Hepcidin Deficiency Disrupts Iron Homeostasis and Induces Ferroptosis in Zebrafish Liver

Hepcidin Deficiency Disrupts Iron Homeostasis and Induces Ferroptosis in Zebrafish Liver

Hepcidin is a key regulator of systemic iron homeostasis, which is essential for maintaining iron balance and cellular health. To investigate its role in zebrafish, we empolyed a <i>hepcidin</i> knockout model. Morphological and histological analyses revealed pale livers and significant...

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Bibliographic Details
Main Authors: Mingli Liu, Mingjian Peng, Jingwen Ma, Ruiqin Hu, Qianghua Xu, Peng Hu, Liangbiao Chen
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Fishes
Subjects:
<i>Hepcidin</i> deficiency
Iron homeostasis
Ferroptosis
Liver
Online Access:https://www.mdpi.com/2410-3888/10/5/243
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Summary:Hepcidin is a key regulator of systemic iron homeostasis, which is essential for maintaining iron balance and cellular health. To investigate its role in zebrafish, we empolyed a <i>hepcidin</i> knockout model. Morphological and histological analyses revealed pale livers and significant iron accumulation in <i>hep</i><sup>−/−</sup> zebrafish, particularly in liver, skin, and egg tissues. RNA sequencing identified 1,424 differentially expressed genes (DEGs) between wild-type (WT) and <i>hep</i><sup>−/−</sup> zebrafish, with significant enrichment in pathways related to ferroptosis, fatty acid degradation, and heme binding. Western blot analysis showed reduced levels of key iron-related proteins, including GPX4, Fth1, and ferroportin (FPN), indicating impaired iron transport and increased oxidative stress. Gene Ontology (GO) and KEGG analyses highlighted disruptions in iron metabolism and lipid oxidation, linking iron overload to ferroptosis in the absence of <i>hepcidin</i>. These findings demonstrate that <i>hepcidin</i> deficiency leads to profound dysregulation of iron homeostasis, driving lipid peroxidation and ferroptosis in the zebrafish liver. Our study provides mechanistic insights into the molecular consequences of <i>hepcidin</i> loss, advancing our understanding of iron-related oxidative damage and its physiological impacts.
ISSN:2410-3888

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