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Paradoxical delay in the onset of disease caused by super-long CAG repeat expansions in R6/2 mice

Abstract Huntington's disease (HD) is caused by an expanded CAG repeat in the HD gene. The pathological threshold for expansion in HD is around 36 CAG repeats, although ‘super-long’ expansions are found in brains of HD patients. We examined the effect of varying the CAG repeat length (from 170...

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Bibliographic Details
Published in:Neurobiology of disease 2009-03, Vol.33 (3), p.331-341
Main Authors: Morton, A Jennifer, Glynn, Dervila, Leavens, Wendy, Zheng, Zhiguang, Faull, Richard L.M, Skepper, Jeremy N, Wight, James M
Format: Article
Language:English
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Summary:Abstract Huntington's disease (HD) is caused by an expanded CAG repeat in the HD gene. The pathological threshold for expansion in HD is around 36 CAG repeats, although ‘super-long’ expansions are found in brains of HD patients. We examined the effect of varying the CAG repeat length (from 170 to 450) on behavior and neuropathology of R6/2 mice. Unexpectedly, we found that increasing the repeat length delayed onset of disease and prolonged survival, from around 4 months to over 18 months in mice with the longest repeats. The delay in onset correlated with a delayed appearance of neuronal intranuclear inclusions (NIIs). However, super-long CAG repeats are not neuroprotective. Mice carrying 2 copies of the mutant transgene die earlier than those carrying a single copy. Furthermore, neurodegeneration is present in super-long repeat length mice at mid-stage disease, whereas little neurodegeneration is seen in mice with shorter CAG repeats until end stage. Expanding the CAG repeat beyond the range where NII formation is the dominant pathology has unmasked a slowly progressing neurological phenotype in R6/2 mice with brain pathology, including the identification of a novel form of inclusion, that more closely resembles that seen in adult onset cases of HD. This mouse may represent a better model for adult-onset HD than R6/2 mice with shorter repeats.
ISSN:0969-9961
1095-953X
DOI:10.1016/j.nbd.2008.11.015