hUTP24 is essential for processing of the human rRNA precursor at site A<sub>1</sub>, but not at site A<sub>0</sub>

Tomecki, Rafał; Łabno, Anna; Drążkowska, Karolina; Cysewski, Dominik; Dziembowski, Andrzej

doi:10.1080/15476286.2015.1073437

Cited by 30 publications

(42 citation statements)

References 69 publications

(114 reference statements)

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“…Results are slightly different when the Utp24-D68N PINc mutant is expressed. According to previous observations (13), Utp24 D68N is enzymatically deficient but is probably still associated with an assembled SSU processome (40). In these conditions, A 0 is accurately cleaved whereas A 1 and A 2 are blocked leading to the accumulation of the 22S pre-rRNA, an intermediate extending from A 0 to A 3 .…”

Section: Resultsmentioning

confidence: 72%

Turnover of aberrant pre-40S pre-ribosomal particles is initiated by a novel endonucleolytic decay pathway

Choque

Schneider

Gadal

et al. 2018

Nucleic Acids Research

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Ribosome biogenesis requires more than 200 trans-acting factors to achieve the correct production of the two mature ribosomal subunits. Here, we have identified Efg1 as a novel, nucleolar ribosome biogenesis factor in Saccharomyces cerevisiae that is directly linked to the surveillance of pre-40S particles. Depletion of Efg1 impairs early pre-rRNA processing, leading to a strong decrease in 18S rRNA and 40S subunit levels and an accumulation of the aberrant 23S rRNA. Using Efg1 as bait, we revealed a novel degradation pathway of the 23S rRNA. Co-immunoprecipitation experiments showed that Efg1 is a component of 90S pre-ribosomes, as it is associated with the 35S pre-rRNA and U3 snoRNA, but has stronger affinity for 23S pre-rRNA and its novel degradation intermediate 11S rRNA. 23S is cleaved at a new site, Q1, within the 18S sequence by the endonuclease Utp24, generating 11S and 17S' rRNA. Both of these cleavage products are targeted for degradation by the TRAMP/exosome complexes. Therefore, the Q1 site defines a novel endonucleolytic cleavage site of ribosomal RNA exclusively dedicated to surveillance of pre-ribosomal particles.

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Section: Resultsmentioning

confidence: 72%

Turnover of aberrant pre-40S pre-ribosomal particles is initiated by a novel endonucleolytic decay pathway

Choque

Schneider

Gadal

et al. 2018

Nucleic Acids Research

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“…Processing of the precursors to 28S rRNA, detected by the ITS2 probe, was not significantly affected by depletion of any of the studied factors. Intriguingly, the observed defects in pre-rRNA maturation indicate reduced efficiency of endonucleolytic cleavage at the sites A0, 1 and E, an activity attributed to the SSU processome complex (18,53,54), and impaired processing of the ITS1 region (Figure 8D) (38,53,55). Similar to depletion of ANN complex members, downregulation of FBL, which is part of both the SSU processome and other snoRNPs (21,56), induced a strong accumulation of a 30S-sized precursor.…”

Section: Resultsmentioning

confidence: 96%

Human AATF/Che-1 forms a nucleolar protein complex with NGDN and NOL10 required for 40S ribosomal subunit synthesis

Bammert

Jonas

Ungricht

et al. 2016

Nucleic Acids Research

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Mammalian AATF/Che-1 is essential for embryonic development, however, the underlying molecular mechanism is unclear. By immunoprecipitation of human AATF we discovered that AATF forms a salt-stable protein complex together with neuroguidin (NGDN) and NOL10, and demonstrate that the AATF-NGDN-NOL10 (ANN) complex functions in ribosome biogenesis. All three ANN complex members localize to nucleoli and display a mutual dependence with respect to protein stability. Mapping of protein-protein interaction domains revealed the importance of both the evolutionary conserved WD40 repeats in NOL10 and the UTP3/SAS10 domain in NGDN for complex formation. Functional analysis showed that the ANN complex supports nucleolar steps of 40S ribosomal subunit biosynthesis. All complex members were required for 18S rRNA maturation and their individual depletion affected the same nucleolar cleavage steps in the 5′ETS and ITS1 regions of the ribosomal RNA precursor. Collectively, we identified the ANN complex as a novel functional module supporting the nucleolar maturation of 40S ribosomal subunits. Our data help to explain the described role of AATF in cell proliferation during mouse development as well as its requirement for malignant tumor growth.

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“…The PIN endonuclease hUTP24 is responsible for cleavages at sites 1 and 2a (6,7), but the identity of the enzyme that cleaves at site A0 remains unknown. To investigate a potential catalytic function of human hUTP23 in site A0 cleavage, and to understand the role of its conserved Zinc finger motif, we established an RNAi-rescue system for hUTP23 in HEK293 cells.…”

Section: Resultsmentioning

confidence: 99%

The ribosome biogenesis factor yUtp23/hUTP23 coordinates key interactions in the yeast and human pre-40S particle and hUTP23 contains an essential PIN domain

et al. 2017

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Two proteins with PIN endonuclease domains, yUtp24(Fcf1)/hUTP24 and yUtp23/hUTP23 are essential for early pre-ribosomal (r)RNA cleavages at sites A0, A1/1 and A2/2a in yeast and humans. The yUtp24/hUTP24 PIN endonuclease is proposed to cleave at sites A1/1 and A2/2a, but the enzyme cleaving at site A0 is not known. Yeast yUtp23 contains a degenerate, non-essential PIN domain and functions together with the snR30 snoRNA, while human hUTP23 is associated with U17, the human snR30 counterpart. Using in vivo RNA–protein crosslinking and gel shift experiments, we reveal that yUtp23/hUTP23 makes direct contacts with expansion sequence 6 (ES6) in the 18S rRNA sequence and that yUtp23 interacts with the 3΄ half of the snR30 snoRNA. Protein–protein interaction studies further demonstrated that yeast yUtp23 and human hUTP23 directly interact with the H/ACA snoRNP protein yNhp2/hNHP2, the RNA helicase yRok1/hROK1(DDX52), the ribosome biogenesis factor yRrp7/hRRP7 and yUtp24/hUTP24. yUtp23/hUTP23 could therefore be central to the coordinated integration and release of ES6 binding factors and likely plays a pivotal role in remodeling this pre-rRNA region in both yeast and humans. Finally, studies using RNAi-rescue systems in human cells revealed that intact PIN domain and Zinc finger motifs in human hUTP23 are essential for 18S rRNA maturation.

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hUTP24 is essential for processing of the human rRNA precursor at site A₁, but not at site A₀

Cited by 30 publications

References 69 publications

Turnover of aberrant pre-40S pre-ribosomal particles is initiated by a novel endonucleolytic decay pathway

Turnover of aberrant pre-40S pre-ribosomal particles is initiated by a novel endonucleolytic decay pathway

Human AATF/Che-1 forms a nucleolar protein complex with NGDN and NOL10 required for 40S ribosomal subunit synthesis

The ribosome biogenesis factor yUtp23/hUTP23 coordinates key interactions in the yeast and human pre-40S particle and hUTP23 contains an essential PIN domain

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hUTP24 is essential for processing of the human rRNA precursor at site A1, but not at site A0

Cited by 30 publications

References 69 publications

Turnover of aberrant pre-40S pre-ribosomal particles is initiated by a novel endonucleolytic decay pathway

Turnover of aberrant pre-40S pre-ribosomal particles is initiated by a novel endonucleolytic decay pathway

Human AATF/Che-1 forms a nucleolar protein complex with NGDN and NOL10 required for 40S ribosomal subunit synthesis

The ribosome biogenesis factor yUtp23/hUTP23 coordinates key interactions in the yeast and human pre-40S particle and hUTP23 contains an essential PIN domain

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hUTP24 is essential for processing of the human rRNA precursor at site A₁, but not at site A₀