par Heissenberger, Clemens;Rollins, Jarod;Krammer, Teresa;Nagelreiter, Fabian;Stocker, Isabella;Wacheul, Ludivine 
;Shpylovyi, Anton;Tav, Koray;Snow, Santina;Grillari, Johannes;Rogers, Aric N;Lafontaine, Denis ;Schosserer, Markus
Référence eLife, 9
Publication Publié, 2020-12-01
;Shpylovyi, Anton;Tav, Koray;Snow, Santina;Grillari, Johannes;Rogers, Aric N;Lafontaine, Denis ;Schosserer, MarkusRéférence eLife, 9
Publication Publié, 2020-12-01
Article révisé par les pairs
| Résumé : | Our knowledge about the repertoire of ribosomal RNA modifications and the enzymes responsible for installing them is constantly expanding. Previously, we reported that NSUN-5 is responsible for depositing m 5 C at position C2381 on the 26S rRNA in Caenorhabditis elegans . Here, we show that NSUN-1 is writing the second known 26S rRNA m 5 C at position C2982. Depletion of nsun-1 or nsun-5 improved thermotolerance and slightly increased locomotion at midlife, however, only soma-specific knockdown of nsun-1 extended lifespan. Moreover, soma-specific knockdown of nsun-1 reduced body size and impaired fecundity, suggesting non-cell-autonomous effects. While ribosome biogenesis and global protein synthesis were unaffected by nsun-1 depletion, translation of specific mRNAs was remodeled leading to reduced production of collagens, loss of structural integrity of the cuticle, and impaired barrier function. We conclude that loss of a single enzyme required for rRNA methylation has profound and highly specific effects on organismal development and physiology. |
