高铁对大鼠大脑皮层二价金属转运蛋白1表达的影响

目的 探讨在脑铁代谢中发挥重要生理作用的二价金属转运蛋白1(DMT1)的表达及其调控机制.方法 大鼠(n=6)侧脑室注射右旋糖酐铁3d和7d后,采用铁组织化学法检测脑内铁含量的变化,免疫组织化学技术检测大脑皮层中DMT1的两种亚型,即DMT1(+IRE)和DMT1(-IRE)蛋白表达的变化.结果 铁组织化学染色结果显示,大鼠侧脑室注射右旋糖酐铁500μg/(只·d)7d后,大脑皮层中二价铁和三价铁均显著增高.同时,免疫组织化学结果表明,与对照组相比,脑内达高铁状态时大脑皮层DMT1(+IRE)蛋白表达显著升高,而DMT1(-IRE)蛋白表达无显著变化.结论 在大鼠大脑皮层中,DMT1(+IRE)蛋白对铁水平的升高更为敏感,其表达与脑铁水平(尤其是二价铁)呈正相关.高铁对脑内不同区域内不同亚型DMT1表达的影响存在特异性.     

Age-dependent and iron-independent expression of two mRNA isoforms of divalent metal transporter 1 in rat brain

The DMT1(Nramp2/DCT1) is a newly discovered proton-coupled metal-ion transport protein. The cellular localization and functional characterization of DMT1 suggest that it might play a role in physiological iron transport in the brain. In the study, we evaluated effects of dietary iron and age on iron content and DMT1 expression in four brain regions: cortex, hippocampus, striatum, substantia nigra. Total iron content in all regions was significantly lower in the low-iron diet rats and higher in the high-iron diet rats than that in the control animals, showing that dietary iron treatment for 6-weeks can alter brain iron levels. Contrary to our expectation, there was no significant alternation in DMT1(+IRE) and (-IRE) mRNA expression and protein content in all brain regions examined in spite of the existence of the altered iron levels in these regions after 6-weeks' diet treatment although TfR mRNA expression and protein level were affected significantly, as was expected. The data demonstrates that expression of DMT1(+IRE) and (-IRE) was not regulated by iron in these regions of adult rats. The lack of response of DMT1 to iron status in the brain suggests that the IRE of brain DMT1 mRNA might be not really iron-responsive and that DMT1-mediated iron transport might be not the rate-limiting step in brain iron uptake in adult rats. Our findings also showed that development can significantly affect brain iron and DMT1(+IRE) and (-IRE) expression but the effect varies in different brain regions, indicating a regionally specific regulation in the brain.     

脑缺血诱导大鼠皮层和海马二价金属离子转运体1表达增加的研究

目的:探讨脑缺血对大鼠皮层、海马二价金属离子转运体1(DMT1)表达的影响。方法:雄性Wistar大鼠随机分为脑缺血1、3、7、28 d和假手术组。结扎双侧颈总动脉建立脑缺血模型组,假手术组仅分离双侧颈总动脉但不结扎。采用RT-PCR测定DMT1+/-IRE mRNA的表达;采用免疫组化染色测定大鼠皮层及海马组织DMT1的表达。结果:大鼠皮层和海马DMT1+/-IRE mRNA的表达随缺血时间的延长逐渐增加。与假手术组比较,皮层DMT1+/-IRE mRNA的表达在缺血1、3 d时无差异(P>0.05);缺血7 d时表达增加(P<0.01),缺血28d时增加更明显(P<0.01)。海马DMT1-IRE mRNA表达除在缺血1 d时与假手术组无差异外(P>0.05),其余时间点DMT1+/-IRE mRNA表达均高于假手术组(P<0.01)。随缺血时间的延长,大鼠皮层、海马的锥体细胞、颗粒细胞及血管内皮细胞DMT1的表达逐渐增加。DMT1的表达除缺血1 d组与假手术组无差别外(P>0.05),其余各组均高于假手术组(P<0.05)。结论:脑缺血可诱导大鼠皮层及海马DMT1表达升高,DMT1表达的改变可能参与了脑缺血引起大鼠脑铁含量升高及神经元铁沉积过程。     

谷氨酸钠、γ-氨基丁酸注入黑质对大鼠尾壳核二价金属离子转运体1和膜铁转运辅助蛋白表达的影响

目的 探讨谷氨酸、γ-氨基丁酸(GABA)对大鼠尾壳核铁代谢的影响.方法 大鼠立体定位后,向大脑黑质分别注射谷氨酸钠(MSG)和GABA,观察大鼠尾壳核铁含量,黑质多巴胺能神经元酪氨酸羟化酶(TH)的变化以及尾壳核的无铁反应元件结构的二价金属离子转运体1(DMT1-IRE)、膜铁转运辅助蛋白(HP)含量的变化.结果 与对照组相比,MSG组大鼠尾壳核铁含量显著增加,GABA组与对照组相比没有显著差异;谷氨酸钠组和GABA组大鼠黑质TH免疫阳性细胞平均吸光度(AA)与对照组相比均无显著差异;与对照组相比,谷氨酸钠组大鼠尾壳核DMT1-IRE表达均显著增加,而GABA组DMT1-IRE表达有明显降低;谷氨酸钠组大鼠尾壳核HP表达显著降低,GABA组HP表达显著增高.结论 黑质的谷氨酸和GABA可能通过影响尾壳核DMT1-IRE和HP的表达影响纹状体尾壳核的铁代谢.     

Effects of Intracerebroventricular Injection of Iron Dextran on the Iron Concentration and Divalent Metal Transporter 1 Expression in the Caudate Putamen and Substantia Nigra of Rats

The cellular localization of DMT1 and its functional characterization suggest that DMT1 may play an important role in the physiological brain iron transport. But the regulation of DMT1 expression by iron in the brain is still not clearly understood. In this study, both the contents of ferric and ferrous iron as well as DMT1 expression were evaluated in CPu and SN after ICV of 500 μg iron dextran/rat/day for 3 or 7 days. It was found that the iron levels in CPu and SN were not altered obviously until ICV for 7 days. Immunohistochemistry results indicated that the expression of DMT1 (?IRE) in CPu and SN was not altered significantly after 3 days of ICV. Whereas the expression of DMT1 (?IRE) decreased significantly after 7 days of ICV when ferrous iron was increased significantly. Contrary to that of DMT1 (?IRE) in the same regions, there were no significant alterations in DMT1 (+IRE) expression in CPu and SN in spite of the existence of the altered iron levels, compared with that of control groups. The results demonstrate that DMT1 (?IRE) expression was correlated probably with brain iron levels; especially, its regulation was correlated with ferrous iron (not ferric iron) in CPu and SN in adult rats, compared with those of saline‐injected control rats. The effect of ferrous iron on the expression of DMT1 (?IRE) in the brain also suggests that it might play a major physiological role in brain iron uptake and transport, but further studies are needed to clarify these issues. Anat Rec, 2009. © 2008 Wiley‐Liss, Inc.     

Changes of ferrous iron and its transporters after intracerebral hemorrhage in rats

Objective: Ferrous iron is a major source inducing oxidative stress after intracerebral hemorrhage (ICH). Divalent metal transporter1 (DMT1) is the important and well-known plasma membrane transport protein which was proved to be involved in the transport of free ferrous iron in mammals. Ferroportin 1 (FPN1) is the unique exporter of ferrous iron from mammalian cells. The role of DMT1 and FPN1 in brain after ICH is still not elucidated. Therefore, we measure the expression of DMT1 and FPN1, to explore the correlations between ferrous iron and its specific transporters after ICH. Methods: Ninety-six Sprague-Dawley rats received intra-striatal infusions of 0.5 U type IV collagenase to establish ICH model. Ferrous iron content in brain was determined using Turnbull’s method. DMT1 and FPN1 expression were examined by immunohistochemical staining and Real-Time quantitative polymerase chain reaction (RT-PCR). With the use of confocal laser microscopy, we determined the colocalization of DMT1 and FPN1 at 1, 3, 7 and 14 days after ICH. Results: Ferrous iron deposition was shown in the perihematomal zone as early as 1 day after ICH; it reached a peak after 7 days and was not elevated within 14 days following ICH. The expression of the DMT1 upregulated and reached to peak at day 7 after ICH. FPN1 reached a plateau at 3 days post-ICH. Expression levels of DMT1 and FPN1 were in parallel with ferrous iron deposition. There was a positive correlation between FPN1 and DMT1. DMT1 mainly localized in the cytoplasm of glias and neurons. FPN1 were mostly distributed on the membrane of endothelial cells and glias. Confocal microscope showed that DMT1 colocalized with FPN1. Conclusions: DMT1 and FPN1 are positively influenced by ferrous iron status in brain after ICH. DMT1 and FPN1 attenuate iron overload after ICH via increasing transmembrane iron export.     

Racial disparities in children’s blood lead levels: Possible implication of divalent metal transporter 1

Adverse effects of lead exposure at low-dose (<10 μg/dL) in children showed a growing interest over the last decades. Black ethnicity is usually associated with elevated blood lead levels (BLLs), independently of age and socioeconomic conditions. The gastrointestinal uptake of lead represents a key step in the process of lead kinetic and toxicity. The involvement of divalent metal transporter 1 (DMT1) in the lead absorption has been previously presumed and reported. I postulate that inter-ethnic differences in DMT1 expression may explain a large part of the racial disparity in children’s BLLs, and suggest a few analyses to test this hypothesis. The hypothesis rests on some observations from previous researches. The inverse association between BLLs and iron intake has been reported in both cross-sectional and follow-up studies. It appears that no study specifically addressed the modifying effect of ethnicity in this association. Previous reports suggest that DMT1 is the primary mechanism for gastrointestinal iron absorption. There are four forms of DMT1 expressed in the enterocytes, which did not respond similarly to iron changes. It is not excluded that some children be more likely to uptake ingested lead depending on DMT1 isoform expressed. I hypothesize that the expression of the more active DMT1 isoform (+1A/+IRE) is more common in Non-Hispanic Black compared with Non-Hispanic White children, and I suggest how to test this hypothesis. If the hypothesis is confirmed, this would suggest that the prevention of iron-deficiency must be included in the primary programs for preventing increase of BLLs in Non-Hispanic Black children, rather than as part of secondary prevention. Moreover, thorough studies would be useful to characterize the interaction between environmental lead levels and DMT1 expression in relation to BLLs in young children.     

Up-regulation of divalent metal transporter 1 is involved in 1-methyl-4-phenylpyridinium (MPP(+))-induced apoptosis in MES23.5 cells

Apoptosis has been identified as one of the important mechanisms involved in the degeneration of dopaminergic neurons in Parkinson's disease (PD). Our previous study showed increased iron levels in the substantia nigra as well as loss of dopaminergic neurons in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-induced PD mouse models. 1-Methyl-4-phenylpyridinium (MPP⁺) is commonly used to establish a cellular model of PD. Although intracellular iron plays a crucial role in MPP⁺-induced apoptosis, the molecular mechanism linking increased iron and MPP⁺-induced neurodegeneration is largely unknown. In the present study, we investigate the involvement of divalent metal transporter 1 (DMT1) that accounts for the ferrous iron transport in MPP⁺-treated MES23.5 cells. In the treated cells, a significant influx of ferrous iron was observed. This resulted in a decreased mitochondrial membrane potential. Additionally, an elevated level of ROS production and activation of caspase-3 were also detected, as well as the subsequent cell apoptosis. These effects could be fully abolished by iron chelator desferal (DFO). Increased DMT1 (−IRE) expression but not DMT1 (+IRE) accounted for the increased iron influx. However, there were no changes for iron regulatory protein 1 (IRP1), despite decreased expression of IRP2. Iron itself had no effect on IRP1 and IRP2 expression. Our data suggest that although DMT1 mRNA contains an iron responsive element, its expression is not totally controlled by this. MPP⁺ could up-regulate the expression of DMT1 (−IRE) in an IRE/IRP-independent manner. Our findings also show that MPP⁺-induced apoptosis in MES23.5 cells involves DMT1-dependent iron influx and mitochondria dysfunction.     

The parent-of-origin effect of 10q22 in pre-eclamptic females coincides with two regions clustered for genes with down-regulated expression in androgenetic placentas

By affected sib-pair linkage analysis of 24 families with pre-eclampsia, we confirm a susceptibility locus on chromosome 10q22.1 in Dutch females: a multipoint non-parametric linkage score of 3.6 near marker D10S1432 was obtained. Haplotype analysis showed a parent-of-origin effect: maximal allele sharing in the affected sibs was found for maternally derived alleles in all families, but not for the paternally derived alleles. As matrilineal inheritance suggests the presence of maternally expressed imprinted genes, while imprinting operates predominantly in (extra)embryonic tissues, all genes (n=132) known on 10q22 between GATA121A08 and D10S580 were screened for seven sequence-related features associated with imprinting and subsequently tested for expression in first trimester placenta. Placental expression of genes selected in this way (n=55) was compared with expression in androgenetic placentas of identical gestational age. Two regions on 10q22 were identified with developmentally co-repressed genes with non-random chromosomal distribution. Interestingly, these two clusters, near CTNNA3 and KCNMA1 and each containing five genes with down-regulated expression in androgenetic placentas, coincided with the regions with maximal maternal allele sharing seen in the pre-eclamptic sisters. Our linkage and expression data are compatible with the concept that pre-eclampsia involves maternally expressed imprinted genes that operate in the first trimester placenta.     

Comparative expression analysis of the murine palladin isoforms

Palladin fulfils a crucial function as a molecular scaffold in organizing and stabilizing the actin cytoskeleton. At least four major palladin isoforms exist due to different promoter usage and alternative splicing: a 200-kDa isoform, a 140-kDa isoform, and two isoforms with a size of 90-92 kDa. Here, we describe their expression during mouse development and in adult tissues. The 200-kDa isoform is predominantly expressed in developing heart and skeletal muscle. The 140-kDa isoform is expressed in various mesenchymal tissues, and also represents the major isoform of the brain. The 90-92-kDa isoforms are almost ubiquitously expressed with the highest levels in smooth muscle-rich tissues. Immunohistochemical and immunofluorecence staining with an anti-200-kDa isoform-specific antiserum localizes the large isoform to the Z-discs of cardiac and skeletal muscle cells. Interestingly, the expression of this isoform is initiated and increasing during in vitro differentiation and fusion of C2C12 myoblasts, suggesting that the 200-kDa palladin isoform may play a scaffolding role during sarcomeric organization.     

DMT1在多巴胺能神经元变性中的作用研究

目的: 研究二价金属离子转运蛋白1(DMT1)在乳胞素(lactacystin)诱导的SH-SY5Y细胞中的表达改变,从而进一步了解DMT1在帕金森病(PD)神经元损伤中的可能作用机制。方法: 建立 lactacystin 损伤的SH-SY5Y细胞模型,用免疫荧光、Western blotting等方法检测细胞DMT1表达水平的变化;在高亚铁环境下,荧光探针DCFH-DA检测胞内氧化应激水平的变化,免疫组织化学法、Western blotting检测胞内α-突触核蛋白(α-SYN)聚合体的改变。结果: Lactacystin处理后,细胞活力呈浓度依赖性降低。与正常对照组相比,lactacystin处理组DMT1表达增加(P<0.01)。正常对照组、lactacystin处理组及Fe²⁺处理组3组比较,其细胞活力逐渐降低,胞内氧化应激反应逐渐增强,胞浆α-SYN低聚体(43-55 kD)表达量逐渐增多(P<0.05)。结论: Lactacystin诱导SH-SY5Y细胞高表达DMT1,增强细胞摄铁能力,这可能是铁直接或者通过氧化应激反应促进胞内α-SYN的错误折叠和聚集、最终导致PD神经元损伤的关键因素。     

CD49f剪接异构体在不同细胞系中的表达

目的比较CD49f选择性剪接异构体在人不同来源干细胞以及结肠癌细胞系中的表达,并构建特定异构体过表达载体用于功能研究。方法 RT-PCR及real-time PCR检测CD49f选择性剪接异构体在不同细胞中的表达;分子克隆方法构建各异构体的慢病毒过表达载体;流式细胞计量术、Western blot及real-time PCR检测CD49f各异构体的过表达;Transwell方法检测细胞侵袭能力的改变。结果人胚胎干细胞系H9中表达CD49f异构体B,而上皮类细胞仅表达异构体A;间质细胞中二者均有表达,但异构体A表达多于异构体B;检测的4个结肠癌细胞系中CD49f异构体A和B均有表达,其中HT29和HCT116中以异构体A为主,而HCT8和LoVo中异构体B的表达更为明显。构建的慢病毒表达载体可使HT29中CD49f异构体A和B获得特异性过表达,其中异构体B的过表达使HT29的侵袭能力增加。结论不同类型细胞中CD49f选择性剪接异构体A和B的表达存在显著差异,二者的生物学功能具有差别。     

DMT1在小肠吸收细胞的摄铁机制

铁是生物体最丰富的微量金属元素之一,小肠是机体铁吸收和铁稳态调节最关键结构,小肠吸收细胞对非血红素铁的吸收摄取主要由二价金属离子转运体(divalent metal transporter1,DMT1)介导的。DMT1对铁的吸收转运主要通过囊泡运输和载体运输实现的。囊泡运输主要包括DMT1形成吸收铁的囊泡、与apo-Tf囊泡融合、分离、分选转运完成的;载体运输则是在肠表面H+电化学梯度的驱动下将铁转入细胞内的。本文着重介绍了最近国内外关于DMT1在小肠非血红素铁吸收转运中的作用机制的最新研究进展。