D Stefanova scite author profile

Nonclassical ferroportin disease (FD) is a form of hereditary hemochromatosis caused by mutations in the iron transporter ferroportin (Fpn), resulting in parenchymal iron overload. Fpn is regulated by the hormone hepcidin, which induces Fpn endocytosis and cellular iron retention. We characterized 11 clinically relevant and 5 nonclinical Fpn mutations using stably transfected, inducible isogenic cell lines. All clinical mutants were functionally resistant to hepcidin as a consequence of either impaired hepcidin binding or impaired hepcidin-dependent ubiquitination despite intact hepcidin binding. Mapping the residues onto 2 computational models of the human Fpn structure indicated that (1) mutations that caused ubiquitination-resistance were positioned at helix-helix interfaces, likely preventing the hepcidin-induced conformational change, (2) hepcidin binding occurred within the central cavity of Fpn, (3) hepcidin interacted with up to 4 helices, and (4) hepcidin binding should occlude Fpn and interfere with iron export independently of endocytosis. We experimentally confirmed hepcidin-mediated occlusion of Fpn in the absence of endocytosis in multiple cellular systems: HEK293 cells expressing an endocytosis-defective Fpn mutant (K8R), oocytes expressing wild-type or K8R Fpn, and mature human red blood cells. We conclude that nonclassical FD is caused by Fpn mutations that decrease hepcidin binding or hinder conformational changes required for ubiquitination and endocytosis of Fpn. The newly documented ability of hepcidin and its agonists to occlude iron transport may facilitate the development of broadly effective treatments for hereditary iron overload disorders.

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Endogenous hepcidin and its agonist mediate resistance to selected infections by clearing non–transferrin-bound iron

Stefanova

et al. 2017

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The iron-regulatory hormone hepcidin is induced early in infection, causing iron sequestration in macrophages and decreased plasma iron; this is proposed to limit the replication of extracellular microbes, but could also promote infection with macrophage-tropic pathogens. The mechanisms by which hepcidin and hypoferremia modulate host defense, and the spectrum of microbes affected, are poorly understood. Using mouse models, we show that hepcidin was selectively protective against siderophilic extracellular pathogens ( O9) by controlling non-transferrin-bound iron (NTBI) rather than iron-transferrin concentration. NTBI promoted the rapid growth of siderophilic but not nonsiderophilic bacteria in mice with either genetic or iatrogenic iron overload and in human plasma. Hepcidin or iron loading did not affect other key components of innate immunity, did not indiscriminately promote intracellular infections (), and had no effect on extracellular nonsiderophilic O8 or Hepcidin analogs may be useful for treatment of siderophilic infections.

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Hepcidin Protects against Lethal Escherichia coli Sepsis in Mice Inoculated with Isolates from Septic Patients

et al. 2018

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Iron is an essential micronutrient for most microbes and their hosts. Mammalian hosts respond to infection by inducing the iron-regulatory hormone hepcidin, which causes iron sequestration and a rapid decrease in the plasma and extracellular iron concentration (hypoferremia). Previous studies showed that hepcidin regulation of iron is essential for protection from infection-associated mortality with the siderophilic pathogens and However, the evolutionary conservation of the hypoferremic response to infection suggests that not only rare siderophilic bacteria but also common pathogens may be targeted by this mechanism. We tested 10 clinical isolates of from children with sepsis and found that both genetic iron overload (by hepcidin-1 knockout [HKO]) and iatrogenic iron overload (by intravenous iron) potentiated infection with 8 out of the 10 studied isolates: after peritoneal injection of, iron-loaded mice developed sepsis with 60% to 100% mortality within 24 h, while control wild-type mice suffered 0% mortality. Using one strain for more detailed study, we show that iron overload allows rapid bacterial multiplication and dissemination. We further found that the presence of non-transferrin-bound iron (NTBI) in the circulation is more important than total plasma or tissue iron in rendering mice susceptible to infection and mortality. Postinfection treatment of HKO mice with just two doses of the hepcidin agonist PR73 abolished NTBI and completely prevented sepsis-associated mortality. We demonstrate that the siderophilic phenotype extends to clinically common pathogens. The use of hepcidin agonists promises to be an effective early intervention in patients with infections and dysregulated iron metabolism.

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Depot-Protection Against γ-Irradiation in Mice by Parenteral Glutathione-Polyvinylpyrrolidone Coprecipitates and Cellular Drug Uptake

et al. 1990

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Glutathione (GSH)-polyvinylpyrrolidone (PVP) coprecipitates in various GSH : PVP ratios. and PVP molecular weights were tested as radioprotectors in I'iro on mice and in vitro on Chinese hamster V79 cells.Highest depot protective effectiveness was obtained for 30CoGSH-1 in mice treated 24 and 48 hours before I'-irradiation. Studies on the uptake of 35S-GSH and 35S-GSH-PVP showed that uptake strongly depends on the drug: PVP ratio. cell contact time and molecular weight of PVP. with a general inhibition of the influx of extracellular GSH.The results indicate that the complex is less penetrable. but more eflective in bondage to cytoplasmic proteins and membrane with a consequent increase in radioprotection .

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Synthesis and pharmacological investigations of some quinazolone derivatives

et al. 1973

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D Stefanova

Structure-function analysis of ferroportin defines the binding site and an alternative mechanism of action of hepcidin

Endogenous hepcidin and its agonist mediate resistance to selected infections by clearing non–transferrin-bound iron

Hepcidin Protects against Lethal Escherichia coli Sepsis in Mice Inoculated with Isolates from Septic Patients

Depot-Protection Against γ-Irradiation in Mice by Parenteral Glutathione-Polyvinylpyrrolidone Coprecipitates and Cellular Drug Uptake

Synthesis and pharmacological investigations of some quinazolone derivatives

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