Regulation of hepcidin in HepG2 and RINm5F cells

Despite the high impact of the antimicrobial peptide hepcidin in iron homeostasis, the regulation of this hormone is still not completely understood. Studies concerning hepcidin regulation are performed at the mRNA level. For the first time we analyzed the regulation of hepcidin not only at mRNA, but also at protein level in a hepatoma and a pancreatic beta cell line using quantitative RT-PCR and immunoblot analysis. Our data show, that hepcidin is present in HepG2 and RINm5F cells. A significant up-regulation of hepcidin was observed in both cell lines by the inflammatory cytokine interleukin-6, lipopolysaccharide, and a slight upregulation by deferoxamine. A down-regulation was detected after stimulation with erythropoietin. Hepcidin was regulated by iron in a dose dependent manner: low doses up to 3 microM increased hepcidin expression, high doses of iron (65 microM) revealed a switch-over to down-regulation of hepcidin expression. Regulation of hepcidin in HepG2 and RINm5F cells at mRNA and protein level by these substances indicates its involvement in inflammation and iron metabolism.     

Hepcidin的生物学特性及其研究进展

Hepcidin是一种由肝脏合成的富含半胱氨酸的小分子肽。近几年的研究证实hepcidin对于调节机体铁离子的代谢平衡发挥着重要的作用,其可抑制肠道铁吸收和单核巨噬细胞系统铁释放。此外,除了机体铁状况,感染、炎症、贫血和缺氧等原因也会改变hepcidin的表达水平。通过对hepcidin的分子生物学特点、表达调控及生物活性、医学及药用价值等方面研究进展的概述,对采用基因工程的方法生产hepcidin进行了评述及展望。     

Iron regulatory and bactericidal properties of human recombinant hepcidin expressed in Pichia pastoris

Hepcidin is a circulating cysteine-rich peptide with antimicrobial properties. It functions as a hormonal regulator of iron homeostasis by controlling iron efflux from target cells via ferroportin (FPN1), which is internalized and degraded upon hepcidin binding. Because of its profound biomedical significance, hepcidin has become the target of intense biochemical studies. The aim of this study was to produce functional recombinant hepcidin in sufficient quantities for advanced research or potential clinical use, as the native hepcidin can be isolated from urine in very low yield. We report the expression, purification and functional characterization of hepcidin variants in yeast P. pastoris. The yield of untagged hepcidin 20- and 25-mer peptides was too low for complete functional characterization. By contrast, Hep20 and Hep25 tagged with either single 6xHis or double Myc-6xHis epitopes were expressed at high quantities (5-7mg/l of culture), yet mostly in oligomeric forms. Purification of monomeric tagged hepcidins was achieved by size exclusion chromatography, with a yield of 0.5-1mg/l of culture. All recombinant hepcidins exhibited bacteriostatic activity and the ability to control cellular iron homeostasis, with Hep25-His being the most potent. Thus, Hep25-His promoted an increase in the levels of the labile iron pool (LIP) in macrophages and consistently bound to ferroportin (FPN1) causing its internalization and the subsequent downregulation of transferrin receptor 1 (TfR1) expression. Analysis by mass-spectrometry suggested that all eight cysteines participated in disulfide bond formation. Our results suggest that only the recombinant Hep25-His monomer was a fully active peptide. As Hep25-His faithfully recapitulates the functional properties of native Hep25, it represents a powerful tool for biochemical studies and potential diagnostic and therapeutic applications.     

Bass hepcidin synthesis, solution structure, antimicrobial activities and synergism, and in vivo hepatic response to bacterial infections

Bass hepcidin was purified from the gill of hybrid striped bass (Morone chrysops x Morone saxatilis) based on antimicrobial activity against Escherichia coli. This 21-amino acid peptide has 8 cysteines engaged in 4 disulfide bonds and is very similar to human hepcidin, an antimicrobial peptide with iron regulatory properties. To gain insight into potential role(s) of bass hepcidin in innate immunity in fish, we synthesized the peptide, characterized its antimicrobial activities in vitro, determined its solution structure by NMR, and quantified hepatic gene expression in vivo following infection of bass with the fish pathogens, Streptococcus iniae or Aeromonas salmonicida. Its structure is very similar to that of human hepcidin, including the presence of an antiparallel beta-sheet, a conserved disulfide-bonding pattern, and a rare vicinal disulfide bond. Synthetic bass hepcidin was active in vitro against Gram-negative pathogens and fungi but showed no activity against key Gram-positive pathogens and a single yeast strain tested. Hepcidin was non-hemolytic at microbicidal concentrations and had lower specific activity than moronecidin, a broad spectrum, amphipathic, alpha-helical, antimicrobial peptide constitutively expressed in bass gill tissue. Good synergism between the bacterial killing activities of hepcidin and moronecidin was observed in vitro. Hepcidin gene expression in bass liver increased significantly within hours of infection with Gram-positive (S. iniae) or Gram-negative (A. salmonicida) pathogens and was 4-5 orders of magnitude above base-line 24-48 h post-infection. Our results suggest that hepcidin plays a key role in the antimicrobial defenses of bass and that its functions are potentially conserved between fish and human.     

Hepcidin的基因克隆及其在毕赤酵母中的分泌表达

根据已知hepcidin氨基酸序列,参照毕赤氏巴斯德酵母(Pichia pastoris)密码子偏好性,设计合成了hepcidin目的基因。所合成的hepcidin基因全长96bp,其5′端引入KEX2基因产物(Kex2)的特异性识别位点序列,以保证表达产物具有天然N端。通过基因重组的方法将hepcidin基因克隆到pPicZαA载体中,构建了分泌型重组酵母表达载体pPICZαA-Hepc,经电转至毕赤酵母GS115中表达。使用浓度高达1500μg/mL的Zeocin筛选得到高拷贝插入GS115菌株,经摇瓶发酵和甲醇诱导,上清液有明显的hepcidin表达,表达量达到100mg/L。初步抗菌特性研究表明,该表达产物对枯草芽孢杆菌有明显的抑菌作用,而对大肠杆菌抑菌效果不明显。     

Bacteriostatic activity of the proregion of human hepcidin

Hepcidin was first identified as an antimicrobial peptide expressed in the liver. It was later demonstrated that hepcidin is in fact the long sought hormone that regulates iron homeostasis in mammals. Hepcidin is encoded as an 84 amino acid prepropeptide that is successively cleaved to yield prohepcidin and the mature 25 amino acid hepcidin. Both the bioactive 25-aa hepcidin and the 35-aa proregion are secreted by liver hepatocytes. The aim of the present study was to assess the antibacterial activity of the proregion peptide from human hepcidin. Using a chemically synthesized peptide corresponding to the proregion, we show that it is bactericidal against Bacillus megaterium (25μM), and inhibits Bacillus subtilis growth at high concentration (200μM). No synergistic interaction of proregion and Hepc25 against Bacillus megaterium was seen. In a further step, the mode of action of proregion on Bacillus megaterium was studied. It caused a slow accumulation of the vital stain SYTOX in the bacteria, indicating that it did not destroy the microbial membranes through a detergent-like mechanism, even at concentrations (80μM) higher than those required to kill the bacteria. This result suggests that the target of proregion might be an intracellular component. Finally, gel retardation assay showed that the DNA binding ability of the hepcidin proregion was equivalent to that observed for magainin 2, an antimicrobial peptide which exerts its antimicrobial effect by interfering with intracellular nucleic acids. In conclusion, we speculate that the proregion of hepcidin may have bacteriostatic effects, and as such may contribute to the innate immune response.     

利用FRET技术研究Hepcidin 和Fpn 相互作用

铁是生命必需的微量元素,ferroportin(Fpn)是小肠吸收细胞铁释放的重要蛋白。新近发现肝脏分泌的抗菌多肽 hepcidin 具有调节肠铁吸收的重要作用,但目前尚缺少Fpn和hepcidin发生作用的实验依据。应用荧光共振能量转移技术(fluorescence resonance energy transfer ,FRET)对hepcidin和Fpn之间的作用关系进行了深入研究。首先进行了hepcidin-CF P融合蛋白表达载体的构建及表达鉴定;然后对含YFP,Fpn-YFP基因动物细胞表达载体的构建、表达和FRET检测。实验结果证实hepcidin和Fpn之间存在直接的相互作用,并发现两种蛋白发生相互作用后hepcidin也在细胞质中有分布。为临床治疗铁代谢紊乱性疾病提供了新的治疗策略和重要理论依据。     

Hemojuvelin在铁稳态平衡中的关键作用

铁调素（hepcidin）是由肝脏分泌的一种肽类激素,它通过改变细胞膜上ferroportin的水平而调节全身铁代谢。Ferroportin是唯一已知的哺乳动物中的铁外排通道,它表达在小肠细胞的基底外侧膜和巨噬细胞的质膜上。铁调素结合ferroportin导致其在溶酶体内降解,从而减少铁从饮食的吸收和巨噬细胞铁的释放。Hemojuvelin（HJV）是一种glycosylphosphatidylinositol（GPI）相连的膜蛋白,它作为骨形态发生蛋白（BMP）的共受体可以激活肝细胞Smad信号通路和铁调素表达。除了表达在细胞膜上,hemojuvelin还可以被切割并分泌到胞外,形成可溶性蛋白。由furin切割产生的可溶性HJV可以选择性地结合到BMP配体,抑制内源性BMP诱导的铁调素表达。TMPRSS6也被认为可以切割细胞膜上HJV并影响铁调素的表达。最近的研究表明,HJV还可能参与脂肪组织对铁代谢的调控。综述了近期对细胞膜HJV和可溶性HJV如何调节铁调素的表达与铁代谢的研究结果,并对这一研究领域需要填补的空白进行了初步探讨。     

Expression, purification and structural characterization of recombinant hepcidin, an antimicrobial peptide identified in Japanese flounder, Paralichthys olivaceus

The cysteine-rich peptide hepcidin is an antimicrobial peptide and iron transport regulator that has been found in vertebrates including birds, fish and mammals. To elucidate the structure and biological function of fish hepcidin, which is difficult to produce synthetically, we have cloned several plasmid constructs encoding hepcidin from Japanese flounder, Paralichthys olivaceus, and tested expression of recombinant peptides, each with an N-terminal hexahistidine (6xHis) tag, in inclusion bodies or the periplasmic space of Escherichia coli. Hepcidin expressed in inclusion bodies was reduced, and subsequently refolded using a dilution technique with a cysteine redox system. The oxidized His-hepcidin monomer was separated from protein multimers and mass spectrometry analysis showed that the peptide was of the predicted size and contained four disulfide bonds. Removal of the 6xHis tag was attempted using enzymatic cleavage by Factor Xa and tobacco etch virus (TEV) protease or chemical cleavage by hydroxylamine. The Factor Xa cleavage was unsuccessful and hydroxylamine cleavage resulted in aggregation of cleaved peptide. TEV protease cleavage was successful but immediately resulted in hexamer formation despite varying reaction conditions (redox, non-redox, pH, temperature, target protein concentration, type of buffer). However, the recombinant His-hepcidin fusion peptide monomer showed considerable antimicrobial activity. NMR-based studies showed that hepcidin contained a rare vicinal disulfide linkage at the top of a loop structure and a short beta-sheet structure encompassing residues 7-13 and 19-25 that is stabilized by three disulfide bonds.     

Production of biologically active forms of recombinant hepcidin, the iron-regulatory hormone

Hepcidin is a liver produced cysteine-rich peptide hormone that acts as the central regulator of body iron metabolism. Hepcidin is synthesized under the form of a precursor, prohepcidin, which is processed to produce the biologically active mature 25 amino acid peptide. This peptide is secreted and acts by controlling the concentration of the membrane iron exporter ferroportin on intestinal enterocytes and macrophages. Hepcidin binds to ferroportin, inducing its internalization and degradation, thus regulating the export of iron from cells to plasma. The aim of the present study was to develop a novel method to produce human and mouse recombinant hepcidins, and to compare their biological activity towards their natural receptor ferroportin. Hepcidins were expressed in Escherichia coli as thioredoxin fusion proteins. The corresponding peptides, purified after cleavage from thioredoxin, were properly folded and contained the expected four-disulfide bridges without the need of any renaturation or oxidation steps. Human and mouse hepcidins were found to be biologically active, promoting ferroportin degradation in macrophages. Importantly, biologically inactive aggregated forms of hepcidin were observed depending on purification and storage conditions, but such forms were unrelated to disulfide bridge formation.     

Animal models with enhanced erythropoiesis and iron absorption

The regulation of iron absorption is of considerable interest in mammals since excretion is minimal. Recent advances in iron metabolism have expounded the molecular mechanisms by which iron absorption is attuned to the physiological demands of the body. The pinnacle was the discovery and identification of hepcidin, a hepatic antimicrobial peptide that regulates absorption to maintain iron homeostasis. While the intricacies of its expression and regulation by HFE, transferrin receptor 2 and hemojuvelin are still speculative, hepcidin responsiveness has correlated negatively with iron absorption in different models and disorders of iron metabolism. Consequently, hepcidin expression is repressed to enhance iron absorption during stimulated erythropoiesis even in situations of elevated iron stores. Animal models have been crucial to the advances in understanding iron metabolism and the present review focuses on phenylhydrazine treated and hypotransferrinaemic rodents. These, respectively, experimental and genetic models of enhanced erythropoiesis highlight the shifting focus of iron absorption regulation from the marrow to the liver.     

Hepcidin Regulation by BMP Signaling in Macrophages Is Lipopolysaccharide Dependent

Hepcidin is an antimicrobial peptide, which also negatively regulates iron in circulation by controlling iron absorption from dietary sources and iron release from macrophages. Hepcidin is synthesized mainly in the liver, where hepcidin is regulated by iron loading, inflammation and hypoxia. Recently, we have demonstrated that bone morphogenetic protein (BMP)-hemojuvelin (HJV)-SMAD signaling is central for hepcidin regulation in hepatocytes. Hepcidin is also expressed by macrophages. Studies have shown that hepcidin expression by macrophages increases following bacterial infection, and that hepcidin decreases iron release from macrophages in an autocrine and/or paracrine manner. Although previous studies have shown that lipopolysaccharide (LPS) can induce hepcidin expression in macrophages, whether hepcidin is also regulated by BMPs in macrophages is still unknown. Therefore, we examined the effects of BMP signaling on hepcidin expression in RAW 264.7 and J774 macrophage cell lines, and in primary peritoneal macrophages. We found that BMP4 or BMP6 alone did not have any effect on hepcidin expression in macrophages although they stimulated Smad1/5/8 phosphorylation and Id1 expression. In the presence of LPS, however, BMP4 and BMP6 were able to stimulate hepcidin expression in macrophages, and this stimulation was abolished by the NF-κB inhibitor Ro1069920. These results suggest that hepcidin expression is regulated differently in macrophages than in hepatocytes, and that BMPs regulate hepcidin expression in macrophages in a LPS-NF-κB dependent manner.     

Characterisation of recombinant unglycosylated human serum transferrin purified from Saccharomyces cerevisiae

Structural identity between a recombinant transferrin mutant (N413Q, N611Q) secreted from Saccharomyces cerevisiae and the native protein was shown by CD analysis and immunodiffusion assays against anti-hSTf. The ability of the recombinant protein to bind iron was confirmed by urea–PAGE and EPR analysis of the iron-saturated protein revealed the characteristic holo-transferrin spectrum, indicating conservation of both iron-binding sites. The integrity of the unglycosylated recombinant protein indicates that such protein could be a valuable tool not only for structure–function characterisation but also crystallisation assays. In addition, the recombinant transferrin was found to be as effective as native transferrin as a growth factor in cell culture medium.     

The C19S Substitution Enhances the Stability of Hepcidin While Conserving Its Biological Activity

Hepcidin, the key hormone of iron homeostasis is responsible for lowering the serum iron level through its interaction with iron exporter ferroportin. Thus, hepcidin agonists provide a promising opportunity in the treatment of iron disorders caused by lacking or decreased hepcidin expression. We investigated the importance of each of the eight highly conserved cysteines for the biological activity of hepcidin. Eight cysteine mutants were created with site directed mutagenesis. The binding ability of these hepcidin mutants to the hepcidin receptor ferroportin was determined using bacterial two-hybrid system and WRL68 human hepatic cells. The biological activity of hepcidin mutants was determined by western blot analysis of ferroportin internalization and ferroportin ubiquitination. To investigate the effect of mutant hepcidins on the iron metabolism of the WRL68 cells, total intracellular iron content was measured with a colorimetric assay. The stability of M6 hepcidin mutant was determined using ELISA technique. Our data revealed that serine substitution of the sixth cysteine (M6) yielded a biologically active but significantly more stable peptide than the original hormone. This result may provide a promising hepcidin agonist worth testing in animal models.     

Hepcidin研究进展

Hepcidin是肝脏特异性表达的一种小分子抗菌肽,是铁代谢的负调节激素。与炎症性贫血、遗传性血色沉着病等疾病的发病机制密切相关。证据显示,Hepcidin直接抑制肠上皮细胞铁吸收和诱导单核巨噬细胞铁滞留。同时,Hepcidin还具有广谱抗菌活性,与固有免疫密切相关。铁超载、感染、炎症及细胞因子可诱导Hepcidin表达,而贫血和缺氧则抑制其表达。Hepcidin的发现及其相关的铁离子运输机制的研究,将为铁离子吸收及分配的铁稳态调节和炎症性贫血、遗传性血色沉着病中的铁代谢障碍的分子机制探索开辟新的途径。本文就Hepcidin的分子特征、表达调控及生物学功能等方面研究进展进行综述。     

Molecular characterization of a novel hepcidin (HepcD) from Camelus dromedarius. Synthetic peptide forms exhibit antibacterial activity

Hepcidin is a cysteine‐rich peptide widely characterized in immunological processes and antimicrobial activity in several vertebrate species. Obviously, this hormone plays a central role in the regulation of systemic iron homeostasis. However, its role in camelids' immune response and whether it is involved in antibacterial immunity have not yet been proven. In this study, we characterized the Arabian camel hepcidin nucleotide sequence with an open reading frame of 252 bp encoding an 83‐amino acid preprohepcidin peptide. Eight cysteine key residues conserved in all mammalian hepcidin sequences were identified. The model structure analysis of hepcidin‐25 peptide showed a high homology structure and sequence identity to the human hepcidin. Two different hepcidin‐25 analogs manually synthesized by SPPS shared significant cytotoxic capacity toward the Gram‐negative bacterium Escherichia coli American Type Culture Collection (ATCC) 8739 as well as the Gram‐positive bacteria Bacillus subtilis ATCC 11779 and Staphylococcus aureus ATCC 6538 in vitro. The three disulfide bridges hepcidin analog demonstrated bactericidal activity, against B. subtilis ATCC 11779 and S. aureus ATCC 6538 strains, at the concentration of 15 μM (50 µg/ml) or above at pH 6.2. This result correlates with the revealed structural features suggesting that camel hepcidin is proposed to be involved in antibacterial process of innate immune response. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Identification of an iron-hepcidin complex

Following its identification as a liver-expressed antimicrobial peptide, the hepcidin peptide was later shown to be a key player in iron homoeostasis. It is now proposed to be the 'iron hormone' which, by interacting with the iron transporter ferroportin, prevents further iron import into the circulatory system. This conclusion was reached using the corresponding synthetic peptide, emphasizing the functional importance of the mature 25-mer peptide, but omitting the possible functionality of its maturation. From urine-purified native hepcidin, we recently demonstrated that a proportion of the purified hepcidin had formed iron-hepcidin complexes. This interaction was investigated further by computer modelling and, based on the sequence similarity of hepcidin with metallothionein, a three-dimensional model of hepcidin, containing one atom of iron, was constructed. To characterize these complexes further, the interaction with iron was analysed using different spectroscopic methods. Monoferric hepcidin was identified by MS, as were possibly other complexes containing two and three atoms of iron respectively, although these were present only in minor amounts. UV/visible absorbance and CD studies identified the iron-binding events which were facilitated at a physiological pH. EPR spectroscopy identified the ferric state of the bound metal, and indicated that the iron-hepcidin complex shares some similarities with the rubredoxin iron-sulfur complex, suggesting the presence of Fe(3+) in a tetrahedral sulfur co-ordination. The potential roles of iron binding for hepcidin are discussed, and we propose either a regulatory function in the maturation of pro-hepcidin into active hepcidin or as the necessary link in the interaction between hepcidin and ferroportin.