H-Ferritin Is Preferentially Incorporated by Human Erythroid Cells through Transferrin Receptor 1 in a Threshold-Dependent Manner / Hフェリチンはトランスフェリン受容体1を介して閾値依存性にヒト赤芽球系細胞に優先的に取り込まれる

Sakamoto, Souichiro

23 March 2016

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19607号 / 医博第4114号 / 新制||医||1015(附属図書館) / 32643 / 京都大学大学院医学研究科医学専攻 / (主査)教授 前川 平, 教授 中畑 龍俊, 教授 江藤 浩之 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Ferritin

Transferrin Receptor 1

Erythroid

490

Biochemical Markers of Iron Status in Recreational Female Runners

Stangland, Jenna Emily

24 October 2013

No description available.

Nutrition

female runners

recreation

iron status

ferritin

soluble transferrin receptor

transferrin receptor ratio

Characterization of the Role of Transferrin receptor 1 (Tfr1) in the Intestinal Epithelium, Pancreas and Skin

Chen, Alan

January 2015

<p>Transferrin receptor 1 (Tfr1) serves as a receptor for transferrin, an iron-binding protein in the blood, in its canonical role of iron assimilation. Tfr1 is expressed ubiquitously in many tissues and is believed to be required for iron uptake by most cells. </p><p>The Tfr1 global knockout mouse highlights the requirement for Tfr1 in erythrocyte precursors. The erythron is the tissue with the highest iron requirement, to enable hemoglobin production. Tfr1-null embryos die by embryonic day 12.5 with anemia, which has been assumed to cause lethality of the knockout mice. Due to the embryonic lethality of the mice, the role of Tfr1 has not been well characterized in other tissues in vivo. This thesis examines the role of Tfr1 in other tissues through the generation and characterization of conditional knockout mouse models of Tfr1 deletion in the intestinal epithelium, pancreas, and skin.</p><p>Tfr1 is expressed on the basolateral surface of proliferating cells in the intestinal epithelium. Deletion of Tfr1 specifically in the intestinal epithelium resulted in the loss of intestinal epithelial homeostasis, loss of proliferation, lipid accumulation, gene expression indicating epithelial to mesenchymal transition of intestinal epithelial cells, and early neonatal lethality. These phenotypes were mostly alleviated by forced expression of a mutant Tfr1 allele which is unable to bind to iron-loaded transferrin, suggesting that Tfr1 has a novel role independent of its canonical iron-assimilatory ability.</p><p>Deletion of Tfr1 in the pancreas resulted in juvenile death due to perturbed homeostasis of both endocrine and exocrine tissues, resulting in symptoms associated with pancreatitis and diabetes. No diabetic phenotype was detected in the conditional knockout mouse model of Tfr1 deletion specifically in &#946;-cells, suggesting that the primary effect of the loss of Tfr1 was limited to the exocrine tissue.</p><p>Deletion of Tfr1 in the epidermis of the skin caused neonatal lethality with abnormal hair follicle morphology and a significant reduction in dermal adipocytes.</p><p>These results indicate that the loss of Tfr1 has pleiotropic effects, depending on the cell type affected. Furthermore, Tfr1 appears to have non-canonical functions in the intestinal epithelium, a novel discovery.</p> / Dissertation

Cellular biology

intestinal epithelium

iron

pancreas

skin

transferrin receptor

Markers of iron status and cardiometabolic disease risk : an exploration of the association based on cross-sectional and prospective studies in multiple populations

Suarez Ortegon, Milton Fabian

January 2017

The aim of this thesis is to contribute to the understanding of iron metabolism, as a factor associated with cardiometabolic risk, by undertaking secondary data analyses. The objectives were to identify gaps in existing knowledge in terms of populations studied and alternative iron markers, and to attempt to fill the gaps with additional analyses and interpretation. Serum ferritin was the most widely available measure of iron status but the role of serum transferrin and soluble transferrin receptor (sTfR) levels was considered where available. I have taken a life-course approach with analyses in childhood and adulthood, and have included both intermediate factors such as the metabolic syndrome (MetS), and disease diagnoses of diabetes and cardiovascular disease as outcomes. Chapter one presents a review of empirical research literature on the relationship between iron metabolism and cardiometabolic risk, concepts surrounding iron markers and the study outcomes. This chapter also describes the gaps in understanding the iron-cardiometabolic risk relationship, which are subsequently explored in chapters two to six. Chapter two explores the link between serum ferritin and transferrin and MetS in cross-sectional and prospective studies of 725 Spanish children and 567 Chilean adolescents. I found associations between both ends of the ferritin distribution and MetS or glucose metabolism markers in different paediatric populations. For instance, whereas in the Spanish children there was a decrease of 0.02 SD units in the change of MetS score over time for every SD unit increase in ferritin, in the Chilean male adolescents being in the highest tertile of ferritin (v. the lowest) was associated with an increase of 0.25 SD units of MetS score. Furthermore, sustained high ferritin levels at various time points and gradual increase of ferritin during childhood were associated with higher MetS score in adolescence. The third chapter describes the association between serum ferritin status and MetS in adults in two cross-sectional studies of Scottish populations (2,047 individuals from Shetland Islands and 8,563 subjects from the Scottish Health Surveys (SHeS) 1995- 1998). I also examined the overall association between ferritin, MetS and each MetS component in adults, by conducting a meta-analysis and investigating potential relevant sources of heterogeneity for the association. Interestingly, ferritin levels were positively associated with MetS in the Scottish populations, but the association was not independent of the effect of covariates, mainly body mass index (BMI) and transaminase levels [Men Odds ratio (OR) 95% confidence interval (CI) 1.43(0.83- 2.46); Postmenopausal women OR (95%CI) 1.09(0.62-1.90); Premenopausal women OR (95%CI) 1.02(0.42-2.46), P > 0.05]. The meta-analysis supported this finding by describing hepatic injury markers and BMI as the major attenuating factors of the ferritin-MetS association. Chapter four investigates the association between sTfR or ferritin, and MetS in 725 Croatian adults in a cross-sectional study. There was no evidence of an association between sTfR and MetS [Men OR (95%CI) 1.35(0.90-2.02); Postmenopausal women OR (95%CI) 0.73(0.47-1.15); Premenopausal women OR (95%CI) 0.87(0.66-1.17), P > 0.05]. In contrast serum ferritin, was positively and independently associated with MetS in men and postmenopausal women (P < 0.05) [Men OR (95%CI) 1.78(1.31- 2.42); Postmenopausal women OR (95%CI) 1.71(1.12-2.62); Premenopausal women OR (95%CI) 1.24(0.85-1.80)]. These contrasting results suggest that different iron markers reflect different physiological processes other than iron metabolism. Chapter five evaluates the longitudinal association between serum ferritin and several cardiometabolic disease outcomes (CMDs) in the nationally representative SHeS 1995 and 1998 (n = 6,497). I found an independent positive longitudinal association between ferritin and cerebrovascular disease (CEVD), which was strengthened by using higher cut-points for increased ferritin [higher v. lowest sextile fully adjusted Hazard ratio(HR) 95%CI 2.08 (1.09-3.94), P=0.024], and a not significant association with coronary heart disease (CHD) after adjustment for covariates. My analyses confirmed the widely established association with type 2 diabetes (T2D) [whole sample fully adjusted HR 95% CI 1.59(1.10-2.34), P=0.006], even with serum ferritin within the normal range. The above set of observations confirm ferritin as biomarker mainly related to the development of T2D and identifies the need to investigate the association between ferritin and CEVD in other populations. Chapter six investigates whether ferritin is associated with risk for cardiovascular complications among people with T2D using cross-sectional study designs in two populations with differing baseline cardiovascular risk (Spanish study SIDIAP n=38,617) and (Edinburgh Type 2 Diabetes Study (ET2DS) n= 821) with additional analysis of follow-up data for ET2DS. Interestingly, ferritin levels were negatively associated with prevalence of cardiovascular disease, mainly CHD, in people with T2D in both studies [ET2DS OR (95%CI): 0.80(0.67-0.96), P=0.020; SIDIAP study: 0.85(0.83-0.88), P < 0.001). Ferritin was also negatively associated with incident cardiovascular disease in ET2DS: HR 95% CI: 0.39(0.16-0.93), P=0.035. Therefore, the association between iron status and CMD risk in people with T2D appears to differ from that in general populations in which a positive association has been more commonly described. In conclusion, serum ferritin is associated with cardiometabolic risk in different ways in a variety of populations. Inconsistent associations for other iron markers suggest that iron biomarkers reflect factors other than iron homeostasis that influence cardiometabolic risk. The association between iron markers and MetS appears to differ between populations. This thesis illustrates the complex relationship between iron metabolism markers, MetS and CMD, and identifies the need for further research on the topic in order to extend knowledge about pathophysiology and the potential for measures of iron status as biomarkers for CMD.

Regnase-1 Maintains Iron Homeostasis via the Degradation of Transferrin Receptor 1 and Prolyl-Hydroxylase-Domain-Containing Protein 3 mRNAs / Regnase-1はトランスフェリン受容体とプロリン水酸化酵素３のmRNAを分解することで鉄恒常性を維持する

Yoshinaga, Masanori

23 March 2020

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22355号 / 医博第4596号 / 新制||医||1042(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 萩原 正敏, 教授 岩田 想, 教授 濵﨑 洋子 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Iron metabolism

mRNA degradation

Anemia

HIF2α

Transferrin receptor

Endonuclease

490

Avaliação fenotípica dos linfócitos T em um modelo animal de deficiência de ferro / Cells T immunophenotypic analysis in animal modelo of iron deficiency

Araujo, Felipe Saldanha de

27 October 2006

O ferro é um elemento chave em muitos processos metabólicos, como transporte de oxigênio, síntese de hormônios esteróides, respiração celular, transporte de elétrons, síntese de DNA, proliferação e diferenciação celular e regulação gênica. A deficiência de ferro é a desordem nutricional mais comum afetando aproximadamente um terço da população mundial. Pequenos déficits no compartimento funcional de ferro têm sérias conseqüências sobre o sistema imune, principalmente na imunidade mediada por células. A abordagem dos pais ou responsáveis, as exigências éticas e a aderência de crianças da mesma faixa etária e sem outros problemas que afetem o metabolismo do ferro e o sistema imune são as principais dificuldades enfrentadas no desenvolvimento de pesquisas com seres humanos, sendo necessário o estabelecimento de modelos experimentais. Este trabalho teve como objetivo estabelecer um modelo de indução e recuperação de deficiência de ferro em camundongos, visando a sua utilização em estudos sobre alterações do sistema imune induzidas por esta deficiência. A deficiência de ferro foi induzida por ingestão de uma ração com baixo teor de ferro (5 mg /kg de ração) por 4 e 8 semanas. No termino deste período foram determinados: concentração de hemoglobina (colorimetrico), hematócrito (microhematócrito), estoques de ferro hepático (espectrometria de absorção atômica) e fenotipagem (citometria de fluxo) dos linfócitos presentes no sangue periférico e em suspensão de células do baço dos animais dos grupos controle (C) e deficiente em ferro (DF), sendo avaliado a porcentagem de células T CD4+ e CD8+, bem como a expressão do receptor de transferrina (CD71+) nessas subpopulações. Não houve diferenças na concentração de hemoglobina e no valor do hematócrito entre os animais dos grupos DF e C, porém os estoques de ferro estavam significantemente reduzidos nos animais do grupo DF de quatro (p<0,05) e oito (p<0,01) semanas. Não houve diferenças na porcentagem de linfócitos T CD4+ e T CD8+ entre os animais dos grupos DF e C, porém os animais deficientes em ferro apresentaram maior porcentagem de linfócitos T CD8+ do baço expressando CD71+ (p< 0,001). Este trabalho sugere que a depleção nos estoques de ferro não altera a proporção dos subtipos de linfócitos, porem as células T CD8 + do baço são mais sensíveis à deficiência de ferro. / Iron have a crucial role in several metabolic pathways, such oxygen transport, steroid hormone synthesis, cellular respiration, electron transport, DNA synthesis, cellular proliferation and differentiation and genic regulation. The iron deficiency is most common disorder nutrition, affecting about 30% world population. Deficits in iron functional compartment have serious delays about immunity systems, especially in the cellular immunity. Because of environmental problems, age, deficiency of nutrients other than iron, prevalence of infection, which may make human studies difficult, we used an animal model. This work aimed established iron deficiency induction and recuperation in mouse, for study about immune systems alteration. Iron deficiency was induced by feeding mice a diet that contained only 5 mg Fe/Kg for 4 and 8 weeks. After this period were determined: hemoglobin (colorimetry), hematocrit (microhematocrit), liver iron stores (atomic absorption spectrophotometer) and we performed a flow cytometry analyses in peripheral blood and spleen lymphocytes in control (C) and iron deficient (ID) mouse. We defined the effects of iron deficiency on T-cell subset and expression of cell-surface transferrin receptor (CD71+) in these cells. Hemoglobin concentration and hematocrit of ID mice were not difference those of C mice, but iron stores of ID mice (4 and 8 weeks) were reduced (p< 0,05 and p< 0,01; respectively). Although T-cells subsets in peripheral blood and spleen were not altered, iron deficiency significantly increased the number of spleen T CD8+ cells that express CD 71+ (p< 0,001). Data suggest that depletion of iron storage not alter T-cells subsets and spleen T CD8+ is the most sensible subset in iron deficiency.

cellular immunity

deficiência de ferro

imunidade celular

iron deficiency

receptor de transferrina

transferrin receptor

Avaliação fenotípica dos linfócitos T em um modelo animal de deficiência de ferro / Cells T immunophenotypic analysis in animal modelo of iron deficiency

Felipe Saldanha de Araujo

27 October 2006

O ferro é um elemento chave em muitos processos metabólicos, como transporte de oxigênio, síntese de hormônios esteróides, respiração celular, transporte de elétrons, síntese de DNA, proliferação e diferenciação celular e regulação gênica. A deficiência de ferro é a desordem nutricional mais comum afetando aproximadamente um terço da população mundial. Pequenos déficits no compartimento funcional de ferro têm sérias conseqüências sobre o sistema imune, principalmente na imunidade mediada por células. A abordagem dos pais ou responsáveis, as exigências éticas e a aderência de crianças da mesma faixa etária e sem outros problemas que afetem o metabolismo do ferro e o sistema imune são as principais dificuldades enfrentadas no desenvolvimento de pesquisas com seres humanos, sendo necessário o estabelecimento de modelos experimentais. Este trabalho teve como objetivo estabelecer um modelo de indução e recuperação de deficiência de ferro em camundongos, visando a sua utilização em estudos sobre alterações do sistema imune induzidas por esta deficiência. A deficiência de ferro foi induzida por ingestão de uma ração com baixo teor de ferro (5 mg /kg de ração) por 4 e 8 semanas. No termino deste período foram determinados: concentração de hemoglobina (colorimetrico), hematócrito (microhematócrito), estoques de ferro hepático (espectrometria de absorção atômica) e fenotipagem (citometria de fluxo) dos linfócitos presentes no sangue periférico e em suspensão de células do baço dos animais dos grupos controle (C) e deficiente em ferro (DF), sendo avaliado a porcentagem de células T CD4+ e CD8+, bem como a expressão do receptor de transferrina (CD71+) nessas subpopulações. Não houve diferenças na concentração de hemoglobina e no valor do hematócrito entre os animais dos grupos DF e C, porém os estoques de ferro estavam significantemente reduzidos nos animais do grupo DF de quatro (p<0,05) e oito (p<0,01) semanas. Não houve diferenças na porcentagem de linfócitos T CD4+ e T CD8+ entre os animais dos grupos DF e C, porém os animais deficientes em ferro apresentaram maior porcentagem de linfócitos T CD8+ do baço expressando CD71+ (p< 0,001). Este trabalho sugere que a depleção nos estoques de ferro não altera a proporção dos subtipos de linfócitos, porem as células T CD8 + do baço são mais sensíveis à deficiência de ferro. / Iron have a crucial role in several metabolic pathways, such oxygen transport, steroid hormone synthesis, cellular respiration, electron transport, DNA synthesis, cellular proliferation and differentiation and genic regulation. The iron deficiency is most common disorder nutrition, affecting about 30% world population. Deficits in iron functional compartment have serious delays about immunity systems, especially in the cellular immunity. Because of environmental problems, age, deficiency of nutrients other than iron, prevalence of infection, which may make human studies difficult, we used an animal model. This work aimed established iron deficiency induction and recuperation in mouse, for study about immune systems alteration. Iron deficiency was induced by feeding mice a diet that contained only 5 mg Fe/Kg for 4 and 8 weeks. After this period were determined: hemoglobin (colorimetry), hematocrit (microhematocrit), liver iron stores (atomic absorption spectrophotometer) and we performed a flow cytometry analyses in peripheral blood and spleen lymphocytes in control (C) and iron deficient (ID) mouse. We defined the effects of iron deficiency on T-cell subset and expression of cell-surface transferrin receptor (CD71+) in these cells. Hemoglobin concentration and hematocrit of ID mice were not difference those of C mice, but iron stores of ID mice (4 and 8 weeks) were reduced (p< 0,05 and p< 0,01; respectively). Although T-cells subsets in peripheral blood and spleen were not altered, iron deficiency significantly increased the number of spleen T CD8+ cells that express CD 71+ (p< 0,001). Data suggest that depletion of iron storage not alter T-cells subsets and spleen T CD8+ is the most sensible subset in iron deficiency.

deficiência de ferro

imunidade celular

receptor de transferrina

cellular immunity

iron deficiency

transferrin receptor

Ciblage du récepteur de la transferrine de type 1 (TfR1) et du métabolisme du Fer dans le cancer du pancréas / Targeting Transferrin Receptor 1 (TfR1) and iron metabolism in Pancreatic Cancer

Melhem, Rana

10 July 2017

L'adénocarcinome canalaire pancréatique (PDAC) est une maladie agressive à pronostic sombre et à forte mortalité. Il est donc crucial de rechercher de nouvelles cibles thérapeutiques et de nouveaux traitements. Une option intéressante pourrait être le ciblage du métabolisme du Fer. En effet, la transformation cellulaire s'accompagne généralement d'un accroissement des besoins en fer et de l'augmentation du récepteur de la transferrine de type 1, TfR1, le récepteur majeur impliqué dans l'approvisionnement des cellules en Fer par l'internalisation de la transferrine plasmatique chargée en fer. Nous avons utilisé un anticorps monoclonal humain IgG1 anti-TfR1 (H7) pour cibler le TfR1 dans le PDAC. Le traitement in vitro de 3 lignées de PDAC, établies à partir de tumeurs primaires de patients (BxPC3 et HPAC) ou d'une métastase hépatique (CFPAC) par H7 inhibe la viabilité cellulaire en réduisant la prolifération et induisant l'apoptose. H7 bloque efficacement l'internalisation de la transferrine chargée en Fer avec pour conséquence une baisse du Fer libre intracellulaire, une augmentation du TfR1 et une diminution de la ferritine, protéine de stockage du fer. Le traitement par H7 induit également l'expression du suppresseur de tumeur NDRG1 (N-myc downstream regulated gene 1), une cible prometteuse dans le cancer du pancréas, et la formation de sphères par la lignée HPAC in vitro, montrant que la déprivation en fer inhibe aussi les cellules initiatrices de tumeur dans ce modèle. Enfin, H7 recrute les cellules Natural Killer in vitro et induit efficacement l’ADCC (cytotoxicité cellulaire dépendante des anticorps). In vivo, dans 2 modèles de PDAC chez la souris (greffe de la lignée BxPC3 ou d’une tumeur dérivée d’un patient (PDX)), H7 diminue la croissance tumorale et augmente l'activité anti-tumorale du traitement chimiothérapeutique standard (gemcitabine). Ces résultats suggèrent que le ciblage du TfR1 par l'anticorps H7, seul ou en combinaison avec le traitement chimiothérapeutique standard est une stratégie prometteuse pour le traitement du PDAC. / Pancreatic ductal adenocarcinoma (PDAC) is a highly aggressive disease associated with poor diagnosis and high mortality. It is therefore necessary to search for new therapeutic targets and treatments. One of the interesting options would be targeting iron metabolism. Indeed, cell transformation is generally accompanied with increased needs for iron together with increased expression of the transferrin receptor 1, TfR1, the major receptor involved in cellular iron supply via the internalization of plasma transferrin loaded with iron.We have used a fully human internalizing anti-TfR1 antibody (IgG1), namely H7, to target TfR1 in PDAC. On three PDAC cell lines, BxPC3, HPAC (established from primary tumor), and CFPAC (established from hepatic metastasis), H7 treatment decreased cellular viability in vitro as a result of combined proliferation inhibition and apoptosis induction. H7 blocked efficiently transferrin internalization, and, likely due to a decrease in the labile iron pool, induced the upregulation of TfR1 and the downregulation of the iron storage protein ferritin. Interestingly, H7 treatment also induced the expression of the metastasis suppressor N-myc downstream regulated gene 1 (NDRG1), a promising therapeutic target in pancreatic cancer. H7 also decreased the ability of HPAC cell line to form tumor sphere in vitro indicating its inhibitory effect tumor initiating cells. Finally, H7 was able to recruit Natural killer cells and mediate antibody-dependent cell cytotoxicity on PDAC cell lines in vitro. In vivo, both in a PDAC cell line (BxPC3) and a patient derived xenograft (PDX) mouse model, H7 treatment decreases tumor growth and increases the anti-tumor activity of the Gemcitabine standard treatment. These data provide evidence that targeting pancreatic cancer with the iron depriving anti-TfR1 antibody, alone or in combination with gemcitabine might be a promising strategy in PDAC.

Cancer du pancréas

Récepteur de la transferrine

Anticorps thérapeutique

Pancreatic cancer

Transferrin Receptor 1

Therapeutic antibody

Matriptase-2 suppresses hepcidin expression by cleaving multiple components of the hepcidin induction pathway

Wahedi, Mastura, Wortham, Aaron M., Kleven, Mark D., Zhao, Ningning, Jue, Shall, Enns, Caroline A., Zhang, An-Sheng

03 November 2017

Systemic iron homeostasis is maintained by regulation of iron absorption in the duodenum, iron recycling from erythrocytes, and iron mobilization from the liver and is controlled by the hepatic hormone hepcidin. Hepcidin expression is induced via the bone morphogenetic protein (BMP) signaling pathway that preferentially uses two type I (ALK2 and ALK3) and two type II (ActRIIA and BMPR2) BMP receptors. Hemojuvelin (HJV), HFE, and transferrin receptor-2 (TfR2) facilitate this process presumably by forming a plasma membrane complex with BMP receptors. Matriptase-2 (MT2) is a protease and key suppressor of hepatic hepcidin expression and cleaves HJV. Previous studies have therefore suggested that MT2 exerts its inhibitory effect by inactivating HJV. Here, we report that MT2 suppresses hepcidin expression independently of HJV. In Hjv(-/-) mice, increased expression of exogenous MT2 in the liver significantly reduced hepcidin expression similarly as observed in wild-type mice. Exogenous MT2 could fully correct abnormally high hepcidin expression and iron deficiency in MT2(-/-) mice. In contrast to MT2, increased Hjv expression caused no significant changes in wild-type mice, suggesting that Hjv is not a limiting factor for hepcidin expression. Further studies revealed that MT2 cleaves ALK2, ALK3, ActRIIA, Bmpr2, Hfe, and, to a lesser extent, Hjv and Tfr2. MT2-mediated Tfr2 cleavage was also observed in HepG2 cells endogenously expressing MT2 and TfR2. Moreover, iron-loaded transferrin blocked MT2-mediated Tfr2 cleavage, providing further insights into the mechanism of Tfr2's regulation by transferrin. Together, these observations indicate that MT2 suppresses hepcidin expression by cleaving multiple components of the hepcidin induction pathway.

bone morphogenetic protein (BMP)

iron

liver

receptor

signaling

HFE

hemojuvelin

hepcidin

matriptase-2

transferrin receptor-2

A Dual Examination of Learning Through Pedagogical Training and Alzheimer's Disease Pathology

Hutchinson, Donielle BreAnna

01 August 2018

Active learning strategies are important for facilitating deep learning that may be carried throughout life, but which is still finding its way into the college setting. Educators are not often trained in effective learning practices, which reduces the cognitive and proficiency gains of their students. By providing such guidance in the formative years of a teacher’s training, we hypothesize that the learning environment will be greatly enriched and enhanced. On the opposite end of the spectrum of life and cognition, the plague of dementia also warrants examination. Alzheimer’s disease (AD), an incurable neurodegenerative disorder progressing from the medial temporal lobe, is the most common form of dementia diagnosed in people over age 65, afflicting 30-40% of those 85 years and older. Despite its prevalence, effective treatments are limited because the principal causes and triggers of AD are not entirely understood. Growing evidence demonstrates that oxidative stress (OS) is an important factor contributing to the initiation and progression of AD. A key player contributing to this OS is iron, an essential trace mineral which is required for proper neuronal function, but which generates reactive oxygen species during redox transitions. Intracellular labile iron pool (LIP) levels are strictly regulated by proteins such as transferrin (import), ferroportin (export), and ferritin (storage). However, when these proteins become dysregulated, excess iron associates with other proteins such as amyloid beta (Aβ) and tau, aggregations of which are hallmarks of AD. In our hypothetical model, under extensive or prolonged OS, as occurs in AD, much larger Aβ plaques form because the stress does not abate. Hyperphosphorylated tau is the last resort to protect the cell against free iron, and aggregates when the LIP is elevated because neither iron storage in ferritin nor iron export through ferroportin can relieve the neurons of the free iron.

active learning

pedagogy

immunohistochemistry

Alzheimer’s disease

iron

oxidative stress

ferritin

ferroportin

transferrin receptor

Social and Behavioral Sciences