Your search keyword '"Dicaire, Marie-Josée"' showing total 62 results

51. Recessive mutations in the kinase ZAK cause a congenital myopathy with fibre type disproportion

Author

Vasli, Nasim, primary, Harris, Elizabeth, additional, Karamchandani, Jason, additional, Bareke, Eric, additional, Majewski, Jacek, additional, Romero, Norma B., additional, Stojkovic, Tanya, additional, Barresi, Rita, additional, Tasfaout, Hichem, additional, Charlton, Richard, additional, Malfatti, Edoardo, additional, Bohm, Johann, additional, Marini-Bettolo, Chiara, additional, Choquet, Karine, additional, Dicaire, Marie-Josée, additional, Shao, Yi-Hong, additional, Topf, Ana, additional, O’Ferrall, Erin, additional, Eymard, Bruno, additional, Straub, Volker, additional, Blanco, Gonzalo, additional, Lochmüller, Hanns, additional, Brais, Bernard, additional, Laporte, Jocelyn, additional, and Tétreault, Martine, additional

Published

2016

52. Mutations in the Mitochondrial Methionyl-tRNA Synthetase Cause a Neurodegenerative Phenotype in Flies and a Recessive Ataxia (ARSAL) in Humans

Author

Bayat, Vafa, primary, Thiffault, Isabelle, additional, Jaiswal, Manish, additional, Tétreault, Martine, additional, Donti, Taraka, additional, Sasarman, Florin, additional, Bernard, Geneviève, additional, Demers-Lamarche, Julie, additional, Dicaire, Marie-Josée, additional, Mathieu, Jean, additional, Vanasse, Michel, additional, Bouchard, Jean-Pierre, additional, Rioux, Marie-France, additional, Lourenco, Charles M., additional, Li, Zhihong, additional, Haueter, Claire, additional, Shoubridge, Eric A., additional, Graham, Brett H., additional, Brais, Bernard, additional, and Bellen, Hugo J., additional

Published

2012

53. Carriers of RecessiveWNK1/HSN2Mutations for Hereditary Sensory and Autonomic Neuropathy Type 2 (HSAN2) Are More Sensitive to Thermal Stimuli

Author

Loggia, Marco L., primary, Bushnell, M. Catherine, additional, Tétreault, Martine, additional, Thiffault, Isabelle, additional, Bhérer, Claude, additional, Mohammed, Nazma K., additional, Kuchinad, Anil A., additional, Laferrière, Audrey, additional, Dicaire, Marie-Josée, additional, Loisel, Lina, additional, Mogil, Jeffrey S., additional, and Brais, Bernard, additional

Published

2009

54. Mutations in senataxin responsible for Quebec cluster of ataxia with neuropathy

Author

Duquette, Antoine, primary, Roddier, Katel, additional, McNabb‐Baltar, Julia, additional, Gosselin, Isabelle, additional, St‐Denis, Anik, additional, Dicaire, Marie‐Josée, additional, Loisel, Lina, additional, Labuda, Damian, additional, Marchand, Luc, additional, Mathieu, Jean, additional, Bouchard, Jean‐Pierre, additional, and Brais, Bernard, additional

Published

2005

55. SPG7 mutations explain a significant proportion of French Canadian spastic ataxia cases

Author

Choquet, Karine, Tétreault, Martine, Yang, Sharon, La Piana, Roberta, Dicaire, Marie- Josée, Vanstone, Megan R, Mathieu, Jean, Bouchard, Jean-Pierre, Rioux, Marie-France, Rouleau, Guy A, Boycott, Kym M, Majewski, Jacek, and Brais, Bernard

Abstract

Hereditary cerebellar ataxias and hereditary spastic paraplegias are clinically and genetically heterogeneous and often overlapping neurological disorders. Mutations in SPG7 cause the autosomal recessive spastic paraplegia type 7 (SPG7), but recent studies indicate that they are also one of the most common causes of recessive cerebellar ataxia. In Quebec, a significant number of patients affected with cerebellar ataxia and spasticity remain without a molecular diagnosis. We performed whole-exome sequencing in three French Canadian (FC) patients affected with spastic ataxia and uncovered compound heterozygous variants in SPG7 in all three. Sanger sequencing of SPG7 exons and exon/intron boundaries was used to screen additional patients. In total, we identified recessive variants in SPG7 in 22 FC patients belonging to 12 families (38.7% of the families screened), including two novel variants. The p.(Ala510Val) variant was the most common in our cohort. Cerebellar features, including ataxia, were more pronounced than spasticity in this cohort. These results strongly suggest that variants affecting the function of SPG7 are the fourth most common form of recessive ataxia in FC patients. Thus, we propose that SPG7 mutations explain a significant proportion of FC spastic ataxia cases and that this gene should be considered in unresolved patients.

Published

2016

56. Carriers of Recessive WNK1/HSN2 Mutations for Hereditary Sensory and Autonomic Neuropathy Type 2 (HSAN2) Are More Sensitive to Thermal Stimuli.

Author

Loggia, Marco L., Bushnell, M. Catherine, Martine Tétreault, Thiffault, Isabelle, Bhérer, Claude, Mohammed, Nazma K., Kuchinad, Anil A., Laferrière, Audrey, Dicaire, Marie-Josée, Loisel, Lina, Mogil, Jeffrey S., and Brais, Bernard

Subjects

NEUROPATHY, DEAFNESS, LYSINE, PAIN, COLD (Temperature), HEAT

Abstract

Hereditary sensory and autonomic neuropathy type 2 (HSAN2) is a rare recessive genetic disorder characterized by severe sensory loss affecting the tactile, thermal and nociceptive modalities. Although heterozygous carriers of nonsense mutations in the HSN2 gene, called with-no-lysine(K)-1 (WNK1), do not develop the disease, historical and experimental evidence suggests that these individuals might perceive somatosensory stimuli differently from others. Using the method-of-limits, we assessed the thresholds for warmth detection, cool detection, heat pain and cold pain in 25 mutation carriers and 35 controls. In group analyses, carriers displayed significantly lower warmth ( p < 0.001) and cool ( p < 0.05) difference thresholds, and also tended to report cold pain at higher temperatures ( p = 0.095), than controls. Similarly, matched-pair analyses showed that carriers are significantly more sensitive to warm stimuli ( p < 0.01) and cold pain stimuli ( p < 0.05), and tend to be more sensitive to cool stimuli ( p = 0.11). Furthermore, the differences between the warmth detection thresholds of the carriers and those of gender- and sex-matched wild types significantly increased with age (r = 0.76, p = 0.02), and in carriers cool detection thresholds did not increase with age (r = 0.27, p = 0.24) as expected and observed in controls (r = 0.34, p = 0.05). This study demonstrates that the carriers of a recessive mutation for HSAN2 display greater sensitivity to innocuous thermal stimuli, as well as for cold pain, suggesting a possible environmental adaptive advantage of the heterozygous state. [ABSTRACT FROM AUTHOR]

Published

2009

57. Somatic instability of the FGF14-SCA27B GAA•TTC repeat reveals a marked expansion bias in the cerebellum.

Author

Pellerin D, Méreaux JL, Boluda S, Danzi MC, Dicaire MJ, Davoine CS, Genis D, Spurdens G, Ashton C, Hammond JM, Gerhart BJ, Chelban V, Le PU, Safisamghabadi M, Yanick C, Lee H, Nageshwaran SK, Matos-Rodrigues G, Jaunmuktane Z, Petrecca K, Akbarian S, Nussenzweig A, Usdin K, Renaud M, Bonnet C, Ravenscroft G, Saporta MA, Napierala JS, Houlden H, Deveson IW, Napierala M, Brice A, Molina Porcel L, Seilhean D, Zuchner S, Durr A, and Brais B

Abstract

Spinocerebellar ataxia 27B (SCA27B) is a common autosomal dominant ataxia caused by an intronic GAA•TTC repeat expansion in FGF14. Neuropathological studies have shown that neuronal loss is largely restricted to the cerebellum. Although the repeat locus is highly unstable during intergenerational transmission, it remains unknown whether it exhibits cerebral mosaicism and progressive instability throughout life. We conducted an analysis of the FGF14 GAA•TTC repeat somatic instability across 156 serial blood samples from 69 individuals, fibroblasts, induced pluripotent stem cells, and post-mortem brain tissues from six controls and six patients with SCA27B, alongside methylation profiling using targeted long-read sequencing. Peripheral tissues exhibited minimal somatic instability, which did not significantly change over periods of more than 20 years. In post-mortem brains, the GAA•TTC repeat was remarkably stable across all regions, except in the cerebellar hemispheres and vermis. The levels of somatic expansion in the cerebellar hemispheres and vermis were, on average, 3.15 and 2.72 times greater relative to other examined brain regions, respectively. Additionally, levels of somatic expansion in the brain increased with repeat length and tissue expression of FGF14. We found no significant difference in methylation of wild-type and expanded FGF14 alleles in post-mortem cerebellar hemispheres between patients and controls. In conclusion, our study revealed that the FGF14 GAA•TTC repeat exhibits a cerebellar-specific expansion bias, which may explain the pure cerebellar involvement in SCA27B., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

58. Neuroradiological findings in GAA- FGF14 ataxia (SCA27B): more than cerebellar atrophy.

Author

Chen S, Ashton C, Sakalla R, Clement G, Planel S, Bonnet C, Lamont P, Kulanthaivelu K, Nalini A, Houlden H, Duquette A, Dicaire MJ, Agudo PI, Martinez JR, de Lucas EM, Berjon RS, Ceberio JI, Indelicato E, Boesch S, Synofzik M, Bender B, Danzi MC, Zuchner S, Pellerin D, Brais B, Renaud M, and La Piana R

Abstract

Background: GAA- FGF14 ataxia (SCA27B) is a recently reported late-onset ataxia caused by a GAA repeat expansion in intron 1 of the FGF14 gene. Initial studies revealed cerebellar atrophy in 74-97% of patients. A more detailed brain imaging characterization of GAA- FGF14 ataxia is now needed to provide supportive diagnostic features and earlier disease recognition., Methods: We performed a retrospective review of the brain MRIs of 35 patients (median age at MRI 63 years; range 28-88 years) from Quebec (n=27), Nancy (n=3), Perth (n=3) and Bengaluru (n=2) to assess the presence of atrophy in vermis, cerebellar hemispheres, brainstem, cerebral hemispheres, and corpus callosum, as well as white matter involvement. Following the identification of the superior cerebellar peduncles (SCPs) involvement, we verified its presence in 54 GAA- FGF14 ataxia patients from four independent cohorts (Tübingen n=29; Donostia n=12; Innsbruck n=7; Cantabria n=6). To assess lobular atrophy, we performed quantitative cerebellar segmentation in 5 affected subjects with available 3D T1-weighted images and matched controls., Results: Cerebellar atrophy was documented in 33 subjects (94.3%). We observed SCP involvement in 22 subjects (62.8%) and confirmed this finding in 30/54 (55.6%) subjects from the validation cohorts. Cerebellar segmentation showed reduced mean volumes of lobules X and IV in the 5 affected individuals., Conclusions: Cerebellar atrophy is a key feature of GAA- FGF14 ataxia. The frequent SCP involvement observed in different cohorts may facilitate the diagnosis. The predominant involvement of lobule X correlates with the frequently observed downbeat nystagmus., Competing Interests: Conflicts of Interests A. Duquette has received consultancy honoraria from AavantiBio, Novartis, Pfizer Canada, PTC Therapeutics, and Reata Pharmaceuticals, all unrelated to the present manuscript. M. Synofzik has received consultancy honoraria from Ionis, UCB, Prevail, Orphazyme, Servier, Reata, GenOrph, AviadoBio, Biohaven, Zevra, Lilly, and Solaxa, all unrelated to the present manuscript. B. Bender is Co-Founder, shareholder and CTO of AIRAmed GmbH. R. La Piana has received speaking honoraria from Novartis unrelated to the present manuscript.

Published

2024

59. The FGF14 GAA repeat expansion in Greek patients with late-onset cerebellar ataxia and an overview of the SCA27B phenotype across populations.

Author

Kartanou C, Mitrousias A, Pellerin D, Kontogeorgiou Z, Iruzubieta P, Dicaire MJ, Danzi MC, Koniari C, Athanassopoulos K, Panas M, Stefanis L, Zuchner S, Brais B, Houlden H, Karadima G, and Koutsis G

Subjects

Humans, Adult, Middle Aged, Aged, Aged, 80 and over, Greece epidemiology, Phenotype, Trinucleotide Repeat Expansion genetics, Cerebellar Ataxia diagnosis, Cerebellar Ataxia genetics, Spinocerebellar Ataxias genetics, Spinocerebellar Degenerations genetics

Abstract

A pathogenic GAA repeat expansion in the first intron of the fibroblast growth factor 14 gene (FGF14) has been recently identified as the cause of spinocerebellar ataxia 27B (SCA27B). We herein screened 160 Greek index cases with late-onset cerebellar ataxia (LOCA) for FGF14 repeat expansions using a combination of long-range PCR and bidirectional repeat-primed PCRs. We identified 19 index cases (12%) carrying a pathogenic FGF14 GAA expansion, a diagnostic yield higher than that of previously screened repeat-expansion ataxias in Greek LOCA patients. The age at onset of SCA27B patients was 60.5 ± 12.3 years (range, 34-80). Episodic onset (37%), downbeat nystagmus (32%) and vertigo (26%) were significantly more frequent in FGF14 expansion-positive cases compared to expansion-negative cases. Beyond typical cerebellar signs, SCA27B patients often displayed hyperreflexia (47%) and reduced vibration sense in the lower extremities (42%). The frequency and phenotypic profile of SCA27B in Greek patients was similar to most other previously studied populations. We conclude that FGF14 GAA repeat expansions are the commonest known genetic cause of LOCA in the Greek population and recommend prioritizing testing for FGF14 expansions in the diagnostic algorithm of patients with LOCA., (© 2024 The Authors. Clinical Genetics published by John Wiley & Sons Ltd.)

Published

2024

60. GAA-FGF14 ataxia (SCA27B): phenotypic profile, natural history progression and 4-aminopyridine treatment response.

Author

Wilke C, Pellerin D, Mengel D, Traschütz A, Danzi MC, Dicaire MJ, Neumann M, Lerche H, Bender B, Houlden H, Züchner S, Schöls L, Brais B, and Synofzik M

Subjects

Humans, Cohort Studies, Cross-Sectional Studies, Disease Progression, Prospective Studies, Cerebellar Ataxia genetics, Spinocerebellar Ataxias

Abstract

Ataxia due to an autosomal dominant intronic GAA repeat expansion in FGF14 [GAA-FGF14 ataxia, spinocerebellar ataxia 27B (SCA27B)] has recently been identified as one of the most common genetic late-onset ataxias. We here aimed to characterize its phenotypic profile, natural history progression, and 4-aminopyridine (4-AP) treatment response. We conducted a multi-modal cohort study of 50 GAA-FGF14 patients, comprising in-depth phenotyping, cross-sectional and longitudinal progression data (up to 7 years), MRI findings, serum neurofilament light (sNfL) levels, neuropathology, and 4-AP treatment response data, including a series of n-of-1 treatment studies. GAA-FGF14 ataxia consistently presented as late-onset [60.0 years (53.5-68.5), median (interquartile range)] pancerebellar syndrome, partly combined with afferent sensory deficits (55%) and dysautonomia (28%). Dysautonomia increased with duration while cognitive impairment remained infrequent, even in advanced stages. Cross-sectional and longitudinal assessments consistently indicated mild progression of ataxia [0.29 Scale for the Assessment and Rating of Ataxia (SARA) points/year], not exceeding a moderate disease severity even in advanced stages (maximum SARA score: 18 points). Functional impairment increased relatively slowly (unilateral mobility aids after 8 years in 50% of patients). Corresponding to slow progression and low extra-cerebellar involvement, sNfL was not increased relative to controls. Concurrent second diseases (including progressive supranuclear palsy neuropathology) represented major individual aggravators of disease severity, constituting important caveats for planning future GAA-FGF14 trials. A treatment response to 4-AP with relevance for everyday living was reported by 86% of treated patients. A series of three prospective n-of-1 treatment experiences with on/off design showed marked reduction in daily symptomatic time and symptom severity on 4-AP. Our study characterizes the phenotypic profile, natural history progression, and 4-AP treatment response of GAA-FGF14 ataxia. It paves the way towards large-scale natural history studies and 4-AP treatment trials in this newly discovered, possibly most frequent, and treatable late-onset ataxia., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

61. Intronic FGF14 GAA repeat expansions are a common cause of downbeat nystagmus syndromes: frequency, phenotypic profile, and 4-aminopyridine treatment response.

Author

Pellerin D, Heindl F, Wilke C, Danzi MC, Traschütz A, Ashton C, Dicaire MJ, Cuillerier A, Del Gobbo G, Boycott KM, Claassen J, Rujescu D, Hartmann AM, Zuchner S, Brais B, Strupp M, and Synofzik M

Abstract

The cause of downbeat nystagmus (DBN) remains unknown in approximately 30% of patients (idiopathic DBN). Here, we hypothesized that: (i) FGF14 (GAA) ≥250 repeat expansions represent a frequent genetic cause of idiopathic DBN syndromes, (ii) are treatable with 4-aminopyridine (4-AP), and (iii) FGF14 (GAA) 200-249 alleles are potentially pathogenic. We conducted a multi-modal cohort study of 170 patients with idiopathic DBN that comprised: in-depth ocular motor, neurological, and disease evolution phenotyping; assessment of 4-AP treatment response, including re-analysis of placebo-controlled video-oculography treatment response data from a previous randomized double-blind 4-AP trial; and genotyping of the FGF14 repeat. Frequency of FGF14 (GAA) ≥250 expansions was 48% (82/170) in the entire idiopathic DBN cohort. Additional cerebellar ocular motor signs were observed in 100% (82/82), cerebellar ataxia in 43% (35/82), and extracerebellar features in 21% (17/82) of (GAA) ≥250 - FGF14 patients. Alleles of 200 to 249 GAA repeats were enriched in patients with DBN (12%; 20/170) compared to controls (0.87%; 19/2,191; OR, 15.20; 95% CI, 7.52-30.80; p =9.876e-14). The phenotype of (GAA) 200-249 - FGF14 patients closely mirrored that of (GAA) ≥250 - FGF14 patients. (GAA) ≥250 - FGF14 and (GAA) 200-249 - FGF14 patients had a significantly greater clinician-reported (80% vs 31%; p =0.0011) and self-reported (59% vs 11%; p =0.0003) response rate to 4-AP treatment compared to (GAA) <200 - FGF14 patients. This included a treatment response with high relevance to everyday living, as exemplified by an improvement of 2 FARS stages in some cases. Placebo-controlled video-oculography data of four (GAA) ≥250 - FGF14 patients previously enrolled in a 4-AP randomized double-blind trial showed a significant decrease in slow phase velocity of DBN with 4-AP, but not placebo. This study shows that FGF14 GAA repeat expansions are a highly frequent genetic cause of DBN syndromes, especially when associated with additional cerebellar features. Moreover, they genetically stratify a subgroup of patients with DBN that appear to be highly responsive to 4-AP, thus paving the way for a "theranostics" approach in DBN syndromes.

Published

2023

62. A common flanking variant is associated with enhanced meiotic stability of the FGF14 -SCA27B locus.

Author

Pellerin D, Gobbo GD, Couse M, Dolzhenko E, Dicaire MJ, Rebelo A, Roth V, Wandzel M, Bonnet C, Ashton C, Lamont PJ, Laing NG, Renaud M, Ravenscroft G, Houlden H, Synofzik M, Eberle MA, Boycott KM, Pastinen T, Brais B, Zuchner S, and Danzi MC

Abstract

The factors driving initiation of pathological expansion of tandem repeats remain largely unknown. Here, we assessed the FGF14 -SCA27B (GAA)•(TTC) repeat locus in 2,530 individuals by long-read and Sanger sequencing and identified a 5'-flanking 17-bp deletion-insertion in 70.34% of alleles (3,463/4,923). This common sequence variation was present nearly exclusively on alleles with fewer than 30 GAA-pure repeats and was associated with enhanced meiotic stability of the repeat locus.

Published

2023