A novel neuroferritinopathy mouse model (FTL 498InsTC) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficits

A novel neuroferritinopathy mouse model (FTL 498InsTC) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficits

Neuroferritinopathy is a rare genetic disease with a dominant autosomal transmission caused by mutations of the ferritin light chain gene (FTL). It belongs to Neurodegeneration with Brain Iron Accumulation, a group of disorders where iron dysregulation is tightly associated with neurodegeneration. W...

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Main Authors: Federica Maccarinelli, Antonella Pagani, Anna Cozzi, Franca Codazzi, Giuseppina Di Giacomo, Sara Capoccia, Stefania Rapino, Dario Finazzi, Letterio Salvatore Politi, Francesca Cirulli, Marco Giorgio, Ottavio Cremona, Fabio Grohovaz, Sonia Levi
Format: Article
Language:English
Published: Elsevier 2015-09-01
Series:Neurobiology of Disease
Subjects:
Neuroferritinopathy
Neurodegenerative disorder
Ferritin
Iron
Oxidative damage
Online Access:http://www.sciencedirect.com/science/article/pii/S0969996114003362
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language English
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author Federica Maccarinelli
Antonella Pagani
Anna Cozzi
Franca Codazzi
Giuseppina Di Giacomo
Sara Capoccia
Stefania Rapino
Dario Finazzi
Letterio Salvatore Politi
Francesca Cirulli
Marco Giorgio
Ottavio Cremona
Fabio Grohovaz
Sonia Levi
spellingShingle Federica Maccarinelli
Antonella Pagani
Anna Cozzi
Franca Codazzi
Giuseppina Di Giacomo
Sara Capoccia
Stefania Rapino
Dario Finazzi
Letterio Salvatore Politi
Francesca Cirulli
Marco Giorgio
Ottavio Cremona
Fabio Grohovaz
Sonia Levi
A novel neuroferritinopathy mouse model (FTL 498InsTC) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficits
Neurobiology of Disease
Neuroferritinopathy
Neurodegenerative disorder
Ferritin
Iron
Oxidative damage
author_facet Federica Maccarinelli
Antonella Pagani
Anna Cozzi
Franca Codazzi
Giuseppina Di Giacomo
Sara Capoccia
Stefania Rapino
Dario Finazzi
Letterio Salvatore Politi
Francesca Cirulli
Marco Giorgio
Ottavio Cremona
Fabio Grohovaz
Sonia Levi
author_sort Federica Maccarinelli
title A novel neuroferritinopathy mouse model (FTL 498InsTC) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficits
title_short A novel neuroferritinopathy mouse model (FTL 498InsTC) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficits
title_full A novel neuroferritinopathy mouse model (FTL 498InsTC) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficits
title_fullStr A novel neuroferritinopathy mouse model (FTL 498InsTC) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficits
title_full_unstemmed A novel neuroferritinopathy mouse model (FTL 498InsTC) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficits
title_sort novel neuroferritinopathy mouse model (ftl 498instc) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficits
publisher Elsevier
series Neurobiology of Disease
issn 1095-953X
publishDate 2015-09-01
description Neuroferritinopathy is a rare genetic disease with a dominant autosomal transmission caused by mutations of the ferritin light chain gene (FTL). It belongs to Neurodegeneration with Brain Iron Accumulation, a group of disorders where iron dysregulation is tightly associated with neurodegeneration. We studied the 498–499InsTC mutation which causes the substitution of the last 9 amino acids and an elongation of extra 16 amino acids at the C-terminus of L-ferritin peptide. An analysis with cyclic voltammetry on the purified protein showed that this structural modification severely reduces the ability of the protein to store iron. In order to analyze the impact of the mutation in vivo, we generated mouse models for the some pathogenic human FTL gene in FVB and C57BL/6J strains.Transgenic mice in the FVB background showed high accumulation of the mutated ferritin in brain where it correlated with increased iron deposition with age, as scored by magnetic resonance imaging. Notably, the accumulation of iron–ferritin bodies was accompanied by signs of oxidative damage. In the C57BL/6 background, both the expression of the mutant ferritin and the iron levels were lower than in the FVB strain. Nevertheless, also these mice showed oxidative alterations in the brain. Furthermore, post-natal hippocampal neurons obtained from these mice experienced a marked increased cell death in response to chronic iron overload and/or acute oxidative stress, in comparison to wild-type neurons. Ultrastructural analyses revealed an accumulation of lipofuscin granules associated with iron deposits, particularly enriched in the cerebellum and striatum of our transgenic mice. Finally, experimental subjects were tested throughout development and aging at 2-, 8- and 18-months for behavioral phenotype. Rotarod test revealed a progressive impaired motor coordination building up with age, FTL mutant old mice showing a shorter latency to fall from the apparatus, according to higher accumulation of iron aggregates in the striatum. Our data show that our 498–499InsTC mouse models recapitulate early pathological and clinical traits of the human neuroferritinopathy, thus providing a valuable model for the study of the disease. Finally, we propose a mechanistic model of lipofuscine formation that can account for the etiopathogenesis of human neuroferritinopathy.
topic Neuroferritinopathy
Neurodegenerative disorder
Ferritin
Iron
Oxidative damage
url http://www.sciencedirect.com/science/article/pii/S0969996114003362
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spelling doaj-ab480e02c5734d1caa9262644f163cea2021-03-22T12:42:08ZengElsevierNeurobiology of Disease1095-953X2015-09-0181119133A novel neuroferritinopathy mouse model (FTL 498InsTC) shows progressive brain iron dysregulation, morphological signs of early neurodegeneration and motor coordination deficitsFederica Maccarinelli0Antonella Pagani1Anna Cozzi2Franca Codazzi3Giuseppina Di Giacomo4Sara Capoccia5Stefania Rapino6Dario Finazzi7Letterio Salvatore Politi8Francesca Cirulli9Marco Giorgio10Ottavio Cremona11Fabio Grohovaz12Sonia Levi13Department of Molecular and Translational Medicine, University of Brescia, ItalySan Raffaele Scientific Institute, Via Olgettina 60, 20132 Milano, ItalySan Raffaele Scientific Institute, Via Olgettina 60, 20132 Milano, Italy; Vita-Salute San Raffaele University, Via Olgettina 58, 20132 Milano, ItalySan Raffaele Scientific Institute, Via Olgettina 60, 20132 Milano, ItalyVita-Salute San Raffaele University, Via Olgettina 58, 20132 Milano, ItalySection of Behavioral Neuroscience, Department of Cell Biology, Istituto Superiore di Sanità, Rome, ItalyDepartment of Experimental Oncology, European Institute of Oncology, Via Adamello 16, 20139 Milan, ItalyDepartment of Molecular and Translational Medicine, University of Brescia, ItalySan Raffaele Scientific Institute, Via Olgettina 60, 20132 Milano, ItalySection of Behavioral Neuroscience, Department of Cell Biology, Istituto Superiore di Sanità, Rome, ItalyDepartment of Experimental Oncology, European Institute of Oncology, Via Adamello 16, 20139 Milan, ItalySan Raffaele Scientific Institute, Via Olgettina 60, 20132 Milano, Italy; Vita-Salute San Raffaele University, Via Olgettina 58, 20132 Milano, ItalySan Raffaele Scientific Institute, Via Olgettina 60, 20132 Milano, Italy; Vita-Salute San Raffaele University, Via Olgettina 58, 20132 Milano, Italy; Corresponding authors at: Vita-Salute San Raffaele University, and San Raffaele Scientific Institute, Via Olgettina 58, 20132 Milano, Italy. Fax: +39 02 26434844.San Raffaele Scientific Institute, Via Olgettina 60, 20132 Milano, Italy; Vita-Salute San Raffaele University, Via Olgettina 58, 20132 Milano, Italy; Corresponding authors at: Vita-Salute San Raffaele University, and San Raffaele Scientific Institute, Via Olgettina 58, 20132 Milano, Italy. Fax: +39 02 26434844.Neuroferritinopathy is a rare genetic disease with a dominant autosomal transmission caused by mutations of the ferritin light chain gene (FTL). It belongs to Neurodegeneration with Brain Iron Accumulation, a group of disorders where iron dysregulation is tightly associated with neurodegeneration. We studied the 498–499InsTC mutation which causes the substitution of the last 9 amino acids and an elongation of extra 16 amino acids at the C-terminus of L-ferritin peptide. An analysis with cyclic voltammetry on the purified protein showed that this structural modification severely reduces the ability of the protein to store iron. In order to analyze the impact of the mutation in vivo, we generated mouse models for the some pathogenic human FTL gene in FVB and C57BL/6J strains.Transgenic mice in the FVB background showed high accumulation of the mutated ferritin in brain where it correlated with increased iron deposition with age, as scored by magnetic resonance imaging. Notably, the accumulation of iron–ferritin bodies was accompanied by signs of oxidative damage. In the C57BL/6 background, both the expression of the mutant ferritin and the iron levels were lower than in the FVB strain. Nevertheless, also these mice showed oxidative alterations in the brain. Furthermore, post-natal hippocampal neurons obtained from these mice experienced a marked increased cell death in response to chronic iron overload and/or acute oxidative stress, in comparison to wild-type neurons. Ultrastructural analyses revealed an accumulation of lipofuscin granules associated with iron deposits, particularly enriched in the cerebellum and striatum of our transgenic mice. Finally, experimental subjects were tested throughout development and aging at 2-, 8- and 18-months for behavioral phenotype. Rotarod test revealed a progressive impaired motor coordination building up with age, FTL mutant old mice showing a shorter latency to fall from the apparatus, according to higher accumulation of iron aggregates in the striatum. Our data show that our 498–499InsTC mouse models recapitulate early pathological and clinical traits of the human neuroferritinopathy, thus providing a valuable model for the study of the disease. Finally, we propose a mechanistic model of lipofuscine formation that can account for the etiopathogenesis of human neuroferritinopathy.http://www.sciencedirect.com/science/article/pii/S0969996114003362NeuroferritinopathyNeurodegenerative disorderFerritinIronOxidative damage

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