Hepcidin,调节铁代谢平衡的新型抗菌肽

Hepcidin是一种富含半胱氨酸的新型抗菌肽,在哺乳动物肝脏中特异表达,具有抗细菌和真菌等抗菌肽的特性。更重要的是,其在机体铁代谢平衡的调节中起关键作用,并参与多种铁代谢紊乱疾病的发病机制。对Hepcidin的进一步研究,有助于开发治疗铁代谢异常疾病的新药物。     

Hepcidin在哺乳类及鱼类中的表达和作用

Hepcidin也称为铁调素,是肝脏特异性表达的一种阳离子小分子抗菌肽,具有抑制多种细菌、真菌、病毒和原生动物生长繁殖的作用,是机体天然免疫的一种效应分子;同时也是一种信号分子,参与机体铁代谢,通过直接抑制肠上皮细胞铁吸收和单核巨噬细胞铁释放调节机体铁平衡,与炎症性贫血、遗传性血色素沉着病等铁代谢紊乱性疾病的发病机制密切相关。脂多糖（LPS）、铁超载和病原体可诱导hepcidin表达,而贫血和缺氧可下调其表达。目前,鱼类hepcidin的研究也成为热点,但主要集中在hepcidin的抗菌活性方面,有关其在鱼类铁代谢方面的功能仍需要进一步研究。     

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。     

乳铁多肽,一种具有潜在抗菌能力的活性多肽

乳铁多肽(1actoferricin,Lfcin)是具有广谱杀菌,抑真菌,抑病毒,抑杀肿瘤细胞等作用的一类活性多肽,是乳铁蛋白(lactoferrin,Lf)经蛋白酶水解而产生的。该主要介绍Lfcin的来源、结构特征、生物学功能及机制等方面的研究进展。     

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     

Hepcidin非铁调控因子研究进展

铁调素（Hepcidin）是由肝细胞分泌的维持人体系统性铁平衡的核心因子,其通过改变细胞膜铁转运蛋白（ferroportin,Fpn）的表达量以调控肠黏膜细胞和巨噬细胞内铁的转出水平,从而决定机体循环铁水平并影响肝脏等主要储铁脏器的铁负荷程度。根据近年来的研究发现,影响Hepcidin表达的主要因素可以归纳为两个方面：一是机体本身对铁的需求,而由于铁本身又是Hb（hemoglobin,血红蛋白）的合成原料以及携氧成份,因此还应包括机体对Hb合成和缺氧的反应,介导因子主要包括携铁转铁蛋白（holo—transferrin,holo—Tf）、促红细胞生成素（erythropoietin,EPO）和缺氧诱导因子-1（hypoxia．inducible factor1,HIF．1）;另一则是源于疾病病理过程中相关致病因素、细胞因子、激素等非铁调控因子的改变对其表达调控机制产生的影响,并通过扰乱机体铁稳态加速疾病的发展或加重病情。随着研究资料的积累,糖尿病、部分心血管疾病、酒精性或非酒精性脂肪肝等慢性疾病存在铁过负荷已是不争的事实,多种hepcidin非铁调控因子在代谢紊乱型铁过负荷综合征（sysmetabolic iron overload syndrome）发生过程中的作用受到了广泛重视。对一些常见疾病中引起hepcidin表达变化异常和铁代谢紊乱的非铁因子及其作用机制的研究进展进行综述。     

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。     

草鱼抗菌肽Hepcidin过表达对拟态弧菌生长和NF-κB通路的影响

【背景】拟态弧菌(Vibrio mimicus)是一种严重危害水产养殖业的病原菌,可引起鱼类弧菌病,目前使用抗生素防治该病存在较多弊端。【目的】在细胞水平探讨过表达草鱼抗菌肽Hepcidin (CiHep)对拟态弧菌生长和NF-κB通路的影响。【方法】构建重组真核表达质粒pEGFP-N1-Cihep和pcDNA3.1(+)-Cihep。将pEGFP-N1-Cihep转染草鱼肾细胞系(Ctenopharyngodon idellakidney,CIK),通过免疫荧光法和Western blotting检测转染后不同时间融合蛋白EGFP-CiHep的表达情况。进一步检测转染pcDNA3.1(+)-Cihep后的CIK细胞培养上清液对拟态弧菌生长的影响,以及转染细胞内NF-κB通路激活关键基因和下游免疫相关基因的转录水平。【结果】融合蛋白EGFP-CiHep在CIK细胞内能够良好表达,且以转染后48 h的表达量最高;转染后的细胞培养上清液能够显著抑制拟态弧菌生长;过表达CiHep可显著改变NF-κB通路激活关键基因和下游免疫相关基因的转录水平。【结论】 CiHep具有抑制拟态弧菌生长和激活NF-κB通路的作用。研究结果为鱼源Hepcidin的开发应用提供了理论依据,有望实现从激活NF-κB通路正向调控抗菌肽表达的新角度防治鱼类拟态弧菌病。     

铁吸收调节蛋白的研究现状

铁吸收调节蛋白(ferric uptake regulator,Fur)是多种微生物菌体内调控铁的一种蛋白质,它编码一个铁感应器以及转录调控因子,可以根据细胞内Fe2+的浓度,氧化应激以及毒性来调控铁载体合成相关基因的表达。研究发现Fur不仅调节与铁相关的物质代谢,也与其他的物质代谢有着紧密的联系。综合国内外研究进展介绍了Fur的结构与功能,阐述了Fur在生物冶金、农业、医药等方面的研究进展,并对其应用前景以及研究趋势进行了展望。     

铁代谢调节分子Erythroferrone研究进展

红细胞来源的erythroferrone (ERFE)是最近发现的一种重要的铁代谢调节蛋白。在应激红细胞生成过程中,促红细胞生成素（EPO）能够促使骨髓有核红细胞分泌ERFE,从而抑制肝脏铁调素合成,进而稳定铁释放蛋白（FPN1）的水平,最终增加铁的吸收和动员。铁是红细胞生成不可缺少的重要原料之一,当红细胞生成增加时,需要充足的铁来合成血红素和血红蛋白。血液中的ERFE在红细胞生成时为保障稳定的铁供应发挥着重要作用。本文就ERFE的发现、基因结构和蛋白质结构、分布,ERFE在糖脂代谢、红细胞生成和铁代谢中的作用,以及ERFE功能异常与β-地中海贫血和慢性肾脏疾病等疾病的联系,ERFE在基础研究与临床检测中的应用,尤其是EPO/ERFE/hepcidin-FPN1在铁代谢调控中的作用机制展开论述,以期为靶向治疗铁代谢失衡疾病提供参考。     

铁代谢与铁调素hepcidin

铁是机体必需的营养元素。然而,铁过载则导致细胞的损伤。由于生物体缺少排泄铁的机制,因而,肠铁吸收的调控便成为维持机体铁稳态的关键。新近研究发现hepcidin对机体铁稳态的调节起着至关重要的作用,被人们称为铁调节激素。Hepcidin主要在肝细胞中合成,之后分泌至血液将体内铁需要的信号传至小肠,调控肠铁的吸收。这一过程主要通过调节小肠铁转运相关蛋白的表达而实现。任何影响hepcidin表达的因素都可能破坏体内的铁平衡,造成铁代谢相关疾病。     

Hepcidin, a urinary antimicrobial peptide synthesized in the liver

Cysteine-rich antimicrobial peptides are abundant in animal and plant tissues involved in host defense. In insects, most are synthesized in the fat body, an organ analogous to the liver of vertebrates. From human urine, we characterized a cysteine-rich peptide with three forms differing by amino-terminal truncation, and we named it hepcidin (Hepc) because of its origin in the liver and its antimicrobial properties. Two predominant forms, Hepc20 and Hepc25, contained 20 and 25 amino acid residues with all 8 cysteines connected by intramolecular disulfide bonds. Reverse translation and search of the data bases found homologous liver cDNAs in species from fish to human and a corresponding human genomic sequence on human chromosome 19. The full cDNA by 5' rapid amplification of cDNA ends was 0.4 kilobase pair, in agreement with hepcidin mRNA size on Northern blots. The liver was the predominant site of mRNA expression. The encoded prepropeptide contains 84 amino acids, but only the 20-25-amino acid processed forms were found in urine. Hepcidins exhibited antifungal activity against Candida albicans, Aspergillus fumigatus, and Aspergillus niger and antibacterial activity against Escherichia coli, Staphylococcus aureus, Staphylococcus epidermidis, and group B Streptococcus. Hepcidin may be a vertebrate counterpart of cysteine-rich antimicrobial peptides produced in the fat body of insects.     

Hepcidin, an antimicrobial peptide is downregulated in ceruloplasmin-deficient mice

Hepcidin, a principle regulator of iron metabolism, is synthesized by the liver. Contradictory results have been reported on the regulation of hepcidin expression in response to serum transferrin saturation and liver iron content. In the present study, we explore the expression of murine hepcidin mRNA and further analyze the relationship between liver hepcidin mRNA expression, liver iron stores, and serum iron level utilizing ceruloplasmin gene knockout mice. We find that hepcidin expression correlates significantly with serum transferrin saturation, whereas there is a negative correlation of hepcidin expression with liver tissue iron level.     

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.     

The antimicrobial activity of the appetite peptide hormone ghrelin

The present study examined the antimicrobial activity of the peptide ghrelin. Both major forms of ghrelin, acylated ghrelin (AG) and desacylated ghrelin (DAG), demonstrated the same degree of bactericidal activity against Gram-negative Escherichia coli (E. coli) and Pseudomonas aeruginosa (P. aeruginosa), while bactericidal effects against Gram-positive Staphylococcus aureus (S. aureus) and Enterococcus faecalis (E. faecalis) were minimal or absent, respectively. To elucidate the bactericidal mechanism of AG and DAG against bacteria, we monitored the effect of the cationic peptides on the zeta potential of E. coli. Our results show that AG and DAG similarly quenched the negative surface charge of E. coli, suggesting that ghrelin-mediated bactericidal effects are influenced by charge-dependent binding and not by acyl modification. Like most cationic antimicrobial peptides (CAMPs), we also found that the antibacterial activity of AG was attenuated in physiological NaCl concentration (150mM). Nonetheless, these findings indicate that both AG and DAG can act as CAMPs against Gram-negative bacteria.     

Temporins, small antimicrobial peptides with leishmanicidal activity

Leishmaniasis encompasses a wide range of infections caused by the human parasitic protozoan species belonging to the Leishmania genus. It appears frequently as an opportunistic disease, especially in virus-infected immunodepressed people. Similarly to other pathogens, parasites became resistant to most of the first-line drugs. Therefore, there is an urgent need to develop antiparasitic agents with new modes of action. Gene-encoded antimicrobial peptides are promising candidates, but so far only a few of them have shown anti-protozoa activities. Here we found that temporins A and B, 13-amino acid antimicrobial peptides secreted from the skin of the European red frog Rana temporaria, display anti-Leishmania activity at micromolar concentrations, with no cytolytic activity against human erythrocytes. To the best of our knowledge, temporins represent the shortest natural peptides having the highest leishmanicidal activity and the lowest number of positively charged amino acids (a single lysine/arginine) and maintain biological function in serum. Their lethal mechanism involves plasma membrane permeation based on the following data. (i) They induce a rapid collapse of the plasma membrane potential. (ii) They induce the influx of the vital dye SYTOX Green. (iii) They reduce intracellular ATP levels. (iv) They severely damage the membrane of the parasite, as shown by transmission electron microscopy. Besides giving us basic important information, the unique properties of temporins, as well as their membranolytic effect, which should make it difficult for the pathogen to develop resistance, suggest them as potential candidates for the future design of antiparasitic drugs with a new mode of action.     

Synthetic flavonoids with antimicrobial activity: a review

The emergence of drug-resistant microbes left us with a great need for new antimicrobial agents. Flavonoids, with their wide range of biological activities, are good candidates in this respect. Although naturally occurring flavonoids are the most studied ones, semi-synthetic or synthetic flavonoids have proven to have great potential, inhibiting and even killing microbes at concentrations below 1 μg ml⁻¹. The substitution pattern of these flavonoids often includes hydroxy groups, halogens or other heteroatomic rings, such as pyridine, piperidine or 1,3-dithiolium cations. However, the great variety in substituents makes it difficult to draw any definitive conclusion regarding their structure–activity relationship.     

The solution structure of human hepcidin,a peptide hormone with antimicrobial activity that is involved in iron uptake and hereditary hemochromatosis

The antibacterial and antifungal peptide hepcidin (LEAP-1) is expressed in the liver. This circulating peptide has recently been found to also act as a signaling molecule in iron metabolism. As such, it plays an important role in hereditary hemochromatosis, a serious iron overload disease. In this study, we report the solution structures of the hepcidin-20 and -25 amino acid peptides determined by standard two-dimensional (1)H NMR spectroscopy. These small cysteine-rich peptides form a distorted beta-sheet with an unusual vicinal disulfide bridge found at the turn of the hairpin, which is probably of functional significance. Both peptides exhibit an overall amphipathic structure with six of the eight Cys involved in maintaining interstrand connectivity. Hepcidin-25 assumes major and minor conformations centered about the Pro residue near the N-terminal end. Further NMR diffusion studies indicate that hepcidin-20 exists as a monomer in solution, whereas hepcidin-25 readily aggregates, a property that may contribute to the different activities of the two peptides. The nuclear Overhauser enhancement spectroscopy spectra of the hepcidin-25 aggregates indicate an interface for peptide interactions that again involves the first five residues from the N-terminal end.     

Sulfonyl-polyol N,N-dichloroamines with rapid,broad-spectrum antimicrobial activity

The discovery and development of antimicrobial agents that do not give rise to resistance remains an ongoing challenge. Our efforts in this regard continue to reveal new potential therapeutic agents with differing physicochemical properties while retaining the effective N,N-dichloroamine pharmacophore as the key antimicrobial warhead. In this Letter, we disclose agents containing polyol units as a water solubilizing group. These sulfonyl-polyol agents show broad spectrum bactericidal and virucidal activity. These compounds show 1h MBC’s of 16–512 μg/mL against Escherichia coli and 4–256 μg/mL against Staphylococcus aureus at neutral pH, and 1-h IC₅₀’s of 4.5–32 μM against Adenovirus 5 and 0.7–3.0 μM against Herpes simplex virus 1. The lead compounds were tested in a tissue culture irritancy assay and showed only minimal irritation at the highest concentrations tested.     

Recombinant expression, purification, and antimicrobial activity of a novel hybrid antimicrobial peptide LFT33

With great therapeutic potential against antibiotic-resistant bacteria, viruses, and even parasites, antimicrobial peptides (AMPs) have received increased interest as pharmaceutical agents in recent years. It is a worthy yet challenging work to carry out the implement and improvement of AMPs production using bioengineering techniques. In the present study, a novel hybrid peptide LFT33 was designed derived from LfcinB and thanatin. The cDNA fragment encoding LFT33 with preferred codons of Escherichia coli was chemically synthesized and ligated into the vector pET32a(+) to express the LFT33 fusion protein. The fusion protein was successfully expressed in soluble form in E. coli induced under optimized conditions. After purification by affinity chromatography, the fusion protein was cleaved successfully by enterokinase and released the peptide LFT33. About 0.5?mg of the recombinant LFT33 was obtained by reversed-phase high performance liquid chromatography from 1?l of culture medium. Mass spectrometry analysis of the purified recombinant LFT33 demonstrated that the molecular weight perfectly matched the calculated mass (4,195?Da). The recombinant peptide LFT33 caused an increase in antimicrobial activity (IC(50)?=?16-64?μg/ml) against given strains and did not show hemolytic activity for human erythrocytes. The results indicated that the hybrid peptide LFT33 could serve as a promising candidate for pharmaceutical agents.