Iron deficiency and its epigenetic effects on iron homeostasis

Iron deficiency is a common micronutrient deficiency associated with metabolic changes in the levels of iron regulatory proteins, hepcidin and ferroportin. Studies have associated dysregulation of iron homeostasis to other secondary and life-threatening diseases including anaemia, neurodegeneration and metabolic diseases. Iron deficiency plays a critical role in epigenetic regulation by affecting the Fe²⁺/α-ketoglutarate-dependent demethylating enzymes, Ten Eleven Translocase 1–3 (TET 1–3) and Jumonji-C (JmjC) histone demethylase, which are involved in epigenetic erasure of the methylation marks on both DNA and histone tails, respectively. In this review, studies involving epigenetic effects of iron deficiency associated with dysregulation of TET 1–3 and JmjC histone demethylase enzyme activities on hepcidin/ferroportin axis are discussed.     

重组Hepcidin融合蛋白的氧化复性及活性鉴定

将诱导表达的His-hepcidin融合蛋白包涵体通过固定化金属离子配体亲和层析(IMAC)柱分离纯化后,在cys-teine/cystine氧化还原体系中氧化形成二硫键,稀释复性后用肠激酶将融合蛋白的his-tag切除。酶切后所得的Hepcidin经抑菌圈试验检验,对枯草芽孢杆菌等革兰氏阳性菌和部分革兰氏阴性菌具有抗菌活性。     

Matriptase-2- and proprotein convertase-cleaved forms of hemojuvelin have different roles in the down-regulation of hepcidin expression

Hemojuvelin (HJV) is an important regulator of iron metabolism. Membrane-anchored HJV up-regulates expression of the iron regulatory hormone, hepcidin, through the bone morphogenic protein (BMP) signaling pathway by acting as a BMP co-receptor. HJV can be cleaved by the furin family of proprotein convertases, which releases a soluble form of HJV that suppresses BMP signaling and hepcidin expression by acting as a decoy that competes with membrane HJV for BMP ligands. Recent studies indicate that matriptase-2 binds and degrades HJV, leading to a decrease in cell surface HJV. In the present work, we show that matriptase-2 cleaves HJV at Arg(288), which produces one major soluble form of HJV. This shed form of HJV has decreased ability to bind BMP6 and does not suppress BMP6-induced hepcidin expression. These results suggest that the matriptase-2 and proprotein convertase-cleavage products have different roles in the regulation of hepcidin expression.     

Purification and partial characterisation of recombinant human hepcidin

Hepcidin is a liver-expressed antimicrobial and iron regulatory peptide. A number of studies have indicated that hepcidin is important for the correct regulation of body iron homeostasis. The aims of this study were to analyse the expression, trafficking and regulation of human hepcidin in an in vitro cell culture system. Human hepcidin was transfected into human embryonic kidney cells. Immunofluorescence and confocal microscopy analysis revealed that recombinant hepcidin localised to the Golgi complex. Recombinant hepcidin is secreted from the cell within 1 h of its synthesis. Recombinant hepcidin was purified from the cell culture medium using ion-exchange and metal-affinity chromatography and was active in antimicrobial assays. Amino-terminal sequence analysis of the secreted peptide revealed that it was the mature 25 amino acid form of hepcidin. Our results show that recombinant myc-His tagged human hepcidin was expressed, processed and secreted correctly and biologically active in antimicrobial assays.     

Hepcidin protects against lipopolysaccharide-induced liver injury in a mouse model of obstructive jaundice

Obstructive jaundice (OJ) increases the risk of liver injury and sepsis, leading to increased mortality. Cholestatic liver injury is associated with a downregulation of hepcidin expression levels. In fact, hepcidin has an important antimicrobial effect, especially against Escherichia coli. It is unknown whether supplementing recombinant hepcidin is effective in alleviating cholestasis-induced liver injury and mortality in mice with superimposed sepsis. A mouse model of cholestasis was developed using extrahepatic bile duct ligation for 3 days. In addition, sepsis due to E. coli 0111:B4 lipopolysaccharide (LPS) was induced in the model. The serum levels of total bilirubin, AST, ALT, and LDH and the mRNA levels of IL-1β, TNF-α, and MCP-1 in the liver were significantly higher in the OJ mice receiving LPS than in the sham-operated mice receiving LPS. Compared to the OJ mice receiving LPS, the hepcidin-pretreated OJ mice receiving LPS showed a significant decrease in the above mentioned parameters, as well as a reversal in the downregulation of LC3B-II and upregulation of cleaved caspase-3; this, in turn, led to significantly decreased lethality in 24h. In conclusion, these results indicate that hepcidin pretreatment significantly reduced hepatic proinflammatory cytokine expression and liver injury, leading to reduced early lethality in OJ mice receiving LPS. Enhanced autophagy and reduced apoptosis may account for the protective effects of hepcidin.     

中华鲟抗菌肽Hepcidin的克隆、表达及其抗菌活性分析

Hepcidin也称为铁调素,是在肝脏中特异表达的一种阳离子小分子抗菌肽。2000年,Krause,et al.首先从人血液中分离纯化得到了由25个氨基酸组成的LEAP-1抗菌肽[1]。2002年,Shike,et al.首次从杂交条纹鲈的鳃分离出鱼类Hepcidin,并从金眼狼鲈(Morone chrysops)克隆到     

HFE association with transferrin receptor 2 increases cellular uptake of transferrin-bound iron

Mutations in either HFE or transferrin receptor 2 (TfR2) cause decreased expression of the iron regulatory hormone hepcidin and hemochromatosis. HFE and TfR2 were recently discovered to form a stable complex at the cell membrane when co-expressed in heterologous cell lines. We analyzed the functional consequences of the co-expression of these proteins using transfected TRVb cells, a Chinese hamster ovary derived cell line without endogenous HFE or transferrin receptor. The co-expression of TfR2 in TRVb cells expressing HFE led to accelerated HFE biosynthesis and late-Golgi maturation, suggesting interaction prior to cell surface localization. The co-expression of HFE in cells expressing TfR2 led to increased affinity for diferric transferrin, increased transferrin-dependent iron uptake, and relative resistance to iron chelation. These observations indicate that HFE influences the functional properties of TfR2, and suggests a model in which the interaction of these proteins might influence signal transduction to hepcidin.     

Inflammation neither increases hepatic hepcidin nor affects intestinal 59Fe-absorption in two murine models of bowel inflammation,hemizygous TNFΔARE/+ and homozygous IL-10−/− mice

Hepcidin-synthesis was reported to be stimulated by inflammation. In contrast, hepcidin synthesis was inhibited by TNFα and serum hepcidin was low. To elucidate these contradictions, we compare data on hepcidin expression, on iron absorption and homoeostasis and markers of inflammation between two murine models of intestinal inflammation and corresponding wild-types as determined by standard methods.In TNF^ΔARE/+ and IL-10^−/−-mice hepatic hepcidin expression and protein content was significantly lower than in corresponding wild-types. However, ⁵⁹Fe whole-body retention showed no difference between knock-outs and corresponding wild-types 7d after gavage, in neither strain. Compared to wild-types, body weight, hepatic non-haem iron content, hemoglobin and hematocrit were significantly decreased in TNF^ΔARE/+ mice, while erythropoiesis increased. These differences were not seen in IL-10^−/− mice. Duodenal IL-6 and TNFα content increased significantly in TNF^ΔARE/+ mice, while ferritin-H decreased along with hepatic hepcidin expression, ferritin L, and non-haem iron. In IL-10^−/− mice, these changes were less marked or missing for non-haem iron. Duodenal ferritin-L and ferroportin increased significantly, while HFE decreased.Our results corroborate the conflicting combination of low hepcidin with inflammation and without increased intestinal iron absorption. Speculating on underlying mechanism, decreased hepcidin may result from stimulated erythropoiesis. Unaltered intestinal iron-absorption may compromise between the stimulation by increased erythropoiesis and inhibition by local and systemic inflammation. The findings suggest intense interaction between counterproductive mechanisms and ask for further research.     

Discovery of DS42450411 as a potent orally active hepcidin production inhibitor: Design and optimization of novel 4-aminopyrimidine derivatives

Hepcidin has emerged as the central regulatory molecule in systemic iron homeostasis. The inhibition of hepcidin may be a favorable strategy for the treatment of anemia of chronic disease. Here, we have reported the design, synthesis, and structure–activity relationships (SAR) of a series of 4-aminopyrimidine compounds as inhibitors of hepcidin production. The optimization study of 1 led to the design of a potent and bioavailable inhibitor of hepcidin production, 34 (DS42450411), which showed serum hepcidin-lowering effects in a mouse model of interleukin-6-induced acute inflammation.     

Synthesis and SAR studies of 3,6-disubstituted indazole derivatives as potent hepcidin production inhibitors

Hepcidin has emerged as the central regulatory molecule of systemic iron homeostasis. Inhibition of hepcidin could be a strategy favorable to treating anemia of chronic disease (ACD). We report herein the synthesis and structure-activity relationships (SARs) of a series of indazole compounds as hepcidin production inhibitors. The optimization study of compound 1 led to a potent hepcidin production inhibitor 45, which showed serum hepcidin lowering effects in a mouse IL-6 induced acute inflammatory model.