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GR.2 A deep intronic FGF14 GAA repeat expansion causes late-onset cerebellar ataxia

Published online by Cambridge University Press:  05 June 2023

D Pellerin
Affiliation:
(London)*
MC Danzi
Affiliation:
(Miami)
C Wilke
Affiliation:
(Tübingen)
M Renaud
Affiliation:
(Nancy)
S Fazal
Affiliation:
(Miami)
M Dicaire
Affiliation:
(Montreal)
CK Scriba
Affiliation:
(Perth)
C Ashton
Affiliation:
(Montreal)
C Yanick
Affiliation:
(Miami)
D Beijer
Affiliation:
(Miami)
A Rebelo
Affiliation:
(Miami)
C Rocca
Affiliation:
(London)
Z Jaunmuktane
Affiliation:
(London)
JA Sonnen
Affiliation:
(Montreal)
R Larivière
Affiliation:
(Montreal)
D Genis
Affiliation:
(Girona)
L Porcel
Affiliation:
(Barcelona)
K Choquet
Affiliation:
(Boston)
R Sakalla
Affiliation:
(Montreal)
S Provost
Affiliation:
(Montreal)
M Tétreault
Affiliation:
(Montreal)
SJ Reiling
Affiliation:
(Montreal)
S Nagy
Affiliation:
(London)
V Nishadham
Affiliation:
(Bengaluru)
M Purushottam
Affiliation:
(Bengaluru)
S Vengalil
Affiliation:
(Bengaluru)
M Bardhan
Affiliation:
(Bengaluru)
A Nalini
Affiliation:
(Bengaluru)
Z Chen
Affiliation:
(London)
J Mathieu
Affiliation:
(Sherbrooke)
R Massie
Affiliation:
(Montreal)
CH Chalk
Affiliation:
(Montreal)
A Lafontaine
Affiliation:
(Montreal)
F Evoy
Affiliation:
(Sherbrooke)
M Rioux
Affiliation:
(Sherbrooke)
J Ragoussis
Affiliation:
(Montreal)
KM Boycott
Affiliation:
(Ottawa)
M Dubé
Affiliation:
(Montreal)
A Duquette
Affiliation:
(Montreal)
H Houlden
Affiliation:
(London)
G Ravenscroft
Affiliation:
(Perth)
NG Laing
Affiliation:
(Perth)
P Lamont
Affiliation:
(Perth)
MA Saporta
Affiliation:
(Miami)
R Schüle
Affiliation:
(Tübingen)
L Schöls
Affiliation:
(Tübingen)
R La Piana
Affiliation:
(Montreal)
M Synofzik
Affiliation:
(Tübingen)
S Zuchner
Affiliation:
(Miami)
B Brais
Affiliation:
(Montreal)
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Abstract

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Background: The late-onset cerebellar ataxias (LOCAs) have until recently resisted molecular diagnosis. Contributing to this diagnostic gap is that non-coding structural variations, such as repeat expansions, are not fully accessible to standard short-read sequencing analysis. Methods: We combined bioinformatics analysis of whole-genome sequencing and long-read sequencing to search for repeat expansions in patients with LOCA. We enrolled 66 French-Canadian, 228 German, 20 Australian and 31 Indian patients. Pathogenic mechanisms were studied in post-mortem cerebellum and induced pluripotent stem cell (iPSC)-derived motor neurons from 2 patients. Results: We identified 128 patients who carried an autosomal dominant GAA repeat expansion in the first intron of the FGF14 gene. The expansion was present in 61%, 18%, 15% and 10% of patients in the French-Canadian, German, Australian and Indian cohorts, respectively. The pathogenic threshold was determined to be (GAA)≥250, although incomplete penetrance was observed in the (GAA)250-300 range. Patients developed a slowly progressive cerebellar syndrome at an average age of 59 years. Patient-derived post-mortem cerebellum and induced motor neurons both showed reduction in FGF14 RNA and protein expression compared to controls. Conclusions: This intronic, dominantly inherited GAA repeat expansion in FGF14 represents one of the most common genetic causes of LOCA uncovered to date.

Type
Abstracts
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of Canadian Neurological Sciences Federation