ALS/FTD-causing mutation in cyclin F causes the dysregulation of SFPQ

Author:

Rayner Stephanie L1,Cheng Flora1,Hogan Alison L1,Grima Natalie1,Yang Shu1,Ke Yazi D2,Au Carol G2,Morsch Marco1,De Luca Alana1,Davidson Jennilee M1,Molloy Mark P3,Shi Bingyang1,Ittner Lars M2,Blair Ian1,Chung Roger S1,Lee Albert1

Affiliation:

1. Faculty of Medicine and Health Sciences, Department of Biomedical Sciences, Centre for Motor Neuron Disease Research, Macquarie University, 2 Technology Place, North Ryde, NSW 2109, Australia

2. Faculty of Medicine and Health Sciences, Department of Biomedical Sciences, Dementia Research Centre, Macquarie University, 2 Technology Place, North Ryde, NSW 2109, Australia

3. Faculty of Medicine and Health, Sydney School of Medicine, Royal North Shore Hospital, Pacific Hwy, St Leonards, Sydney, NSW 2065, Australia

Abstract

Abstract Previously, we identified missense mutations in CCNF that are causative of familial and sporadic amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). Hallmark features of these diseases include the build-up of insoluble protein aggregates as well as the mislocalization of proteins such as transactive response DNA binding protein 43 kDa (TDP-43). In recent years, the dysregulation of SFPQ (splicing factor proline and glutamine rich) has also emerged as a pathological hallmark of ALS/FTD. CCNF encodes for the protein cyclin F, a substrate recognition component of an E3 ubiquitin ligase. We have previously shown that ALS/FTD-linked mutations in CCNF cause disruptions to overall protein homeostasis that leads to a build-up of K48-linked ubiquitylated proteins as well as defects in autophagic machinery. To investigate further processes that may be affected by cyclin F, we used a protein-proximity ligation method, known as Biotin Identification (BioID), standard immunoprecipitations and mass spectrometry to identify novel interaction partners of cyclin F and infer further process that may be affected by the ALS/FTD-causing mutation. Results demonstrate that cyclin F closely associates with proteins involved with RNA metabolism as well as a number of RNA-binding proteins previously linked to ALS/FTD, including SFPQ. Notably, the overexpression of cyclin F(S621G) led to the aggregation and altered subcellular distribution of SFPQ in human embryonic kidney (HEK293) cells, while leading to altered degradation in primary neurons. Overall, our data links ALS/FTD-causing mutations in CCNF to converging pathological features of ALS/FTD and provides a link between defective protein degradation systems and the pathological accumulation of a protein involved in RNA processing and metabolism.

Funder

the Motor Neurone Disease Research Institute of Australia

National Health & Medical Research Council

Publisher

Oxford University Press (OUP)

Subject

Genetics (clinical),Genetics,Molecular Biology,General Medicine

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