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Regulatory Connections between Iron and Glucose Metabolism

Carine Fillebeen, Nhat Hung Lam, Samantha Chow, Amy Botta, Gary Sweeney, Kostas Pantopoulos

2020International Journal of Molecular Sciences70 citationsDOIOpen Access PDF

Abstract

Iron is essential for energy metabolism, and states of iron deficiency or excess are detrimental for organisms and cells. Therefore, iron and carbohydrate metabolism are tightly regulated. Serum iron and glucose levels are subjected to hormonal regulation by hepcidin and insulin, respectively. Hepcidin is a liver-derived peptide hormone that inactivates the iron exporter ferroportin in target cells, thereby limiting iron efflux to the bloodstream. Insulin is a protein hormone secreted from pancreatic β-cells that stimulates glucose uptake and metabolism via insulin receptor signaling. There is increasing evidence that systemic, but also cellular iron and glucose metabolic pathways are interconnected. This review article presents relevant data derived primarily from mouse models and biochemical studies. In addition, it discusses iron and glucose metabolism in the context of human disease.

Topics & Concepts

HepcidinFerroportinMetabolismCarbohydrate metabolismInsulinHormoneEndocrinologyContext (archaeology)BiologyGlucose uptakeInternal medicineBiochemistryChemistryMedicineInflammationIron homeostasisImmunologyPaleontologyIron Metabolism and DisordersHemoglobinopathies and Related DisordersRNA modifications and cancer
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