Locus SCA6 CACNA1A
Disease ID
SCA6
Gene ID
CACNA1A
Updated
Jun 15, 2026
v2.22.0
v2.22.0
Other gene loci
–
Clinical Links
Bioinformatical Links
Disease
Name Spinocerebellar ataxia type 6
Inheritance
Description Spinocerebellar ataxia type 6 (SCA6) is the most common subtype of autosomal dominant cerebellar ataxia type III (ADCA type III) characterized by late-onset and slowly progressive gait ataxia and other cerebellar signs such as impaired muscle coordination and nystagmus1 . Ao et al. have proposed that this expansion may have effects on chronotype, differing by sex and menopausal status, as well as depression severity2 .
Prevalence
2.65 100,000
HPO Terms
–
Association
Mendelian
Locus
Details The intermediate range (19-20 motifs)6,3 can be associated with a premutation, reduced penetrance, atypical phenotype, or a disease state when homozygous3 . When the longer allele is > 22 motifs, the short allele does not play a role in pathogenicity/age of onset, but expansions of 21-22 motifs have age of onset influenced by the smaller allele6 . For individuals with a longest allele of 19-20, the presence of a second allele of 19-20 likely increases the risk of developing SCA66 . Undiagnosed carriers of pathogenic range repeats in CACNA1A exhibit significant cerebellar volume loss and elevated NEFL levels before clinical diagnosis, also seen in other loci7 .
Mechanism Polyglutamine expansions associated with increased expression of altered product leading to impaired gene binding and transcription factor function as well as cellular toxicity3 .
GoF/LoF
Detection
Expansions have been detected by PCR fragment analysis [@pmid:35573049].
Alleles
Ref. Motif Reference motif, reference orientation
CTG
Ranges
Benign (ref.) Benign motif, reference orientation
–
Benign (gene) Benign motif, gene orientation
–
Pathogenic (ref.) Pathogenic motif, reference orientation
CTG
Pathogenic (gene) Pathogenic motif, gene orientation
AGC
Unknown (ref.) Unknown motif, reference orientation
–
Unknown (gene) Unknown motif, gene orientation
–
Interruption (ref.) Interruption motif, reference orientation
–
Interruption (gene) Interruption motif, gene orientation
–
gnomAD
References
Direct supporting references for info on this page.
1
Ontology Lookup Service (OLS)
mondo:00084572
Sex- and Depression-specific Effects of Non-pathogenic CAG Repeats in
Linjun,Ao, Raymond,Noordam, N,Ahmad Aziz, Yuri,Milaneschi, Diana,van Heemst, Frits R,Rosendaal, Brenda W J H,Penninx, Ko Willems,van Dijk, Tamar,Sofer, Heming,Wang, Tariq,Faquih
medRxiv : the preprint server for health sciences · 2025-11-27
pmid:413582803
Spinocerebellar Ataxia Type 6
Hannah L.,Casey, Christopher M.,Gomez
GeneReviews® · 1993-01-01
genereviews:NBK11404
Profiling of Short-Tandem-Repeat Disease Alleles in 12,632 Human Whole Genomes.
Haibao,Tang, Ewen F,Kirkness, Christoph,Lippert, William H,Biggs, Martin,Fabani, Ernesto,Guzman, Smriti,Ramakrishnan, Victor,Lavrenko, Boyko,Kakaradov, Claire,Hou, Barry,Hicks, David,Heckerman, Franz J,Och, C Thomas,Caskey, J Craig,Venter, Amalio,Telenti
American journal of human genetics · 2017-11-02
pmid:291000845
Autosomal dominant cerebellar ataxia type III: a review of the phenotypic and genotypic characteristics.
Shinsuke,Fujioka, Christina,Sundal, Zbigniew K,Wszolek
Orphanet journal of rare diseases · 2013-01-18
pmid:233314136
Redefining the Pathogenic CAG Repeat Units Threshold in
Yuya,Hatano, Tomohiko,Ishihara, Sachiko,Hirokawa, Hidetoshi,Date, Yuji,Takahashi, Hidehiro,Mizusawa, Osamu,Onodera
Neurology. Genetics · 2025-02-21
pmid:399961317
Population-scale repeat expansions elucidate disease risk and brain atrophy.
Vijay Kumar,Pounraja, Jae Hoon,Sul, Joseph,Herman, Sean,O'Keeffe, Veera,Rajagopal, Xiaodong,Bai, Michael D,Kessler, Neelroop,Parikshak, Karl,Landheer, Xingmin,Zhang, Sean,Yu, Lance,Zhang, Michelle G,LeBlanc, Jennifer,Rico-Varela, Frederic,Grau, Sarah,Wolf, Sriramkumar,Sundaramoorthy, Farshid,Sepehrband, Eli A,Stahl, Yuda,Huo, Mohsin,Ahmed, Susan,Croll, William,Salerno, John D,Overton, Jonathan,Marchini, Jeffrey,Reid, Luca A,Lotta, Aris,Baras, Goncalo R,Abecasis, Giovanni,Coppola, Sahar,Gelfman
Nature · 2026-04-08
pmid:419517338
Autosomal dominant cerebellar ataxia (SCA6) associated with small polyglutamine expansions in the alpha 1A-voltage-dependent calcium channel.
O,Zhuchenko, J,Bailey, P,Bonnen, T,Ashizawa, D W,Stockton, C,Amos, W B,Dobyns, S H,Subramony, H Y,Zoghbi, C C,Lee
Nature genetics · 1997-01-01
pmid:8988170Additional Literature
Additional literature related to this locus.
Raw PubMed search results
(All PubMed results returned by searching for this gene, tandem
repeats, and disease, in medline format)
Detection of short tandem repeat expansions on a targeted neurological gene panel using STRipy improves the diagnostic rate for ataxias.
Carolin K,Scriba, Chiara,Folland, Michael,Black, Jessica,Baker, Daniel,Abromeit, Samantha,Saw, Mei-Ting,Chiew, Rebecca,Gooding, Nigel G,Laing, Mark R,Davis, Gianina,Ravenscroft
Brain communications · 2026-03-16
pmid:42038259Population-scale repeat expansions elucidate disease risk and brain atrophy.
Vijay Kumar,Pounraja, Jae Hoon,Sul, Joseph,Herman, Sean,O'Keeffe, Veera,Rajagopal, Xiaodong,Bai, Michael D,Kessler, Neelroop,Parikshak, Karl,Landheer, Xingmin,Zhang, Sean,Yu, Lance,Zhang, Michelle G,LeBlanc, Jennifer,Rico-Varela, Frederic,Grau, Sarah,Wolf, Sriramkumar,Sundaramoorthy, Farshid,Sepehrband, Eli A,Stahl, Yuda,Huo, Mohsin,Ahmed, Susan,Croll, William,Salerno, John D,Overton, Jonathan,Marchini, Jeffrey,Reid, Luca A,Lotta, Aris,Baras, Goncalo R,Abecasis, Giovanni,Coppola, Sahar,Gelfman
Nature · 2026-04-08
pmid:41951733Metformin improves RAN protein pathology, alternative splicing, and behavioral phenotypes in SCA8 mice.
Lisa El,Romano, Setsuki,Tsukagoshi, Emily E,Davey-Osuch, Ramadan,Ajredini, Kamat,Manasi, Tala Vr,Ortiz, Eduardo,Rijos, Nathan J,Bourgon, S Elaine,Ames, Timothy J,Garrett, John D,Cleary, Eric T,Wang, Laura Pw,Ranum
Life science alliance · 2026-03-02
pmid:41771688Short tandem repeat expansions in patients with neurodegenerative dementia.
Yuan,Zhu, Xuewen,Xiao, Yiliang,Liu, Zheng,Wang, Tengfei,Luo, Tianyan,Xu, Qijie,Yang, Xiaoli,Hao, Cong,Zhang, Sizhe,Zhang, Shilin,Luo, Yafang,Zhou, Xinxin,Liao, Yun,Tian, Ling,Weng, Liangjuan,Fang, Beisha,Tang, Bin,Jiao, Jinchen,Li, Lu,Shen
EBioMedicine · 2026-02-26
pmid:41762523Non-Huntington's disease chorea: an expanding universe with acquired causes.
Francisco,Cardoso, Débora,Maia, Ricardo,Maciel, Jonathan,Carr, Taku,Hatano, Alexandra,Durr, Werner,Poewe
Brain : a journal of neurology · 2026-01-30
pmid:41612618The genetic landscape of spinocerebellar ataxias in Taiwan: Insights from 876 genetically confirmed cases.
Shih-Chun,Lan, Cheng-Tsung,Hsiao, Kang-Yang,Jih, Yi-Chu,Liao, Yi-Chung,Lee
Parkinsonism & related disorders · 2025-10-12
pmid:41082794Repeat Variants, Biomarkers, and Molecular Signatures in Parkinson's Disease:
Jose Miguel,Laffita-Mesa, Martin,Paucar, Per,Svenningsson
International journal of molecular sciences · 2025-09-20
pmid:41009775Ocular Motor and Vestibular Profile in Spinocerebellar Ataxia Type 27B: Toward a Practical Bedside Diagnostic Framework.
Leonardo Eleuterio,Ariello, Daniel R,Gold, Weiyi,Mu, Michael C,Schubert, Claire,Allen, Ashley,Paul, David P W,Rastall
Cerebellum (London, England) · 2025-09-04
pmid:40906330The Case of Spinocerebellar Ataxias in Amazonas (Northern Brazil): An Analysis of Disease Frequency from a Geographic, Historical, and Genetic-Evolutionary Perspective.
Diana Vieira,Brito, Marcus Vinicius,Della Coletta, Giselle Benevides Monteiro,Ferreira, Sabrina Rodrigues,da Silva, Patricia Batista de,Azevedo, Cleiton,Fantin
Cerebellum (London, England) · 2025-09-03
pmid:40900235