Giulia Vecchi scite author profile

SUMMARY Aging has been associated with a progressive decline of proteostasis, but how this process manifests itself at the level of proteome composition remains largely unexplored. Here we profiled more than 5,000 proteins along the lifespan of the nematode C. elegans. We find that one third of proteins change in abundance at least 2-fold during aging, resulting in a severe proteome imbalance. These changes are reduced in the long-lived daf-2 mutant, but enhanced in the short-lived daf-16 mutant. While ribosomal proteins decline and lose normal stoichiometry, proteasome complexes increase. Proteome imbalance is accompanied by widespread protein aggregation, with abundant proteins that exceed solubility contributing most to aggregate load. Notably, the properties by which proteins are selected for aggregation differ in the daf-2 mutant, and an increased formation of aggregates associated with small heat shock proteins is observed. We suggest that sequestering proteins into chaperone-enriched aggregates is a protective strategy to slow proteostasis decline during nematode aging.

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Widespread Proteome Remodeling and Aggregation in Aging C. elegans

Walther¹,

Kasturi²,

Zheng³

et al. 2017

Cell

135

212

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In Table S3B of the above article, protein identifiers were inadvertently matched with the wrong values. Table S3B reports a subset of data from Table S1, calculated as protein abundance values relative to day 1 of worm age. Note that, in Table S1, the values are displayed correctly. A corrected version of the Table S3B is available with this Correction online. The error does not affect the conclusions in the study, and we apologize for any inconvenience that it may have caused.

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Proteome-wide observation of the phenomenon of life on the edge of solubility

Vecchi

Sormanni

Mannini

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

136

119

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To function effectively proteins must avoid aberrant aggregation, and hence they are expected to be expressed at concentrations safely below their solubility limits. By analyzing proteome-wide mass spectrometry data of Caenorhabditis elegans, however, we show that the levels of about three-quarters of the nearly 4,000 proteins analyzed in adult animals are close to their intrinsic solubility limits, indeed exceeding them by about 10% on average. We next asked how aging and functional self-assembly influence these solubility limits. We found that despite the fact that the total quantity of proteins within the cellular environment remains approximately constant during aging, protein aggregation sharply increases between days 6 and 12 of adulthood, after the worms have reproduced, as individual proteins lose their stoichiometric balances and the cellular machinery that maintains solubility undergoes functional decline. These findings reveal that these proteins are highly prone to undergoing concentration-dependent phase separation, which on aging is rationalized in a decrease of their effective solubilities, in particular for proteins associated with translation, growth, reproduction, and the chaperone system.

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A protein homeostasis signature in healthy brains recapitulates tissue vulnerability to Alzheimer’s disease

et al. 2016

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Massively parallel C. elegans tracking provides multi-dimensional fingerprints for phenotypic discovery

Perni

Challa

Kirkegaard

et al. 2018

Journal of Neuroscience Methods

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Giulia Vecchi

Widespread Proteome Remodeling and Aggregation in Aging C. elegans

Widespread Proteome Remodeling and Aggregation in Aging C. elegans

Proteome-wide observation of the phenomenon of life on the edge of solubility

A protein homeostasis signature in healthy brains recapitulates tissue vulnerability to Alzheimer’s disease

Massively parallel C. elegans tracking provides multi-dimensional fingerprints for phenotypic discovery

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