Abstract
A CAG-repeat gene expansion translated into a pathogenic polyglutamine stretch at the N-terminus of huntingtin triggers Huntington's Disease. Mutated huntingtin is predicted to adopt toxic properties mainly if aggregation-prone N-terminal fragments are released by proteolysis. Huntingtin-aggregates are indeed a major hallmark of this disorder and could represent useful markers of disease-onset or progression. We designed a simple method for qualitative and quantitative characterization of aggregates. For this, we analyzed samples from in vitro and in vivo Huntington's Disease models by agarose gel electrophoresis and showed that in the brain of transgenic mice huntingtin-aggregates became larger as a function of disease progression. This appears to be a property of cytoplasmic but not nuclear aggregates. In cell cultures, treatment with Congo Red inhibited aggregate growth but not total load. Finally, we showed that in primary striatal neurons and in brains of R6/2 and HdhQ150 mice, the presence of aggregates preceded initiation of any other functional deficits. This observation argues for a pathogenic role of huntingtin-aggregation in Huntington's Disease. Our results emphasize that thorough analysis of huntingtin metabolism and aggregation is now feasible, thus significantly improving the power of studies assessing therapies designed to lower huntingtin levels or to interfere with its aggregation
Original language | English |
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Pages (from-to) | 846 - 858 |
Number of pages | 13 |
Journal | Journal of Neurochemistry |
Volume | 104 |
Issue number | 3 |
DOIs | |
Publication status | Published - Feb 2008 |