铁转运机制与相关基因的研究进展

铁素营养分子生物学方面的研究有了很大进展。人们利用各种特异突变株和差异筛选已克隆到部分与铁转运有关的基因。本文主要在分子生物学水平概括了酵母铁吸收转运机制和植物缺铁胁迫相关基因及其基因表达的研究进展。     

植物铁吸收、转运和调控的分子机制研究进展

铁是植物正常生命活动所必需的微量矿质元素, 铁离子的吸收、转运和利用是一个复杂的过程, 很多基因参与了这一过程。本文对近10年来发现和分离的参与植物铁吸收、转运及调控的基因研究进展进行了综述。根据最近的研究结果, 提出了植物控制铁吸收的分子调控模式(机理I)。     

植物铁吸收、转运和调控的分子机制研究进展

铁是植物正常生命活动所必需的微量矿质元素,铁离子的吸收、转运和利用是一个复杂的过程,很多基因参与了这一过程。本文对近10年来发现和分离的参与植物铁吸收、转运及调控的基因研究进展进行了综述。根据最近的研究结果,提出了植物控制铁吸收的分子调控模式(机理I)。     

耐辐射奇球菌铁结合蛋白DRA0258的抗氧化功能

【目的】通过对极端环境耐受的耐辐射奇球菌Deinococcus radiodurans R1全基因组进行序列比对分析,获得具有铁储备蛋白Ferritin类似功能基序的未知功能蛋白DRA0258,采用分子生物学技术对该蛋白的功能和性质进行了验证和分析。【方法】首先对DRA0258进行克隆表达和纯化,并经络合物显色法测定蛋白上铁结合含量;通过三段连接敲除法构建dra0258突变株,检测突变株在双氧水协迫下的生存率、总抗氧化活性及过氧化氢酶活性;利用实时定量PCR检测突变株内抗氧化酶类及铁转运相关性调控蛋白的基因转录水平。【结果】经体内外蛋白铁含量检测证实DRA0258具有一定的铁结合能力;双氧水生存率实验表明dra0258的缺失导致细胞的抗氧化能力显著下降;过氧化氢酶活性、总抗氧化活性检测及抗氧化酶类的基因转录水平检测证实dra0258基因的缺失导致细胞内一些抗氧化基因转录水平下调,细胞的抗氧化应激系统受到损伤,并影响了一些铁调控网络蛋白的基因转录水平。【结论】本研究证实DRA0258是一种铁结合蛋白,该编码基因的缺失影响胞内铁转运系统并使细胞抗氧化能力下调。     

乳铁蛋白对铁代谢的影响及其在神经退行性疾病中的应用

乳铁蛋白是一种具有多种生理功能的铁结合性糖蛋白,是铁在机体内代谢及转运关键载体。目前,有关乳铁蛋白对神经退行性疾病的防治作用及应用研究已成为该领域的新热点。本文主要介绍了铁在机体内的代谢;铁转运蛋白-乳铁蛋白转运系统：铁转运主要是由转铁蛋白受体和乳铁蛋白受体介导的,铁转运入脑的途径主要是转铁蛋白-转铁蛋白受体途径,还有乳铁蛋白-乳铁蛋白受体途径及其他途径;铁对脑损伤的作用机制,其中铁参与的氧化应激反应以及铁代谢和铁转运相关基因的突变或缺失可能都是引起脑损伤的原因;最后简述乳铁蛋白在防治神经退行性疾病中最新的进展,乳铁蛋白修饰的纳米粒子可能是目前最有效治疗神经退行性疾病的方法之一。     

鼠伤寒沙门菌感染巨噬细胞铁稳态相关基因mRNA表达谱

用荧光定量PCR法检测鼠RAW264.7巨噬细胞感染与未感染鼠伤寒沙门菌后18种铁穗态相关基因的表达,评估宿主与病原体相互作用中铁稳态效应。研究显示,活的鼠伤寒沙门菌感染巨噬细胞1 h后可以诱导转铁蛋白受体表达,引起细胞内动态铁池相关基因的mRNA水平上长。基因表达分析显示,沙门菌通过诱导铁氧还原酶(Steap3)、铁膜转运蛋白(Dmt1)、铁调节因子Tfr2/Hfe以及铁调节蛋白(Irp1和Irp2)的表达主动吸收铁,而经铁转运蛋白(Fpn1)的铁外流并无明显改变。沙门菌在感染后1h积极地驱动了转铁蛋白介导的铁吸收程序。     

膜铁转运蛋白1，铁调素的靶分子？

膜铁转运蛋白1是重要的跨膜铁输出分子,主要分布于十二指肠和单核巨噬系统的细胞膜上,参与机体的肠铁吸收和巨噬细胞对铁的再循环等过程。铁调素是调节机体铁代谢平衡的激素,机体通过肝脏分泌的铁调素对铁转运相关蛋白的表达进行调控,从而实现机体自身的铁稳态。最新研究显示,铁调素的靶分子可能是膜铁转运蛋白1,它通过直接的作用引起膜铁转运蛋白1的内化(internalization)、降解,从而调节其在细胞膜上的表达量,进而控制肠铁吸收和巨噬细胞对铁的再循环过程,以维持机体的铁稳态。     

苋菜IRT1基因克隆、序列及表达分析

通过对镉超积累苋菜品种天星米铁转运蛋白基因( IRT1)的克隆、序列及表达分析,旨在为植物修复镉污染土壤奠定基础.依据同源克隆原理,通过RACE技术克隆苋菜IRT1基因及生物信息学方法分析基因序列结构和功能,Northern杂交研究基因表达.苋菜IRT1基因cDNA全长1135 bp,包含完整的阅读框,编码322个氨基酸.苋菜IRT1蛋白与已知铁转运蛋白相似性在53.70％-63.04％,具有铁转运蛋白典型的功能结构特征,即N端含有1个信号肽、氨基酸序列上具有完整的ZIP家族功能结构域( Pfam:Zip)和7个跨膜结构域(TMs).苋菜IRT1蛋白还具有1个COG0428超级家族(转运二价金属离子功能)、2个蛋白激酶C磷酸化位点和2个酪蛋白Ⅱ磷酸化位点.低铁胁迫时苋菜根中IRT1基因表达量增加,加镉处理没有改变IRT1基因表达量.因此,推断苋菜IRT1基因是ZIP家族的一员,具有转运二价金属离子功能,将基因在GenBank中注册,序列号为:GU363501,命名为AmIRT1.     

高山离子芥铁转运蛋白基因编码序列的克隆及其抗逆性表达的实时定量分析

铁转运蛋白 (iron transport protein,IRT)是具有跨膜运输离子功能的特殊蛋白质,属于金属离子转运家族的成员．本研究运用RACE方法从高山离子芥（Chorispora bungeana）中克隆得到完整的铁转运蛋白cDNA,命名为CbIRT（基因登录号为EU330924）．该基因全长1 290 bp,包含1个1 035 bp的开放阅读框（ORF）,编码344个氨基酸的蛋白．系统进化树分析显示,该基因与拟南芥AtIRT1和遏蓝菜TcIRT-G的亲缘关系最近,同源性分别达到了87.4%和86.5%,而在氨基酸序列水平与拟南芥AtIRT1的同源性达到了89%,表明克隆得到的CbIRT属于金属离子转运体家族成员．实时荧光定量方法对高山离子芥CbIRT基因在不同温度和铁营养水平条件下的表达情况进行分析表明,CbIRT对零下低温和零上低温的表达水平呈截然不同的反应;正常铁营养状态下,CbIRT是微量表达的,而缺铁及低温处理都可以大幅度地促进该基因的表达,富铁可以抑制该基因的表达．显示了该蛋白在转运Fe离子方面的重要作用．     

施氏假单胞菌A1501铁吸收调节蛋白Fur的表达特性与功能鉴定

铁是细胞生理代谢的重要金属元素,是多种氧化还原酶类、过氧化物酶类的重要组成部分。革兰氏阴性菌中,胞内铁转运、储存和利用主要由铁吸收调节蛋白Fur（ferric uptake regulator）调控。水稻根际联合固氮菌——施氏假单胞菌（Pseudomonas stutzeri）A1501基因组中含有一个fur同源基因,但其具体功能尚不清楚。比较了A1501中fur基因及其编码蛋白的序列特征,并通过实时荧光定量PCR（real-time quantitative,qRT-PCR）和Western blotting杂交方法测定了fur基因和Fur蛋白的表达特性,结果发现fur基因表达水平与环境中铁浓度呈负相关,在铁限制条件下高表达,铁过量条件下表达受抑制。构建了fur基因突变株和功能回补株,表型测定发现fur突变影响了A1501的碳源代谢谱,并导致A1501对过氧化氢胁迫敏感。胞内铁含量测定表明,fur突变株内的铁含量为野生型的1.3倍,进一步qRT-PCR测定表明fur突变影响了铁离子转运系统及过氧化物酶编码基因的表达。研究结果为解析根际微生物胞内铁平衡调节及根际环境适应机制奠定了理论基础。     

Hemochromatosis: Evaluation of the dietary iron model and regulation of hepcidin

Our knowledge of iron homeostasis has increased steadily over the last two decades; much of this has been made possible through the study of animal models of iron-related disease. Analysis of transgenic mice with deletions or perturbations in genes known to be involved in systemic or local regulation of iron metabolism has been particularly informative. The effect of these genes on iron accumulation and hepcidin regulation is traditionally compared with wildtype mice fed a high iron diet, most often a 2% carbonyl iron diet. Recent studies have indicated that a very high iron diet could be detrimental to the health of the mice and could potentially affect homeostasis of other metals, for example zinc and copper. We analyzed mice fed a diet containing either 0.25%, 0.5%, 1% or 2% carbonyl iron for two weeks and compared them with mice on a control diet. Our results indicate that a 0.25% carbonyl iron diet is sufficient to induce maximal hepatic hepcidin response. Importantly these results also demonstrate that in a chronic setting of iron administration, the amount of excess hepatic iron may not further influence hepcidin regulation and that expression of hepcidin plateaus at lower hepatic iron levels. These studies provide further insights into the regulation of this important hormone.     

Conflicting effects of BMI and waist circumference on iron status

The association between obesity and iron status has a long history and is still receiving attention. However comparative analysis of the association between general obesity (BMI) and visceral obesity (waist circumference) with iron status has not been extensively researched. The aim of the present study is thus to determine if body mass index and waist circumference have the same correlation with iron status. One thousand one hundred and thirty people (225 men and 905 women) aged 30 years and above participated in this study. Anthropometric parameters, haemoglobin, iron and total iron binding capacity concentrations were measured using standard methods. Percentage transferrin saturation was calculated and ferritin concentrations were measured using an enzyme linked immunosorbent assay. Obese or overweight women had significantly lower iron and transferrin saturation concentration when compared to non-obese women. In contrast, women with high waist circumference had comparable plasma iron and transferrin saturation to women with normal waist circumference. Partial correlation analysis and linear regression analysis showed that BMI is negatively and significantly associated with plasma iron, transferrin saturation, Hb and ferritin concentration, whilst waist circumference is positively but insignificantly associated with plasma iron, transferrin saturation, Hb and ferritin concentration. Binary regression analysis showed that obese or overweight people are more likely to have iron deficiency, whilst those with raised waist circumference are more likely to have iron overload. Multivariate analysis showed that body mass index is negatively and significantly associated with low iron status, while waist circumference is positively and insignificantly associated with iron status. This is supported by a comparison of plasma iron, transferrin saturation and ferritin concentrations in participants with high body mass index and normal waist circumference and participants with normal body mass index and high waist circumference to those participants having normal body mass index and normal waist circumference. The present study suggests that in women body mass index is associated with low plasma iron, transferrin saturation and ferritin concentrations, while waist circumference is associated with high plasma iron, transferrin saturation and ferritin concentrations.     

Differential effects of basolateral and apical iron supply on iron transport in Caco-2 cells

Iron homeostasis in the human body is maintained primarily through regulation of iron absorption in the duodenum. The liver peptide hepcidin plays a central role in this regulation. Additionally, expression and functional control of certain components of the cellular iron transport machinery can be influenced directly by the iron status of enterocytes. The significance of this modulation, relative to the effects of hepcidin, and the comparative effects of iron obtained directly from the diet and/or via the bloodstream are not clear. The studies described here were performed using Caco-2 cell monolayers as a model of intestinal epithelium, to compare the effects of iron supplied in physiologically relevant forms to either the apical or basolateral surfaces of the cells. Both sources of iron provoked increased cellular ferritin content, indicating iron uptake from both sides of the cells. Supply of basolateral transferrin-bound iron did not affect subsequent iron transport across the apical surface, but reduced iron transport across the basolateral membrane. In contrast, the apical iron supply led to subsequent reduction in iron transport across the apical cell membrane without altering iron export across the basolateral membrane. The apical and basolateral iron supplies also elicited distinct effects on the expression and subcellular distribution of iron transporters. These data suggest that, in addition to the effects of cellular iron status on the expression of iron transporter genes, different modes and direction of iron supply to enterocytes can elicit distinct functional effects on iron transport.

Electronic supplementary material

The online version of this article (doi:10.1007/s12263-015-0463-5) contains supplementary material, which is available to authorized users.     

The rate limiting step in the reticulocyte uptake of transferin and transferrin iron Effects of some incubation variables

Reticulocytes incubated in an isotonic NaCl saline medium containing glucose, glutamine and amino acids, were able to detach both iron atoms from all the transferrin incorporated by them. In the absence of these metabolites, although transferrin uptake was the same, the reticuloctes failed to remove completely the iron from the transferrin which they incorporated.It has been shown before that there is unspecific as well as specific binding of transferrin to the reticulocyte. By incubating the cells in the presence of a high concentration of bovine serum albumin, we have been able to prevent the unspecific attachment of transferrin.At least 94% of the iodinated transferrin was capable of donating its iron to the reticulocytes.     

鱼腥蓝细菌PCC7120铁吸收机制

铁离子是鱼腥蓝细菌PCC7120进行呼吸作用、光合作用和固氮作用中相关酶的重要辅基之一,缺铁将严重影响蓝细菌的生存.富氧的生态环境中铁通常以不溶的Fe3+形式存在,不易被细胞吸收利用.低铁条件下,鱼腥蓝细菌PCC7120分泌能螯合铁离子的嗜铁素,通过外膜上相应的转运体将嗜铁素-铁复合物转运到细胞内.综述了近年来在嗜铁素的种类及其生物合成途径、铁吸收系统的组成和功能等方面的最新进展,分析了铁吸收系统的调控机制,为进一步开展鱼腥蓝细菌铁吸收机制的研究提供依据.     

Hepatic injury in chronic iron overload. Role of lipid peroxidation

In both hereditary hemochromatosis and in the various forms of secondary hemochromatosis, there is a pathologic expansion of body iron stores due mainly to an increase in absorption of dietary iron. Excess deposition of iron in the parenchymal tissues of several organs (e.g. liver, heart, pancreas, joints, endocrine glands) results in cell injury and functional insufficiency. In the liver, the major pathological manifestations of chronic iron overload are fibrosis and ultimately cirrhosis. Evidence for hepatotoxicity due to iron has been provided by several clinical studies, however the specific pathophysiologic mechanisms for hepatocellular injury and hepatic fibrosis in chronic iron overload are poorly understood. The postulated mechanisms of liver injury in chronic iron overload include (a) increased lysosomal membrane fragility, perhaps mediated by iron-induced lipid peroxidation, (b) peroxidative damage to mitochondria and microsomes resulting in organelle dysfunction, (c) a direct effect of iron on collagen biosynthesis and (d) a combination of all of the above.     

Rapid reduction of iron in horse spleen ferritin by thioglycolic acid measured by dispersive X-ray absorption spectroscopy

Summary The release of iron from ferritin is important in the formation of iron proteins and for the management of diseases in both animals and plants associated with abnormal accumulations of ferritin iron. Much more iron can be released experimentally by reduction of the ferric hydrous oxide core than by chelation of Fe³⁺ which has led to the notion that reduction is also the major aspect of iron release in vivo. Variations in the kinetics of reduction of the mineral core of ferritin have been attributed to the redox potential of the reductant, redox properties of the iron core, the structure of the protein coat, the analytical method used to detect Fe²⁺ and reactions at the surface of the mineral. Direct measurements of the oxidation state of the iron during reduction has never been used to analyze the kinetics of reduction, although Mössbauer spectroscopy has been used to confirm the extent of reduction after electrochemical reduction using dispersive X-ray absorption spectroscopy (DXAS). We show that the near edge of X-ray absorption spectra (XANES) can be used to quantify the relative amounts of Fe²⁺ and Fe³⁺ in mixtures of the hydrated ions. Since the nearest neighbors of iron in the ferritin iron core do not change during reduction, XANES can be used to monitor directly the reduction of the ferritin iron core. Previous studies of iron core reduction which measured by Fe²⁺ · bipyridyl formation, or coulometric reduction with different mediators, suggested that rates depended mainly on the redox potential of the electron donor. When DXAS was used to measure the rate of reduction directly, the initial rate was faster than previously measured. Thus, previously measured differences in reduction rates appear to be influenced by the accessibility of Fe²⁺ to the complexing reagent or by the electrochemical mediator. In the later stages of ferritin iron core dissolution, reduction rates drop dramatically whether measured by DXAS or formation of Fe²⁺ complexes. Such results emphasize the heterogeneity of ferritin core structure.     

白念珠菌铁稳态调控网络研究进展

铁是绝大多数生物生长和代谢过程中必需的营养元素。尽管自然界中铁元素含量非常丰富,但是其生物可利用性却很低。作为一种人体常见的条件致病真菌,白念珠菌在漫长的进化过程中形成了复杂的铁稳态调控网络,能够应答环境中铁浓度的变化,增强菌株对环境的适应力。结合课题组研究工作,简要综述近几年关于铁代谢表达调控途径的研究进展,主要关注白念珠菌在环境铁匮乏条件下铁获得和调控策略,揭示白念珠菌体内铁离子摄取、转运、储存和利用机制。