AI Article Synopsis
- Huntington's disease is caused by an expanded polyglutamine stretch in the huntingtin protein, leading to neuronal damage and the formation of aggregates in certain brain regions.
- Recent studies have proposed a model for the structure of these polyQ aggregates, featuring an alternating beta-strand/beta-turn conformation with seven glutamine residues per strand.
- Testing this model using the huntingtin protein's N-terminal fragment in cell cultures suggests it accurately represents polyQ aggregation, enhancing our understanding of its role in the toxicity associated with Huntington's disease.
Article Abstract
Huntington's disease (HD) arises from an expanded polyglutamine (polyQ) in the N-terminus of the huntingtin (htt) protein. Neuronal degeneration and inclusions containing N-terminal fragments of mutant htt are present in the cortex and striatum of HD brain. Recently, a model of polyQ aggregate structure has been proposed on the basis of studies with synthetic polyQ peptides and includes an alternating beta-strand/beta-turn structure with seven glutamine residues per beta-strand. We tested this model in the context of the htt exon-1 N-terminal fragment in both mammalian cell culture and cultured primary cortical neurons. We found our data support this model in the htt protein and provide a better understanding of the structural basis of polyQ aggregation in toxicity in HD.
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| http://dx.doi.org/10.1093/hmg/ddi071 | DOI Listing |
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