1. Targeting CAG repeat RNAs reduces Huntington’s disease phenotype independently of huntingtin levels
- Author
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Eulàlia Martí, M. Teresa Zomeño-Abellán, Rafael Alcalá-Vida, Laura Rué, Mónica Bañez-Coronel, Esther Pérez-Navarro, Zeus Aranda, Veronica Venturi, Xavier Estivill, Gartze Mentxaka, Birgit Kagerbauer, Albert Giralt, Jordi Creus-Muncunill, and Universitat de Barcelona
- Subjects
Male ,0301 basic medicine ,congenital, hereditary, and neonatal diseases and abnormalities ,Small RNA ,Huntingtin ,Transgene ,Mice, Transgenic ,Huntington's chorea ,Biology ,Mice ,03 medical and health sciences ,Exon ,Trinucleotide Repeats ,Corea de Huntington ,Huntington's disease ,Mutant protein ,Cell Line, Tumor ,mental disorders ,medicine ,Animals ,Humans ,RNA, Antisense ,Huntingtin Protein ,Messenger RNA ,Malalties neurodegeneratives ,Neurodegenerative diseases ,RNA ,General Medicine ,medicine.disease ,Molecular biology ,nervous system diseases ,Fenotip ,Disease Models, Animal ,Huntington Disease ,030104 developmental biology ,Gene Expression Regulation ,nervous system ,Corea de Huntington (Malaltia) ,Research Article - Abstract
Huntington's disease (HD) is a polyglutamine disorder caused by a CAG expansion in the Huntingtin (HTT) gene exon 1. This expansion encodes a mutant protein whose abnormal function is traditionally associated with HD pathogenesis; however, recent evidence has also linked HD pathogenesis to RNA stable hairpins formed by the mutant HTT expansion. Here, we have shown that a locked nucleic acid-modified antisense oligonucleotide complementary to the CAG repeat (LNA-CTG) preferentially binds to mutant HTT without affecting HTT mRNA or protein levels. LNA-CTGs produced rapid and sustained improvement of motor deficits in an R6/2 mouse HD model that was paralleled by persistent binding of LNA-CTG to the expanded HTT exon 1 transgene. Motor improvement was accompanied by a pronounced recovery in the levels of several striatal neuronal markers severely impaired in R6/2 mice. Furthermore, in R6/2 mice, LNA-CTG blocked several pathogenic mechanisms caused by expanded CAG RNA, including small RNA toxicity and decreased Rn45s expression levels. These results suggest that LNA-CTGs promote neuroprotection by blocking the detrimental activity of CAG repeats within HTT mRNA. The present data emphasize the relevance of expanded CAG RNA to HD pathogenesis, indicate that inhibition of HTT expression is not required to reverse motor deficits, and further suggest a therapeutic potential for LNA-CTG in polyglutamine disorders. This work was supported by the Spanish government through the Plan Nacional de I+D+I and cofunded by grants from the Instituto de Salud Carlos III (ISCIII) – Subdirección General de Evaluación and the Fondo Europeo de Desarrollo Regional (FEDER) (project PI11/02036, to EM, and PI13/01250, to EPN); the Spanish Ministerio de Economía y Competitividad (MINECO) (SAF2008-00357 and SAF2013-49108-R, to XE, and SAF2014-60551-R: iRPaD, to EM); and the Generalitat de Catalunya, Departament Economia i Coneixement, Secretaria Universitats i Recerca (AGAUR 2014 SGR-1138, to XE).
- Published
- 2016