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

Maccarinelli, Federica; Pagani, Antonella; Cozzi, Anna; Codazzi, Franca; Giacomo, Giuseppina Di; Capoccia, Sara; Rapino, Stefania; Finazzi, Dario; Politi, Letterio S.; Cirulli, Francesca; Cremona, Ottavio; Grohovaz, Fabio; Levi, Sonia

doi:10.1016/j.nbd.2014.10.023

Cited by 38 publications

(43 citation statements)

References 47 publications

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“…Neuroferritinopathy is a rare condition of brain iron deposition and low serum ferritin concentration caused by eight different dominant-negative frameshift mutations in the C-terminus of FTL, which are similar to the FTL c.520delC observed here ( Figure S2) (21). Laboratory experiments demonstrated functional importance of c.498_499dup mutation in vitro and recapitulation of the phenotype in transgenic mice carrying the same c.498_499dup mutation in vivo (22). Neuroferritinopathy is a late-onset condition often presenting in the fourth decade; this patient with a c.520delC mutation is halfway through his sixth decade of life without apparent disability.…”

Section: Discussionsupporting

confidence: 72%

Clinical evaluation of a hemochromatosis next‐generation sequencing gene panel

Lanktree

Sadiković

Waye

et al. 2016

European J of Haematology

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Section: Discussionsupporting

confidence: 72%

Clinical evaluation of a hemochromatosis next‐generation sequencing gene panel

Lanktree

Sadiković

Waye

et al. 2016

European J of Haematology

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“…In fact, iron deficiency, dietary or otherwise, has been linked to a number of neurological and psychiatric conditions including restless leg syndrome and attention deficit hyperactivity disorder (6, 22, 23, 47–53). An investigation into the effects of iron deficiency and iron deficiency anemia in young Zanzibari children demonstrated lower motor activity scores and less time in locomotion in affected children (54).…”

Section: Discussion and Summarymentioning

confidence: 99%

Loss of NCB5OR in the cerebellum disturbs iron pathways, potentiates behavioral abnormalities, and exacerbates harmaline-induced tremor in mice

et al. 2016

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Iron dyshomeostasis has been implicated in many diseases, including a number of neurological conditions. Cytosolic NADH cytochrome b5 oxidoreductase (NCB5OR) is ubiquitously expressed in animal tissues and is capable of reducing ferric iron in vitro. We previously reported that global gene ablation of NCB5OR resulted in early-onset diabetes and altered iron homeostasis in mice. To further investigate the specific effects of NCB5OR deficiency on neural tissue without contributions from known phenotypes, we generated a conditional knockout (CKO) mouse that lacks NCB5OR only in the cerebellum and midbrain. Assessment of molecular markers in the cerebellum of CKO mice revealed changes in pathways associated with cellular and mitochondrial iron homeostasis. 59Fe pulse-feeding experiments revealed cerebellum-specific increased or decreased uptake of iron by 7 weeks and 16 weeks of age, respectively. Additionally, we characterized behavioral changes associated with loss of NCB5OR in the cerebellum and midbrain in the context of dietary iron deprivation-evoked generalized iron deficiency. Locomotor activity was reduced and complex motor task execution was altered in CKO mice treated with an iron deficient diet. A sucrose preference test revealed that the reward response was intact in CKO mice, but that iron deficient diet consumption altered sucrose preference in all mice. Detailed gait analysis revealed locomotor changes in CKO mice associated with dysfunctional proprioception and locomotor activation independent of dietary iron deficiency. Finally, we demonstrate that loss of NCB5OR in the cerebellum and midbrain exacerbated harmaline-induced tremor activity. Our findings suggest an essential role for NCB5OR in maintaining both iron homeostasis and the proper functioning of various locomotor pathways in the mouse cerebellum and midbrain.

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“…The overexpression of mutated FTL1 in cell models yields an increase of ferritin chains and a decrease of transferrin receptor 1 (TfR1) expression together with a production of ROS after treatment with H 2 O 2 , suggesting that the pathomechanism is likely due to deregulation of cellular iron homeostasis and oxidative damage, which would be primary cause of cell death [74,75]. Transgenic mice models, expressing mutated Ftl1 show iron deposition and oxidative stress in brain, and a neurological deterioration with reduced lifespan and motor dysfunction [76][77][78].…”

Section: Neurodegenerative Disorders With Brain Iron Accumulationmentioning

confidence: 99%

Oxidative Stress, a Crossroad Between Rare Diseases and Neurodegeneration

et al. 2020

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Oxidative stress is an imbalance between production and accumulation of oxygen reactive species and/or reactive nitrogen species in cells and tissues, and the capacity of detoxifying these products, using enzymatic and non-enzymatic components, such as glutathione. Oxidative stress plays roles in several pathological processes in the nervous system, such as neurotoxicity, neuroinflammation, ischemic stroke, and neurodegeneration. The concepts of oxidative stress and rare diseases were formulated in the eighties, and since then, the link between them has not stopped growing. The present review aims to expand knowledge in the pathological processes associated with oxidative stress underlying some groups of rare diseases: Friedreich's ataxia, diseases with neurodegeneration with brain iron accumulation, Charcot-Marie-Tooth as an example of rare neuromuscular disorders, inherited retinal dystrophies, progressive myoclonus epilepsies, and pediatric drug-resistant epilepsies. Despite the discrimination between cause and effect may not be easy on many occasions, all these conditions are Mendelian rare diseases that share oxidative stress as a common factor, and this may represent a potential target for therapies.

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

Cited by 38 publications

References 47 publications

Clinical evaluation of a hemochromatosis next‐generation sequencing gene panel

Clinical evaluation of a hemochromatosis next‐generation sequencing gene panel

Loss of NCB5OR in the cerebellum disturbs iron pathways, potentiates behavioral abnormalities, and exacerbates harmaline-induced tremor in mice

Oxidative Stress, a Crossroad Between Rare Diseases and Neurodegeneration

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