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An apparent core/shell architecture of polyQ aggregates in the aging Caenorhabditis elegans neuron
Authors:Rachel S. Fisher,Rosa Meyo Jimenez,Elizabeth Soto,Darin Kalev,Shana Elbaum&#x  Garfinkle
Affiliation:1. Structural Biology Initiative, CUNY Advanced Science Research Center, New York New York, USA ; 2. Ph.D. Programs in Biochemistry and Biology, The Graduate Center, CUNY, New York New York, USA
Abstract:Huntington''s disease is caused by a polyglutamine (polyQ) expansion in the huntingtin protein which results in its abnormal aggregation in the nervous system. Huntingtin aggregates are linked to toxicity and neuronal dysfunction, but a comprehensive understanding of the aggregation mechanism in vivo remains elusive. Here, we examine the morphology of polyQ aggregates in Caenorhabditis elegans mechanosensory neurons as a function of age using confocal and fluorescence lifetime imaging microscopy. We find that aggregates in young worms are mostly spherical with homogenous intensity, but as the worm ages aggregates become substantially more heterogeneous. Most prominently, in older worms we observe an apparent core/shell morphology of polyQ assemblies with decreased intensity in the center. The fluorescence lifetime of polyQ is uniform across the aggregate indicating that the dimmed intensity in the assembly center is most likely not due to quenching or changes in local environment, but rather to displacement of fluorescent polyQ from the central region. This apparent core/shell architecture of polyQ aggregates in aging C. elegans neurons contributes to the diverse landscape of polyQ aggregation states implicated in Huntington''s disease.
Keywords:aggregate morphology   Caenorhabditis elegans   FLIM   Huntington''s disease   neural aging   Neurodegeneration   protein aggregation   protein misfolding
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