posted on 2016-11-14, 17:02authored byJohn R. P. Knight, Amandine Bastide, Diego Peretti, A. Roobol, J. Roobol, Giovanna R. Mallucci, C. M. Smales, Anne E. Willis
The RNA exosome is essential for 3' processing of functional RNA species and degradation of aberrant RNAs in eukaryotic cells. Recent reports have defined the substrates of the exosome catalytic domains and solved the multimeric structure of the exosome complex. However, regulation of exosome activity remains poorly characterized, especially in response to physiological stress. Following the observation that cooling of mammalian cells results in a reduction in 40S:60S ribosomal subunit ratio, we uncover regulation of the nuclear exosome as a result of reduced temperature. Using human cells and an in vivo model system allowing whole-body cooling, we observe reduced EXOSC10 (hRrp6, Pm/Scl-100) expression in the cold. In parallel, both models of cooling increase global SUMOylation, leading to the identification of specific conjugation of SUMO1 to EXOSC10, a process that is increased by cooling. Furthermore, we define the major SUMOylation sites in EXOSC10 by mutagenesis and show that overexpression of SUMO1 alone is sufficient to suppress EXOSC10 abundance. Reducing EXOSC10 expression by RNAi in human cells correlates with the 3' preribosomal RNA processing defects seen in the cold as well as reducing the 40S:60S ratio, a previously uncharacterized consequence of EXOSC10 suppression. Together, this work illustrates that EXOSC10 can be modified by SUMOylation and identifies a physiological stress where this regulation is prevalent both in vitro and in vivo.
Funding
This work was supported by the Biotechnology and Biological
Sciences Research Council (grant nos. BB/F018908/1 and
BB/I020055/1 [C.M.S.] and BB/F018738/1 and BB/I019790/1
[A.E.W.]), and also by the Medical Research Council (A.E.W. and
G.R.M.).
History
Citation
RNA, 2016, 22 (4), pp. 623-635
Author affiliation
/Organisation/COLLEGE OF MEDICINE, BIOLOGICAL SCIENCES AND PSYCHOLOGY/MBSP Non-Medical Departments/Molecular & Cell Biology
Version
VoR (Version of Record)
Published in
RNA
Publisher
Cold Spring Harbor Laboratory Press for RNA Society