Ataxin 1
ATXN1 | |||||||||||||||||||||||||||||||||||||||||||||||||||
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Aliases | ATXN1, ATX1, D6S504E, SCA1, ataxin 1 | ||||||||||||||||||||||||||||||||||||||||||||||||||
External IDs | OMIM: 601556; MGI: 104783; HomoloGene: 281; GeneCards: ATXN1; OMA:ATXN1 - orthologs | ||||||||||||||||||||||||||||||||||||||||||||||||||
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Ataxin-1 is a DNA-binding protein which in humans is encoded by the ATXN1 gene.[5][6]
Mutations in ataxin-1 cause spinocerebellar ataxia type 1, an inherited neurodegenerative disease characterized by a progressive loss of cerebellar neurons, particularly Purkinje neurons.
Genetics
ATXN1 is conserved across multiple species, including humans, mice, and Drosophila.[7]
In humans, ATXN1 is located on the short arm of chromosome 6. The gene contains 9 exons, two of which are protein-coding. There is a CAG repeat in the coding sequence which is longer in humans than other species (6-38 uninterrupted CAG repeats in healthy humans versus 2 in the mouse gene). This repeat is prone to errors in DNA replication and can vary widely in length between individuals.[8]
Structure
Notable features of the Ataxin-1 protein structure[9] include:
- A polyglutamine tract of variable length, encoded by the CAG repeat in ATXN1.
- A region which mediates protein-protein interactions, known as the AXH domain
- A nuclear localization sequence
- A phosphorylation site which regulates the protein's stability and interactions with its binding partners
Function
The function of Ataxin-1 is not completely understood. It appears to be involved in regulating gene expression based on its location in the nucleus of the cell, its association with promoter regions of several genes, and its interactions with transcriptional regulators[10] and parts of the RNA splicing machinery.[11]
Interactions
Ataxin 1 has been shown to interact with:
Role in disease
ATXN1 is the gene mutated in spinocerebellar ataxia type 1 (SCA1), a dominantly-inherited, fatal genetic disease in which neurons in the cerebellum and brain stem degenerate over the course of years or decades.[8] SCA1 is a trinucleotide repeat disorder caused by expansion of the CAG repeat in ATXN1; this leads to an expanded polyglutamine tract in the protein. This elongation is variable in length, with as few as 6 and as many as 81 repeats reported in humans.[17][8] Repeats of 39 or more uninterrupted CAG triplets cause disease, and longer repeat tracts are correlated with earlier age of onset and faster progression.[18]
How polyglutamine expansion in Ataxin-1 causes neuronal dysfunction and degeneration is still unclear. Disease likely occurs through the combination of several processes.
Aggregation
Mutant Ataxin-1 protein spontaneously misfolds and forms aggregates in cells,[19] much like other disease-associated proteins such as tau, Aβ, and huntingtin. This led to the hypothesis that the aggregates are toxic to neurons, but it has been shown in mice that aggregation is not required for pathogenesis.[20] Other neuronal proteins can modulate the formation of Ataxin-1 aggregates and this in turn may affect aggregate-induced toxicity.[21]
Altered protein-protein interactions
Soluble Ataxin-1 interacts with many other proteins. Polyglutamine expansion in Ataxin-1 can affect these interactions, sometimes causing loss of function (where the protein fails to perform one of its normal functions) and sometimes causing toxic gain of function (where the protein binds too strongly or to an inappropriate target).[28] This, in turn, could alter the expression of the genes ataxin-1 regulates, leading to disease.
HMGB1 interaction
Mutant ataxin1 causes the neurodegenerative disease spinocerebellar ataxia type 1 (SCA1). In a mouse model of SCA1, mutant ataxin1 mediates the reduction or inhibition of the high mobility group box1 protein (HMGB1) in neuron mitochondria.[29] HMGB1 is a crucial nuclear protein that regulates DNA architectural changes essential for DNA damage repair and transcription. The impairment of HMGB1 function leads to increased mitochondrial DNA damage. In the SCA1 mouse model, over-expression of the HMGB1 protein by means of an introduced virus vector bearing the HMGB1 gene facilitates repair of the mitochondrial DNA damage, ameliorates the neuropathology and the motor deficits, and extends the lifespan of these mutant ataxin1 mice.[29]
References
- ^ a b c GRCh38: Ensembl release 89: ENSG00000124788 – Ensembl, May 2017
- ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000046876 – Ensembl, May 2017
- ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ Volz A, Fonatsch C, Ziegler A (Jun 1992). "Regional mapping of the gene for autosomal dominant spinocerebellar ataxia (SCA1) by localizing the closely linked D6S89 locus to 6p24.2----p23.05". Cytogenetics and Cell Genetics. 60 (1): 37–9. doi:10.1159/000133291. PMID 1582256.
- ^ "Entrez Gene: ATXN1 ataxin 1".
- ^ "Atx-1 - Ataxin 1 - Drosophila melanogaster (Fruit fly) - Atx-1 gene & protein". www.uniprot.org. Retrieved 2018-01-11.
- ^ a b c Orr HT, Chung MY, Banfi S, Kwiatkowski TJ, Servadio A, Beaudet AL, McCall AE, Duvick LA, Ranum LP, Zoghbi HY (July 1993). "Expansion of an unstable trinucleotide CAG repeat in spinocerebellar ataxia type 1". Nature Genetics. 4 (3): 221–6. doi:10.1038/ng0793-221. PMID 8358429.
- ^ Zoghbi HY, Orr HT (March 2009). "Pathogenic mechanisms of a polyglutamine-mediated neurodegenerative disease, spinocerebellar ataxia type 1". The Journal of Biological Chemistry. 284 (12): 7425–9. doi:10.1074/jbc.r800041200. PMC 2658037. PMID 18957430.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Lam YC, Bowman AB, Jafar-Nejad P, Lim J, Richman R, Fryer JD, Hyun ED, Duvick LA, Orr HT, Botas J, Zoghbi HY (December 2006). "ATAXIN-1 interacts with the repressor Capicua in its native complex to cause SCA1 neuropathology". Cell. 127 (7): 1335–47. doi:10.1016/j.cell.2006.11.038. PMID 17190598.
- ^ Kim E, Lee Y, Choi S, Song JJ (July 2014). "Structural basis of the phosphorylation dependent complex formation of neurodegenerative disease protein Ataxin-1 and RBM17". Biochemical and Biophysical Research Communications. 449 (4): 399–404. doi:10.1016/j.bbrc.2014.05.063. PMID 24858692.
- ^ Suter B, Fontaine JF, Yildirimman R, Raskó T, Schaefer MH, Rasche A, Porras P, Vázquez-Álvarez BM, Russ J, Rau K, Foulle R, Zenkner M, Saar K, Herwig R, Andrade-Navarro MA, Wanker EE (2013). "Development and application of a DNA microarray-based yeast two-hybrid system". Nucleic Acids Research. 41 (3): 1496–507. doi:10.1093/nar/gks1329. PMC 3561971. PMID 23275563.
- ^ Hong S, Ka S, Kim S, Park Y, Kang S (May 2003). "p80 coilin, a coiled body-specific protein, interacts with ataxin-1, the SCA1 gene product". Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease. 1638 (1): 35–42. doi:10.1016/s0925-4439(03)00038-3. PMID 12757932.
- ^ a b Hong S, Lee S, Cho SG, Kang S (June 2008). "UbcH6 interacts with and ubiquitinates the SCA1 gene product ataxin-1". Biochemical and Biophysical Research Communications. 371 (2): 256–60. doi:10.1016/j.bbrc.2008.04.066. PMID 18439907.
- ^ Koshy B, Matilla T, Burright EN, Merry DE, Fischbeck KH, Orr HT, Zoghbi HY (September 1996). "Spinocerebellar ataxia type-1 and spinobulbar muscular atrophy gene products interact with glyceraldehyde-3-phosphate dehydrogenase". Human Molecular Genetics. 5 (9): 1311–8. doi:10.1093/hmg/5.9.1311. PMID 8872471.
- ^ Hong S, Kim SJ, Ka S, Choi I, Kang S (June 2002). "USP7, a ubiquitin-specific protease, interacts with ataxin-1, the SCA1 gene product". Molecular and Cellular Neurosciences. 20 (2): 298–306. doi:10.1006/mcne.2002.1103. PMID 12093161.
- ^ Matilla T, Volpini V, Genís D, Rosell J, Corral J, Dávalos A, Molins A, Estivill X (December 1993). "Presymptomatic analysis of spinocerebellar ataxia type 1 (SCA1) via the expansion of the SCA1 CAG-repeat in a large pedigree displaying anticipation and parental male bias". Human Molecular Genetics. 2 (12): 2123–8. doi:10.1093/hmg/2.12.2123. PMID 8111382.
- ^ Donato, Stefano Di; Mariotti, Caterina; Taroni, Franco (2012-01-01). "Spinocerebellar ataxia type 1". In Dürr, Sankara H. Subramony and Alexandra (ed.). Handbook of Clinical Neurology. Ataxic Disorders. Vol. 103. Elsevier. pp. 399–421. doi:10.1016/B978-0-444-51892-7.00025-5. ISBN 9780444518927. PMID 21827903.
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: Unknown parameter|name-list-format=
ignored (|name-list-style=
suggested) (help) - ^ Shastry BS (July 2003). "Neurodegenerative disorders of protein aggregation". Neurochemistry International. 43 (1): 1–7. doi:10.1016/s0197-0186(02)00196-1. PMID 12605877.
- ^ Klement IA, Skinner PJ, Kaytor MD, Yi H, Hersch SM, Clark HB, Zoghbi HY, Orr HT (1998). "Ataxin-1 nuclear localization and aggregation: role in polyglutamine-induced disease in SCA1 transgenic mice". Cell. 95 (1): 41–53. doi:10.1016/s0092-8674(00)81781-x. PMID 9778246.
- ^ Petrakis S, Raskó T, Russ J, Friedrich RP, Stroedicke M, Riechers SP, et al. (Aug 2012). "Identification of human proteins that modify misfolding and proteotoxicity of pathogenic ataxin-1". PLOS Genetics. 8 (8): e1002897. doi:10.1371/journal.pgen.1002897. PMC 3420947. PMID 22916034.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - ^ Al-Ramahi I, Lam YC, Chen HK, de Gouyon B, Zhang M, Pérez AM, Branco J, de Haro M, Patterson C, Zoghbi HY, Botas J (September 2006). "CHIP protects from the neurotoxicity of expanded and wild-type ataxin-1 and promotes their ubiquitination and degradation". The Journal of Biological Chemistry. 281 (36): 26714–24. doi:10.1074/jbc.M601603200. PMID 16831871.
- ^ de Chiara C, Menon RP, Dal Piaz F, Calder L, Pastore A (December 2005). "Polyglutamine is not all: the functional role of the AXH domain in the ataxin-1 protein". Journal of Molecular Biology. 354 (4): 883–93. doi:10.1016/j.jmb.2005.09.083. PMID 16277991.
- ^ Tsuda H, Jafar-Nejad H, Patel AJ, Sun Y, Chen HK, Rose MF, Venken KJ, Botas J, Orr HT, Bellen HJ, Zoghbi HY (August 2005). "The AXH domain of Ataxin-1 mediates neurodegeneration through its interaction with Gfi-1/Senseless proteins". Cell. 122 (4): 633–44. doi:10.1016/j.cell.2005.06.012. PMID 16122429.
- ^ Mizutani A, Wang L, Rajan H, Vig PJ, Alaynick WA, Thaler JP, Tsai CC (September 2005). "Boat, an AXH domain protein, suppresses the cytotoxicity of mutant ataxin-1". The EMBO Journal. 24 (18): 3339–51. doi:10.1038/sj.emboj.7600785. PMC 1224676. PMID 16121196.
- ^ Park Y, Hong S, Kim SJ, Kang S (February 2005). "Proteasome function is inhibited by polyglutamine-expanded ataxin-1, the SCA1 gene product". Molecules and Cells. 19 (1): 23–30. PMID 15750336.
- ^ Irwin S, Vandelft M, Pinchev D, Howell JL, Graczyk J, Orr HT, Truant R (January 2005). "RNA association and nucleocytoplasmic shuttling by ataxin-1". Journal of Cell Science. 118 (Pt 1): 233–42. doi:10.1242/jcs.01611. PMID 15615787.
- ^ Lim J, Crespo-Barreto J, Jafar-Nejad P, Bowman AB, Richman R, Hill DE, Orr HT, Zoghbi HY (April 2008). "Opposing effects of polyglutamine expansion on native protein complexes contribute to SCA1". Nature. 452 (7188): 713–8. doi:10.1038/nature06731. PMC 2377396. PMID 18337722.
- ^ a b Ito H, Fujita K, Tagawa K, Chen X, Homma H, Sasabe T, Shimizu J, Shimizu S, Tamura T, Muramatsu S, Okazawa H (January 2015). "HMGB1 facilitates repair of mitochondrial DNA damage and extends the lifespan of mutant ataxin-1 knock-in mice". EMBO Mol Med. 7 (1): 78–101. doi:10.15252/emmm.201404392. PMC 4309669. PMID 25510912.
External links
- GeneReviews/NIH/NCBI/UW entry on Spinocerebellar Ataxia Type 1
- ataxin-1 at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
- Human ATXN1 genome location and ATXN1 gene details page in the UCSC Genome Browser.
- Overview of all the structural information available in the PDB for UniProt: P54253 (Ataxin-1) at the PDBe-KB.
This article incorporates text from the United States National Library of Medicine, which is in the public domain.