A postzygotic de novo NCDN mutation identified in a sporadic FTLD patient results in neurochondrin haploinsufficiency and altered FUS granule dynamics

Author:

Nicolas GaëlORCID,Sévigny Myriam,Lecoquierre François,Marguet Florent,Deschênes Andréanne,del Pelaez Maria Carment,Feuillette Sébastien,Audebrand Anaïs,Lecourtois Magalie,Rousseau Stéphane,Richard Anne-Claire,Cassinari Kévin,Deramecourt Vincent,Duyckaerts Charles,Boland Anne,Deleuze Jean-François,Meyer Vincent,Clarimon Echavarria Jordi,Gelpi Ellen,Akiyama Haruhiko,Hasegawa Masato,Kawakami Ito,Wong Tsz H.,Van Rooij Jeroen G. J.,Van Swieten John C.,Campion Dominique,Dutchak Paul A.,Wallon David,Lavoie-Cardinal Flavie,Laquerrière Annie,Rovelet-Lecrux AnneORCID,Sephton Chantelle F.ORCID

Abstract

AbstractFrontotemporal dementia (FTD) is a heterogeneous clinical disorder characterized by progressive abnormalities in behavior, executive functions, personality, language and/or motricity. A neuropathological subtype of FTD, frontotemporal lobar degeneration (FTLD)-FET, is characterized by protein aggregates consisting of the RNA-binding protein fused in sarcoma (FUS). The cause of FTLD-FET is not well understood and there is a lack of genetic evidence to aid in the investigation of mechanisms of the disease. The goal of this study was to identify genetic variants contributing to FTLD-FET and to investigate their effects on FUS pathology. We performed whole-exome sequencing on a 50-year-old FTLD patient with ubiquitin and FUS-positive neuronal inclusions and unaffected parents, and identified a de novo postzygotic nonsense variant in the NCDN gene encoding Neurochondrin (NCDN), NM_014284.3:c.1206G > A, p.(Trp402*). The variant was associated with a ~ 31% reduction in full-length protein levels in the patient’s brain, suggesting that this mutation leads to NCDN haploinsufficiency. We examined the effects of NCDN haploinsufficiency on FUS and found that depleting primary cortical neurons of NCDN causes a reduction in the total number of FUS-positive cytoplasmic granules. Moreover, we found that these granules were significantly larger and more highly enriched with FUS. We then examined the effects of a loss of FUS function on NCDN in neurons and found that depleting cells of FUS leads to a decrease in NCDN protein and mRNA levels. Our study identifies the NCDN protein as a likely contributor of FTLD-FET pathophysiology. Moreover, we provide evidence for a negative feedback loop of toxicity between NCDN and FUS, where loss of NCDN alters FUS cytoplasmic dynamics, which in turn has an impact on NCDN expression.

Funder

Fonds de Recherche du Québec - Santé

Alzheimer's Association

Alzheimer Society

Natural Sciences and Engineering Research Council of Canada

Fondation Brain Canada

CNRMAJ

Publisher

Springer Science and Business Media LLC

Subject

Cellular and Molecular Neuroscience,Neurology (clinical),Pathology and Forensic Medicine

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