铁转运刺激因子研究进展

铁转运刺激因子 (stimulatorofFetransport,SFT)是近年新发现的一个重要的铁代谢蛋白。SFT是一种跨膜糖蛋白 ,含 6个跨膜区域 ,在第一个细胞内环中含有功能上十分重要的REIHE序列。它广泛分布于各组识 ,其主要功能是促进转铁蛋白结合铁和非转铁蛋白结合铁的转运。SFT的基因表达和功能发挥受铁的调控。遗传性血色素沉着病人的肝脏内SFTmRNA的表达显著增加 ,因而SFT超表达可能与遗传性血色素沉着病的形成有关     

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。     

膜铁转运蛋白Ferroportin 1的研究进展

膜铁转运蛋白Ferroportin 1(2000年发现)在细胞铁的输出中起重要作用。它在成熟的十二指肠绒毛上皮细胞基底面、脾和肝的巨噬细胞、胎盘的合体滋养层细胞等都有表达。经序列分析显示Ferroportin 1具有十个跨膜结构域、一个还原酶位点和一个基底定位信号位点。此外,Ferroportin 1 mRNA转录在5’非翻译区包含一个铁反应元件。本文对Ferroportin 1的目前研究进行了综述,并阐述了其医学应用前景。     

鸡二价金属转运蛋白1 cDNA的克隆与序列分析

鸡二价金属转运蛋白1（divalent metal transporter 1, DMT1）在动物胃肠道锰吸收过程中起重要作用.根据哺乳动物Dmt1同源蛋白氨基酸序列的保守性设计引物,应用3′RACE(rapid amplification of cDNA ends)技术,扩增并克隆获得鸡小肠Dmt1 cDNA 3′端1 289bp和1 092bp的2种片段,发现其3′端翻译区和非翻译区存在差异. 根据鸡Dmt1 cDNA 3′端片段的测序结果设计引物,扩增获得1个与3′端片段部分重叠的鸡Dmt1 cDNA 5′端907 bp片段,并对其进行了克隆测序. 根据鸡小肠Dmt1 3′RACE片段和5′RACE片段序列信息进行拼接,从而获得鸡小肠Dmt1 cDNA全序列信息.结果表明,鸡小肠Dmt1 cDNA有2种形式,1种全长为1 972个核苷酸,其中5′非翻译区为104个核苷酸,编码区1 695个核苷酸,3′非翻译区为173个核苷酸,编码1个含564个氨基酸残基的蛋白质;另1种形式为1 775个核苷酸,其中5′非翻译区为104个核苷酸,编码区1 593个核苷酸,3′非翻译区为78个核苷酸,编码1个含530个氨基酸残基的蛋白质.据鸡Dmt1 cDNA推测出的2种形式蛋白质的氨基酸序列与人、大鼠和小鼠的Dmt1蛋白具有高度同源性,它们的同源性分别为82%、82%、80%,和 84%、84%、83%. 对推测氨基酸序列进行疏水性和跨膜区分析表明,Dmt1蛋白为1种跨膜整合蛋白,具有膜转运蛋白糖基化位点和底物结合位点的保守序列.     

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。     

铁过载引起的疾病：一种“沉默”的疾病

铁是人体生命必需的微量元素,但摄入过多也会对身体健康造成危害。在广大公众心目中．往往只认识到铁提供给人体营养价值的一面,而忽视了铁过量的潜在危害。铁过量会影响心脏、肝脏、内分泌系统和其他器官的正常功能。介绍了血色病、神经退行性疾病、癌症等与铁过载有关的疾病,以期引起人们对铁代谢的全面认识。     

铁调素调节蛋白(HJV)———一个新的铁代谢调节蛋白

铁调素调节蛋白 (hemojuvelin,HJV) 是最近发现的一种重要的铁代谢调节蛋白. HJV基因突变是年轻型血色素沉着症 (Juvenile hemochromatosis,JH ) 的重要原因之一. 研究显示,HJV可能是一种极为重要的铁调素 (hepcidin) 表达的调节蛋白,通过参与铁调素表达的调节从而在铁代谢中发挥重要作用.     

神经纤毛蛋白-1的研究进展

神经纤毛蛋白-1(neuropilin 1,Nrp1)是单次跨膜受体,属于Neuropilin家族。它是神经轴突导向因子3(semaphorin 3,Sema3)和血管内皮生长因子165(vascular endothelial growth factor 165,VEGF165)的特异性受体,既可调节神经系统中轴突的生长、导向和迁移,又与心血管系统的血管新生、病理性血管损伤的修复有关。另外,有大量研究表明Nrp1对肿瘤的发展起重要作用,提示Nrp1是肿瘤治疗的潜在靶点。最近,有研究发现Nrp1与肥胖诱导的胰岛素抵抗和脓毒症相关,揭示其在急、慢性炎症中的作用。我们在本文中综述了Nrp1的研究进展,以期更好的理解Nrp1在生理和病理情况下的功能。     

靶向铁死亡防治重大疾病的转化医学研究

铁死亡(ferroptosis)是近年新发现的铁依赖的独特细胞程序化死亡方式,以致死性脂质过氧化蓄积为主要特征.目前,铁死亡研究领域发展迅猛,已成为生命科学及医学等领域的全球热点.大量研究提示铁死亡在心血管疾病、肝病、肾病、肿瘤及神经退行性等衰老相关重大疾病的发生发展及诊治中发挥重要作用.本文综述铁死亡的调控机制及其在脏器损伤和衰老相关疾病中的研究进展,总结现有铁死亡相关药物的应用,并对靶向铁死亡的临床转化应用前景进行展望.     

缺铁胁迫的铁转运激活蛋白—AFT1

酵母（Ｘｃｃｈａｒｏａｐｃｅｓｃｅｒｅｖｉｓ功ｅ）是一种优良的研究许多真核细胞的基础代谢过程的模式生物。１９９５年,美国科学家（Ｙａｍａｐｏｃｈｉ－ｌｗａｉｅｔａｌ）利用筛选铁代谢异常的酵母突变体方法,克隆并鉴定了铁转运激活蛋白（ＡｎｆｆｅｈＶａｔＯＦＯｆｆＣＩＴＯＵＳｔａｐｏｆｔ,ＡＦＴＩ）ｌ‘］。将酵母ｆｒｅｌ的５’上游区融合到ｈｉｓ３基因上,由于铁对ｆｒｅｌ启动子的影响,这种结构在铁充足的条件下,不能表达,转化到不含有ｈｉｓ３的酵母细胞中后,细胞在高铁缺组氨酸的培养基上死亡,将少数存活的突…     

Mitochondria represent another locale for the divalent metal transporter 1 (DMT1)

The divalent metal transporter (DMT1) is well known for its roles in duodenal iron absorption across the apical enterocyte membrane, in iron efflux from the endosome during transferrin-dependent cellular iron acquisition, as well as in uptake of non-transferrin bound iron in many cells. Recently, using multiple approaches, we have obtained evidence that the mitochondrial outer membrane is another subcellular locale of DMT1 expression. While iron is of vital importance for mitochondrial energy metabolism, its delivery is likely to be tightly controlled due to iron's damaging redox properties. Here we provide additional support for a role of DMT1 in mitochondrial iron acquisition by immunofluorescence colocalization with mitochondrial markers in cells and isolated mitochondria, as well as flow cytometric quantification of DMT1-positive mitochondria from an inducible expression system. Physiological consequences of mitochondrial DMT1 expression are discussed also in consideration of other DMT1 substrates, such as manganese, relevant to mitochondrial antioxidant defense.     

Mitochondria represent another locale for the divalent metal transporter 1 (DMT1)

The divalent metal transporter (DMT1) is well known for its roles in duodenal iron absorption across the apical enterocyte membrane, in iron efflux from the endosome during transferrin-dependent cellular iron acquisition, as well as in uptake of non-transferrin bound iron in many cells. Recently, using multiple approaches, we have obtained evidence that the mitochondrial outer membrane is another subcellular locale of DMT1 expression. While iron is of vital importance for mitochondrial energy metabolism, its delivery is likely to be tightly controlled due to iron''s damaging redox properties. Here we provide additional support for a role of DMT1 in mitochondrial iron acquisition by immunofluorescence colocalization with mitochondrial markers in cells and isolated mitochondria, as well as flow cytometric quantification of DMT1-positive mitochondria from an inducible expression system. Physiological consequences of mitochondrial DMT1 expression are discussed also in consideration of other DMT1 substrates, such as manganese, relevant to mitochondrial antioxidant defense.     

Lead and Cadmium Synergistically Enhance the Expression of Divalent Metal Transporter 1 Protein in Central Nervous System of Developing Rats

Divalent metal transporter 1 (DMT1) can transport a large range of ions, including toxic lead (Pb) and cadmium (Cd), across membranes. In this study, a total of 24 rats were divided into four groups for intragastrical perfusion treatment: control, Pb alone, Cd alone, and Pb + Cd. Pb and Cd contents in blood were detected, and the mRNA and protein levels of DMT1 were analyzed in the cerebellum, cortex, and hippocampus. Both Pb and Cd levels were elevated in all groups perfused with Pb and/or Cd, except for Pb level in the Cd-alone group (P < 0.05). The mRNA level of DMT1 did not differ among the four groups (P > 0.05). However, the DMT1 protein expression was significantly increased by 0.9-, 1.0-, and 1.1-fold in cerebellum, cortex, and hippocampus of the Pb + Cd group than in controls, respectively. Pb and Cd exposure can synergistically induce DMT1 protein synthesis and has implications for transportation of toxic ions in the developing rat’s brain. Chengwu Gu and Songjian Chen contributed equally to this work, they are joint first authors.     

综述:金属离子代谢平衡失调与阿尔茨海默病早期发病机制

研究表明,脑内金属离子代谢失衡与阿尔茨海默病(AD)有关,但其机理尚需深入探讨．结合本实验室研究结果,作者对金属离子代谢紊乱与氧化应激,金属离子代谢紊乱与β-淀粉样蛋白、转铁蛋白和转铁蛋白受体、铁调节蛋白、二价金属离子转运体以及天然抗氧化剂通过调节金属离子代谢平衡缓解β-淀粉样蛋白的毒性和保护细胞的作用进行探讨．提出：铁、铜等金属离子缺乏可能主要与AD早期关系密切,而铁、铜等金属离子过载可能主要与AD后期损伤关系密切的学术观点．     

Non-Involvement of the Human Monocarboxylic Acid Transporter 1 (MCT1) in the Transport of Phenolic Acid

Phenolic acids such asp-coumaric acid and microbial metabolites of poorly absorbed polyphenols are absorbed by the monocarboxylic acid transporter (MCT)-mediated transport system which is identical to the fluorescein/H⁺ cotransport system. We focus here on the physiological impact of MCT-mediated absorption and distribution. We examined whether MCT1, the best-characterized isoform found in almost all tissues, is involved in this MCT-mediated transport system. The induction of MCT1 expression in Caco-2 cells by a treatment with sodium butyrate (NaBut) did not increase the fluorescein permeability. Moreover, the transfection of Caco-2 cells with an expression vector encoding MCT1 caused no increase in either the permeability or uptake of fluorescein. Furthermore, in the MCT1-expressing oocytes, no increase ofp-coumaric acid uptake was apparent, whereas the uptake of salicylic acid, a substrate of MCT1, nearly doubled. Our data therefore establish that MCT1 was not involved in the MCT-mediated transport of phenolic acids.     

Protoporphyrin IX regulates peripheral benzodiazepine receptor associated protein 7 (PAP7) and divalent metal transporter 1 (DMT1) in K562 cells

BackgroundProtoporphyrin IX (PP IX), the immediate precursor to heme, combines with ferrous iron to make this product. The effects of exogenous PP IX on iron metabolism remain to be elucidated. Peripheral-type benzodiazepine receptor (PBR) is implicated in the transport of coproporphyrinogen into the mitochondria for conversion to PP IX. We have demonstrated that PBR-Associated Protein 7 (PAP7) bound to the Iron Responsive Element (IRE) isoform of divalent metal transporter 1 (DMT1). PP IX and PAP7 are ligands for PBR, thus, we hypothesized that PAP7 interact with PP IX via PBR.MethodsWe have examined in K562 cells, which can be induced to undergo erythroid differentiation by PP IX and hemin, the effects of PP IX on the expression of PAP7 and other proteins involved in cellular iron metabolism, transferrin receptor 1 (TfR1), DMT1, ferritin heavy chain (FTH), c-Myc and C/EBPα by western blot and quantitative real time PCR analyses.ResultsPP IX significantly decreased mRNA levels of DMT1 (IRE) and (non-IRE) from 4 h. PP IX markedly decreased protein levels of C/EBPα, PAP7 and DMT1. In contrast, hemin, which like PP IX also induces K562 cell differentiation, had no effect on PAP7 or DMT1 expression.ConclusionWe hypothesize that PP IX binds to PBR displacing PAP7 protein, which is then degraded, decreasing the interaction of PAP7 with DMT1 (IRE) and resulting in increased turnover of DMT1.General significanceThese results suggest that exogenous PP IX disrupts iron metabolism by decreasing the protein expression levels of PAP7, DMT1 and C/EBPα.     

动脉粥样硬化小型猪三磷酸 腺苷结合盒转运体 A1 表达的变化

用贵州小香猪建立动脉粥样硬化动物模型,探讨动脉粥样硬化小型猪三磷酸腺苷结合盒转运体 A1(ABCA1) 表达的变化 . 采用血管内膜损伤法加高脂高胆固醇饲料喂养贵州小香猪,建立动脉粥样硬化动物模型 . 血浆总胆固醇、甘油三酯和高密度脂蛋白胆固醇的浓度均用氧化酶法测定,采用逆转录聚合酶链反应检测 ABCA1mRNA 水平,蛋白质印迹和免疫组织化学检测 ABCA1 蛋白质的表达 . 喂养 12 个月后,实验组与正常对照组比较,空腹血浆总胆固醇、甘油三酯和高密度脂蛋白胆固醇水平升高;实验组小型猪主动脉、髂动脉、颈总动脉和冠状动脉可见动脉粥样硬化斑块和脂质条纹;实验组小型猪肝组织、主动脉、小肠组织 ABCA1 表达上调 . 结果提示,采用血管内膜损伤法加高脂高胆固醇饲料喂养小型猪可建立动脉粥样硬化动物模型 . 动脉粥样硬化小型猪肝组织、主动脉和小肠组织 ABCA1 表达上调 .