PIAS2-mediated blockade of IFN-β signaling: a basis for sporadic Parkinson disease dementia

Joana Magalhaes, Emilie Tresse, Patrick Ejlerskov, Erling Hu, Yawei Liu, Andrea Marin, Alexia Montalant, Letizia Satriano, Carsten Friis Rundsten, Eva Maria Meier Carlsen, Rasmus Rydbirk, Ali Sharifi-Zarchi, Jesper Bøje Andersen, Susana Aznar, Tomasz Brudek, Konstantin Khodosevich, Marco Prinz, Jean François Marie Perrier, Manu Sharma, Thomas GasserShohreh Issazadeh-Navikas

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Abstract

Familial Parkinson disease (PD) is associated with rare genetic mutations, but the etiology in most patients with sporadic (s)PD is largely unknown, and the basis for its progression to dementia (sPDD) is poorly characterized. We have identified that loss of IFNβ or IFNAR1, the receptor for IFNα/β, causes pathological and behavioral changes resembling PDD, prompting us to hypothesize that dysregulated genes in IFNβ-IFNAR signaling pathway predispose one to sPD. By transcriptomic analysis, we found defective neuronal IFNβ-IFNAR signaling, including particularly elevated PIAS2 associated with sPDD. With meta-analysis of GWASs, we identified sequence variants in IFNβ-IFNAR-related genes in sPD patients. Furthermore, sPDD patients expressed higher levels of PIAS2 mRNA and protein in neurons. To determine its function in brain, we overexpressed PIAS2 under a neuronal promoter, alone or with human α-synuclein, in the brains of mice, which caused motor and cognitive impairments and correlated with intraneuronal phosphorylated (p)α-synuclein accumulation and dopaminergic neuron loss. Ectopic expression of neuronal PIAS2 blocked mitophagy, increased the accumulation of senescent mitochondrial and oxidative stress, as evidenced by excessive oxDJ1 and 8OHdG, by inactivating ERK1/2-P53 signaling. Conversely, PIAS2 knockdown rescued the clinicopathological manifestations of PDD in Ifnb–/– mice on restoring mitochondrial homeostasis, oxidative stress, and pERK1/2-pP53 signaling. The regulation of JAK-STAT2-PIAS2 signaling was crucial for neurite outgrowth and neuronal survival and excitability and thus might prevent cognitive impairments. Our findings provide insights into the progression of sPD and dementia and have implications for new therapeutic approaches.
OriginalsprogEngelsk
TidsskriftMolecular Psychiatry
Vol/bind26
Sider (fra-til)6083–6099
Antal sider17
ISSN1359-4184
DOI
StatusUdgivet - 2021

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