hepatopancreas, and eyestalk to acute alkalinity stress in Penaeus vannamei: Osmoregulatory compromise, metabolic trade-off, and endocrine disruption.
Luo, Zhi
Lin, Yingying
Ren, Shengjie
Ren, Daoquan
Xu, Chang
Han, Fenglu
Li, Erchao
Divergent responses of the gill, hepatopancreas, and eyestalk to acute alkalinity stress in Penaeus vannamei: Osmoregulatory compromise, metabolic trade-off, and endocrine disruption. Luo, Zhi Lin, Yingying Ren, Shengjie Ren, Daoquan Xu, Chang Han, Fenglu Li, Erchao The expansion of aquaculture into inland saline-alkali waters is constrained by high carbonate alkalinity (CA), a severe environmental stressor for crustaceans. However, the systemic molecular mechanisms underlying its lethal toxicity remain poorly understood. In this study, we employed a comparative transcriptomic approach to investigate the tissue-specific responses of Pacific white shrimp, Penaeus vannamei, under acute lethal stress (48 h-LC). We focused on three functionally distinct organs: the gill, hepatopancreas, and eyestalk. The results revealed a systemic but highly tissue-specific transcriptomic response. The gill, as the primary interface, exhibited severe structural impairment and critical failure of osmoregulation, highlighted by the significant downregulation of delta-1-pyrroline-5-carboxylate synthetase (P5CS). In contrast, the hepatopancreas initiates a profound metabolic trade-off, sacrificing growth-related pathways to bolster a robust antioxidant defense system, as evidenced by the activation of sulfur metabolism and high protein turnover. The eyestalk displayed a striking disconnect between hyperactivated stress signaling pathways (e.g., mTOR/FoxO) and the collapse of its protein secretory machinery, marked by the suppression of the ER translocon component Sec61. Collectively, our findings suggest that lethal alkalinity toxicity in P. vannamei results from systemic collapse driven by a complex interplay of osmoregulatory failure, metabolic trade-offs, and endocrine disruption. This study provides a comprehensive molecular snapshot of an organism at its physiological limit, offering novel insights into the adaptive strategies and ultimate tolerance boundaries of crustaceans in extreme environments.
title Divergent responses of the gill, hepatopancreas, and eyestalk to acute alkalinity stress in Penaeus vannamei: Osmoregulatory compromise, metabolic trade-off, and endocrine disruption.
url https://pubmed.ncbi.nlm.nih.gov/42263458/