Publication date: 10 January 2017
Source:Cell Reports, Volume 18, Issue 2
Author(s): Marie C. Lechler, Emily D. Crawford, Nicole Groh, Katja Widmaier, Raimund Jung, Janine Kirstein, Jonathan C. Trinidad, Alma L. Burlingame, Della C. David
Low-complexity "prion-like" domains in key RNA-binding proteins (RBPs) mediate the reversible assembly of RNA granules. Individual RBPs harboring these domains have been linked to specific neurodegenerative diseases. Although their aggregation in neurodegeneration has been extensively characterized, it remains unknown how the process of aging disturbs RBP dynamics. We show that a wide variety of RNA granule components, including stress granule proteins, become highly insoluble with age in C. elegans and that reduced insulin/insulin-like growth factor 1 (IGF-1) daf-2 receptor signaling efficiently prevents their aggregation. Importantly, stress-granule-related RBP aggregates are associated with reduced fitness. We show that heat shock transcription factor 1 (HSF-1) is a main regulator of stress-granule-related RBP aggregation in both young and aged animals. During aging, increasing DAF-16 activity restores dynamic stress-granule-related RBPs, partly by decreasing the buildup of other misfolded proteins that seed RBP aggregation. Longevity-associated mechanisms found to maintain dynamic RBPs during aging could be relevant for neurodegenerative diseases.
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Teaser
Lechler et al. show that RNA-binding proteins (RBPs) including stress granule proteins are prone to aggregate with age in C. elegans. Aggregation of stress granule RBPs with "prion-like" domains is associated with reduced fitness. Their aggregation is prevented by longevity pathways and promoted by the aggregation of other misfolded proteins.http://ift.tt/2jjHdhX
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