4.7 Article

Gender biased neuroprotective effect of Transferrin Receptor 2 deletion in multiple models of Parkinson's disease

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CELL DEATH AND DIFFERENTIATION
卷 28, 期 5, 页码 1720-1732

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DOI: 10.1038/s41418-020-00698-4

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  1. Target Advancement grant from the Michael J. Fox Foundation for Parkinson's Research

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Alterations in iron metabolism and accumulation are associated with the pathogenesis of Parkinson's disease. Targeting TfR2 pathway can be a potential therapeutic strategy to inhibit iron overload and PD progression, with neuroprotective effects showing sexual dimorphism.
Alterations in the metabolism of iron and its accumulation in the substantia nigra pars compacta accompany the pathogenesis of Parkinson's disease (PD). Changes in iron homeostasis also occur during aging, which constitutes a PD major risk factor. As such, mitigation of iron overload via chelation strategies has been considered a plausible disease modifying approach. Iron chelation, however, is imperfect because of general undesired side effects and lack of specificity; more effective approaches would rely on targeting distinctive pathways responsible for iron overload in brain regions relevant to PD and, in particular, the substantia nigra. We have previously demonstrated that the Transferrin/Transferrin Receptor 2 (TfR2) iron import mechanism functions in nigral dopaminergic neurons, is perturbed in PD models and patients, and therefore constitutes a potential therapeutic target to halt iron accumulation. To validate this hypothesis, we generated mice with targeted deletion of TfR2 in dopaminergic neurons. In these animals, we modeled PD with multiple approaches, based either on neurotoxin exposure or alpha-synuclein proteotoxic mechanisms. We found that TfR2 deletion can provide neuroprotection against dopaminergic degeneration, and against PD- and aging-related iron overload. The effects, however, were significantly more pronounced in females rather than in males. Our data indicate that the TfR2 iron import pathway represents an amenable strategy to hamper PD progression. Data also suggest, however, that therapeutic strategies targeting TfR2 should consider a potential sexual dimorphism in neuroprotective response.

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