Hepatocyte-specific deletion of peroxisomal protein PEX13 results in disrupted iron homeostasis
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Bhatia, Maneet
Secondes, Eriza S
Melino, Michelle
Crane, Denis
Subramaniam, V Nathan
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Abstract
Peroxisomes are organelles, abundant in the liver, involved in a variety of cellular functions, including fatty acid metabolism, plasmalogen synthesis and metabolism of reactive oxygen species. Several inherited disorders are associated with peroxisomal dysfunction; increasingly many are associated with hepatic pathologies. The liver plays a principal role in regulation of iron metabolism. In this study we examined the possibility of a relationship between iron homeostasis and peroxisomal integrity. We examined the effect of deleting Pex13 in mouse liver on systemic iron homeostasis. We also used siRNA-mediated knock-down of PEX13 in a human hepatoma cell line (HepG2/C3A) to elucidate the mechanisms of PEX13-mediated regulation of hepcidin. We demonstrate that transgenic mice lacking hepatocyte Pex13 have defects in systemic iron homeostasis. The ablation of Pex13 expression in hepatocytes leads to a significant reduction in hepatic hepcidin levels. Our results also demonstrate that a deficiency of PEX13 gene expression in HepG2/C3A cells leads to decreased hepcidin expression, which is mediated through an increase in the signalling protein SMAD7, and endoplasmic reticulum (ER) stress. This study identifies a novel role for a protein involved in maintaining peroxisomal integrity and function in iron homeostasis. Loss of Pex13, a protein important for peroxisomal function, in hepatocytes leads to a significant increase in ER stress, which if unresolved, can affect liver function. The results from this study have implications for the management of patients with peroxisomal disorders and the liver-related complications they may develop.
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Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease
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1866
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10
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Biochemistry and cell biology
Medical biochemistry and metabolomics
Clinical sciences
Science & Technology
Life Sciences & Biomedicine
Biophysics
Molecular Biology
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Citation
Rishi, G; Bhatia, M; Secondes, ES; Melino, M; Crane, D; Subramaniam, VN, Hepatocyte-specific deletion of peroxisomal protein PEX13 results in disrupted iron homeostasis, Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease, 2020, 1866 (10), pp. 165882