A budding yeast model for human disease mutations in the EXOSC2 cap subunit of the RNA exosome complex

RNA exosomopathies, a growing family of diseases, are linked to missense mutations in genes encoding structural subunits of the evolutionarily conserved, 10-subunit exoribonuclease complex, the RNA exosome. This complex consists of a three-subunit cap, a six-subunit, barrel-shaped core, and a cataly...

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Veröffentlicht in:RNA (Cambridge) 2021-09, Vol.27 (9), p.1046-1067
Hauptverfasser: Sterrett, Maria C, Enyenihi, Liz, Leung, Sara W, Hess, Laurie, Strassler, Sarah E, Farchi, Daniela, Lee, Richard S, Withers, Elise S, Kremsky, Isaac, Baker, Richard E, Basrai, Munira A, van Hoof, Ambro, Fasken, Milo B, Corbett, Anita H
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Sprache:eng
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Zusammenfassung:RNA exosomopathies, a growing family of diseases, are linked to missense mutations in genes encoding structural subunits of the evolutionarily conserved, 10-subunit exoribonuclease complex, the RNA exosome. This complex consists of a three-subunit cap, a six-subunit, barrel-shaped core, and a catalytic base subunit. While a number of mutations in RNA exosome genes cause pontocerebellar hypoplasia, mutations in the cap subunit gene cause an apparently distinct clinical presentation that has been defined as a novel syndrome SHRF ( hort stature, earing loss, etinitis pigmentosa, and distinctive acies). We generated the first in vivo model of the SHRF pathogenic amino acid substitutions using budding yeast by modeling pathogenic missense mutations (p.Gly30Val and p.Gly198Asp) in the orthologous gene The resulting mutant cells show defects in cell growth and RNA exosome function. Consistent with altered RNA exosome function, we detect significant transcriptomic changes in both coding and noncoding RNAs in cells that model p.Gly198Asp, suggesting defects in nuclear surveillance. Biochemical and genetic analyses suggest that the Rrp4 G226D variant subunit shows impaired interactions with key RNA exosome cofactors that modulate the function of the complex. These results provide the first in vivo evidence that pathogenic missense mutations present in impair the function of the RNA exosome. This study also sets the stage to compare exosomopathy models to understand how defects in RNA exosome function underlie distinct pathologies.
ISSN:1355-8382
1469-9001
DOI:10.1261/rna.078618.120