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。     

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。     

单核巨噬细胞铁代谢相关蛋白的表达调控

人类机体的铁代谢表现为受限制的对外界铁的吸收和有效的机体内的铁的再循环利用,单核巨噬细胞系统通过吞噬衰老的红细胞,储存和释放铁,在机体铁的循环再利用方面起到了重要的作用。因此,单核巨噬细胞系统对整个机体铁稳态的维持非常重要。近年来,随着转铁蛋白受体1(transferrin receptor1,TfR1)、铁蛋白(ferritin,Fn)、二价金属离子转运蛋白1(divalent metal transporter1,DMT1)、膜铁转运蛋白1(ferroportin1,FPN1),以及铁调素(hepcidin)等在单核巨噬细胞系统中功能和调控机制研究的不断深入,日益加深了人们对单核巨噬细胞系统的铁代谢过程和调控机制的了解。该文综述了铁水平、NO以及炎症等因素对单核巨噬细胞系统TfR1、Fn、DMT1、FPN1、hepcidin等蛋白表达的调控及其机制研究的最新进展。     

毕赤酵母工程菌人hepcidin的纯化及部分铁代谢活性研究

采用摇瓶培养重组毕赤酵母(Pichia pastoris)表达并分泌重组人hepcidin至胞外,经等电沉淀,凝胶过滤纯化,电泳检测样品纯度,通过Western blot检测小鼠内皮细胞中hepcidin对GFP-FPN1及TfR1表达的影响.研究发现发酵hepcidin产量达150 mg/L,纯化后经Tricine-SDS-PAGE检测为单一条带,分子质量与理论质量一致,具有抗菌活性,转染内皮细胞证实重组hepcidin可影响内皮细胞GFP-FPN1及TfR1的表达,具有调节铁代谢活性,对研究hepcidin与铁代谢的相关分子吸收机制及药物开发应用奠定了基础,对潜在的医学诊断治疗具有重要意义.     

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。     

hepcidin、铁代谢与感染

hepcidin是一近期确认的具有抗茵活性的小肽,是铁代谢的关键调节因子之一。体内铁的平衡与机体免疫力密切相关,过量的铁会损伤机体免疫力,使机体易受需铁细茵感染。hepcidin下调血清铁的浓度,增强机体抵御需铁细茵的能力,发挥其辅助抗茵作用。     

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。     

跨膜丝氨酸蛋白酶6：一种新发现的铁调素调节子

跨膜丝氨酸蛋白酶6(TMPRSS6)是最近发现的一种丝氨酸蛋白激酶,它通过调节铁调素(hepcidin)的表达,进而影响生物机体的铁稳态.它的发现,不仅对进一步认识机体铁代谢的调控及其分子机制有重要的理论意义,还为揭示铁代谢相关疾病的病因和探索治疗的相关途径提供了新的思路.     

骨形态发生蛋白6对机体铁代谢调控的机制

骨形态发生蛋白6(BMP6)为TGF-β超家族中的一员,已有的研究表明BMP6具有成骨和成软骨作用,最新的研究发现了它对机体的铁代谢也具有重要的调控作用,通过调节铁调素(hepcidin)的表达,在调节机体铁稳态过程中扮演着重要角色。     

pGEM-8Hepc克隆载体的构建与序列分析

hepcidin是一种由肝脏合成的富含半胱氨酸的小分子肽,它的主要生物学功能是维持机体铁稳态,并且具有抗菌活性.本实验从大鼠肝脏组织克隆出hepcidin基因,用同尾酶法构建多拷贝串联基因克隆载体pGEM-nHepc(n=1,2,4,8)(单个hepcidin基因之间用一段连接肽的DNA连接),分别含有不同拷贝首尾串连的hepcidin cDNA,并在大肠杆菌DH5 α中扩增.重组体经双酶切和PCR鉴定后进行序列测定,所得结果与genbank中的大鼠序列比对,结果完全正确,为后续进一步的表达纯化奠定了基础.     

Hepcidin: a direct link between iron metabolism and immunity

Hepcidin, originally discovered in urine as a bactericidal peptide synthesized by hepatocytes was later proved to be a key regulator of iron metabolism at the whole body level, namely, in conditions of altered iron demand such as the increased or decreased total amount of body iron, inflammation, hypoxia and anemia. The major mechanism of hepcidin function seems to be the regulation of transmembrane iron transport. Hepcidin binds to its receptor, protein ferroportin, which serves as a transmembrane iron channel enabling iron efflux from cells. The hepcidin-ferroportin complex is then degraded in lysosomes and iron is locked inside the cells (mainly enterocytes, hepatocytes and macrophages). This leads to lowering of iron absorption in the intestine and to a decrease in serum iron concentration. Utilizing this mechanism, hepcidin regulates serum iron levels during inflammation, infection and possibly also in cancer. Under these conditions iron is shifted from circulation into cellular stores in hepatocytes and macrophages, making it less available for invading microorganisms and tumor cells. In anemia and hypoxia, hepcidin regulates the availability of iron for erythropoiesis. Hepcidin or hepcidin-related therapeutics could find a place in the treatment of various diseases such as hemochromatosis and anemia of chronic disease.     

Regulation of iron acquisition and iron distribution in mammals

Both cellular iron deficiency and excess have adverse consequences. To maintain iron homeostasis, complex mechanisms have evolved to regulate cellular and extracellular iron concentrations. Extracellular iron concentrations are controlled by a peptide hormone hepcidin, which inhibits the supply of iron into plasma. Hepcidin acts by binding to and inducing the degradation of the cellular iron exporter, ferroportin, found in sites of major iron flows: duodenal enterocytes involved in iron absorption, macrophages that recycle iron from senescent erythrocytes, and hepatocytes that store iron. Hepcidin synthesis is in turn controlled by iron concentrations, hypoxia, anemia and inflammatory cytokines. The molecular mechanisms that regulate hepcidin production are only beginning to be understood, but its dysregulation is involved in the pathogenesis of a spectrum of iron disorders. Deficiency of hepcidin is the unifying cause of hereditary hemochromatoses, and excessive cytokine-stimulated hepcidin production causes hypoferremia and contributes to anemia of inflammation.     

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。     

哺乳动物Hepcidin表达调控的研究进展

Hepcidin是由生物体肝脏表达的一种具有抵抗外界微生物侵害的小分子阳离子多肽,与干扰素、补体等组成了宿主的免疫防御系统.哺乳动物的Hepcidin表达调控受多种因素的影响.本文主要介绍了机体内铁水平、感染和炎症、贫血和缺氧以及运动对Hepcidin表达调控的影响.铁超负荷、脂多糖和病原体可诱导Hepcidin的表达,而贫血、缺氧和运动可下调其表达.本文还对Hepcidin的临床应用研究中存在的问题进行了初步讨论.     

Macrophage iron, hepcidin, and atherosclerotic plaque stability

Hepcidin has emerged as the key hormone in the regulation of iron balance and recycling. Elevated levels increase iron in macrophages and inhibit gastrointestinal iron uptake. The physiology of hepcidin suggests an additional mechanism by which iron depletion could protect against atherosclerotic lesion progression. Without hepcidin, macrophages retain less iron. Very low hepcidin levels occur in iron deficiency anemia and also in homozygous hemochromatosis. There is defective retention of iron in macrophages in hemochromatosis and also evidently no increase in atherosclerosis in this disorder. In normal subjects with intact hepcidin responses, atherosclerotic plaque has been reported to have roughly an order of magnitude higher iron concentration than that in healthy arterial wall. Hepcidin may promote plaque destabilization by preventing iron mobilization from macrophages within atherosclerotic lesions; the absence of this mobilization may result in increased cellular iron loads, lipid peroxidation, and progression to foam cells. Marked downregulation of hepcidin (e.g., by induction of iron deficiency anemia) could accelerate iron loss from intralesional macrophages. It is proposed that the minimally proatherogenic level of hepcidin is near the low levels associated with iron deficiency anemia or homozygous hemochromatosis. Induced iron deficiency anemia intensely mobilizes macrophage iron throughout the body to support erythropoiesis. Macrophage iron in the interior of atherosclerotic plaques is not exempt from this process. Decreases in both intralesional iron and lesion size by systemic iron reduction have been shown in animal studies. It remains to be confirmed in humans that a period of systemic iron depletion can decrease lesion size and increase lesion stability as demonstrated in animal studies. The proposed effects of hepcidin and iron in plaque progression offer an explanation of the paradox of no increase in atherosclerosis in patients with hemochromatosis despite a key role of iron in atherogenesis in normal subjects.     

Hepcidin mRNA levels in mouse liver respond to inhibition of erythropoiesis

Hepcidin, a key regulator of iron metabolism, decreases intestinal absorption of iron and its release from macrophages. Iron, anemia, hypoxia, and inflammation were reported to influence hepcidin expression. To investigate regulation of the expression of hepcidin and other iron-related genes, we manipulated erythropoietic activity in mice. Erythropoiesis was inhibited by irradiation or posttransfusion polycythemia and stimulated by phenylhydrazine administration and erythropoietin. Gene expression of hepcidin and other iron-related genes (hemojuvelin, DMT1, ferroportin, transferrin receptors, ferritin) in the liver was measured by the real-time polymerase chain reaction. Hepcidin expression increased despite severe anemia when hematopoiesis was inhibited by irradiation. Suppression of erythropoiesis by posttransfusion polycythemia or irradiation also increased hepcidin mRNA levels. Compensated hemolysis induced by repeated phenylhydrazine administration did not change hepcidin expression. The decrease caused by exogenous erythropoeitin was blocked by postirradiation bone marrow suppression. The hemolysis and anemia decrease hepcidin expression only when erythropoiesis is functional; on the other hand, if erythropoiesis is blocked, even severe anemia does not lead to a decrease of hepcidin expression, which is indeed increased. We propose that hepcidin is exclusively sensitive to iron utilization for erythropoiesis and hepatocyte iron balance, and these changes are not sensed by other genes involved in the control of iron metabolism in the liver.     

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.     

Regulation of type II transmembrane serine proteinase TMPRSS6 by hypoxia-inducible factors: new link between hypoxia signaling and iron homeostasis

Hepcidin is a liver-derived hormone with a key role in iron homeostasis. In addition to iron, it is regulated by inflammation and hypoxia, although mechanisms of hypoxic regulation remain unclear. In hepatocytes, hepcidin is induced by bone morphogenetic proteins (BMPs) through a receptor complex requiring hemojuvelin (HJV) as a co-receptor. Type II transmembrane serine proteinase (TMPRSS6) antagonizes hepcidin induction by BMPs by cleaving HJV from the cell membrane. Inactivating mutations in TMPRSS6 lead to elevated hepcidin levels and consequent iron deficiency anemia. Here we demonstrate that TMPRSS6 is up-regulated in hepatic cell lines by hypoxia and by other activators of hypoxia-inducible factor (HIF). We show that TMPRSS6 expression is regulated by both HIF-1α and HIF-2α. This HIF-dependent up-regulation of TMPRSS6 increases membrane HJV shedding and decreases hepcidin promoter responsiveness to BMP signaling in hepatocytes. Our results reveal a potential role for TMPRSS6 in hepcidin regulation by hypoxia and provide a new molecular link between oxygen sensing and iron homeostasis.