SMG-8 and SMG-9, two novel subunits of the SMG-1 complex, regulate remodeling of the mRNA surveillance complex during nonsense-mediated mRNA decay

Yamashita, Akio; Izumi, Natsuko; Kashima, Isao; Ohnishi, Tetsuo; Saari, Bonnie; Katsuhata, Yukiko; Muramatsu, Reiko; Morita, Tomoko; Iwamatsu, Akihiro; Hachiya, Takahisa; Kurata, Rie; Hirano, Hisashi; Anderson, Philip; Ohno, Shigeo

doi:10.1101/gad.1767209

Cited by 221 publications

(321 citation statements)

References 46 publications

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“…UPF2 and UPF3 required to bridge UPF1 and the EJC [17]. SMG1 kinase is regulated by SMG8 and SMG9 [30], but interactions of SMG1 and UPF2 have also been described [36]. Structural insights into the mechanism for detecting PTCs in the NMD pathway have been obtained mostly by X-ray crystallography studies.…”

Section: Discussionmentioning

confidence: 99%

“…In 2009, Shigeo Ohno, Akio Yamashita and colleagues at Yokohama University described two proteins, SMG8 and SMG9, that co-purified with SMG1 and which were essential for NMD [30]. In collaboration with Ohno and Yamashita, we have described the overall architecture of SMG1 and the modulation of its kinase activity by the interaction with SMG8 and SMG9 [31,32].…”

Section: Em Combined With Functional Assays Reveals Smg1 Kinase Regulmentioning

confidence: 99%

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Structural insights into nonsense-mediated mRNA decay (NMD) by electron microscopy

Llorca

2013

Current Opinion in Structural Biology

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Section: Discussionmentioning

confidence: 99%

Section: Em Combined With Functional Assays Reveals Smg1 Kinase Regulmentioning

confidence: 99%

Structural insights into nonsense-mediated mRNA decay (NMD) by electron microscopy

Llorca

2013

Current Opinion in Structural Biology

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“…When translation terminates at a PTC and an EJC is situated sufficiently downstream of the PTC so as not to be displaced by the terminating ribosome (8,9), a complex called suppressor with morphogenic effect on genitalia (SMG) 1−upframeshift 1 (UPF1)−eukaryotic release factor (eRF) 1−eRF3 (SURF) is thought to form at the PTC and, together with the downstream EJC, constitutes a decay-inducing complex (DECID) (10,11). The transient and/or weak interaction of mRNA capbound CBP80 with UPF1, which occurs on mRNAs even if they are not NMD targets, promotes UPF1 binding to eRF1−eRF3 and, subsequently, to an EJC (12).…”

mentioning

confidence: 99%

“…The transient and/or weak interaction of mRNA capbound CBP80 with UPF1, which occurs on mRNAs even if they are not NMD targets, promotes UPF1 binding to eRF1−eRF3 and, subsequently, to an EJC (12). Although SMG8 and SMG9 tightly associate with SMG1 to suppress its kinase activity (11,13), the EJC constituents UPF2 and UPF3 or UPF3X (also called UPF3a or UPF3b, respectively) augment the SMG1-mediated phosphorylation of UPF1 (10). Hyperphosphorylated UPF1 then binds to eIF3 of a 43S preinitiation complex, positioned at the translation initiation codon of the NMD target, to suppress further translation initiation events (14) and promote mRNA decay (15)(16)(17)(18).…”

mentioning

confidence: 99%

Rules that govern UPF1 binding to mRNA 3′ UTRs

Kurosaki

Maquat

2013

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

112

118

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Nonsense-mediated mRNA decay (NMD), which degrades transcripts harboring a premature termination codon (PTC), depends on the helicase up-frameshift 1 (UPF1). However, mRNAs that are not NMD targets also bind UPF1. What governs the timing, position, and function of UPF1 binding to mRNAs remains unclear. We provide evidence that (i) multiple UPF1 molecules accumulate on the 3′-untranslated region (3′ UTR) of PTC-containing mRNAs and to an extent that is greater per unit 3′ UTR length if the mRNA is an NMD target; (ii) UPF1 binding begins ≥35 nt downstream of the PTC; (iii) enhanced UPF1 binding to the 3′ UTR of PTC-containing mRNA relative to its PTC-free counterpart depends on translation; and (iv) the presence of a 3′ UTR exon-junction complex (EJC) further enhances UPF1 binding and/or affinity. Our data suggest that NMD involves UPF1 binding along a 3′ UTR whether the 3′ UTR contains an EJC. This binding explains how mRNAs without a 3′ UTR EJC but with an abnormally long 3′ UTR can be NMD targets, albeit not as efficiently as their counterparts that contain a 3′ UTR EJC.messenger ribonucleoprotein structure | RNA-binding protein | messenger RNA quality control I n mammalian cells, mRNAs and the pre-mRNAs from which they derive continually lose and acquire proteins in ways that reflect past and current metabolic states and influence future metabolic steps. For example, newly synthesized mRNAs, which support the pioneer round of translation, are bound by the capbinding protein (CBP) heterodimer CBP80−CBP20 and, provided they underwent splicing, exon-junction complexes (EJCs) (1). In contrast, the bulk of cellular mRNAs have lost CBP80−CBP20 and EJCs, have acquired eukaryotic translation initiation factor (eIF)4E in the place of CBP80−CBP20, and support most of cellular translation. CBP80 and EJCs are important for nonsensemediated mRNA decay (NMD), which down-regulates mRNAs that harbor either an exon-exon junction downstream of a termination codon (2, 3) and/or an abnormally long 3′ UTR (3-6). Thus, NMD targets newly synthesized mRNAs during the pioneer round of translation, whereas eIF4E-bound mRNAs appear to be immune to NMD (1, 3). This conclusion is supported by single-RNA fluorescent in situ-hybridization measurements of premature termination codon (PTC)-containing mRNAs in intact cells after the induction of mRNA synthesis (7).Messenger ribonucleoprotein (mRNP) remodeling also takes place during NMD. When translation terminates at a PTC and an EJC is situated sufficiently downstream of the PTC so as not to be displaced by the terminating ribosome (8, 9), a complex called suppressor with morphogenic effect on genitalia (SMG) 1−upframeshift 1 (UPF1)−eukaryotic release factor (eRF) 1−eRF3 (SURF) is thought to form at the PTC and, together with the downstream EJC, constitutes a decay-inducing complex (DECID) (10, 11). The transient and/or weak interaction of mRNA capbound CBP80 with UPF1, which occurs on mRNAs even if they are not NMD targets, promotes UPF1 binding to eRF1−eRF3 and, subsequently, to an EJC (12...

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“…In a screen using a C. elegans RNAi library, two essential NMD factors with an embryonic lethality phenotype were identified as smg lethal (smgl), named smgl-1 and smgl-2 (Longman et al 2007). In a more recent study, SMG8 and SMG9, two proteins that associate with the SMG1 complex, were identified and shown to be required for NMD in both mammals and nematodes (Yamashita et al 2009). All 11 genes are found in both worms and mammals.…”

Section: Introductionmentioning

confidence: 99%

Global analysis of alternative splicing uncovers developmental regulation of nonsense-mediated decay in C. elegans

Barberán-Soler¹,

Lambert²,

Zahler³

2009

RNA

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Alternative splicing coupled to nonsense-mediated decay (AS-NMD) is a mechanism for post-transcriptional regulation of gene expression. We analyzed the global effects of mutations in seven genes of the C. elegans NMD pathway on AS isoform ratios. We find that mutations in two NMD factors, smg-6 and smg-7, have weaker global effects relative to mutations in other smg genes. We did an in-depth analysis of 12 pre-mRNA splicing factor genes that are subject to AS-NMD. For four of these, changes in the ratio of alternatively spliced isoforms during development are caused by developmentally regulated inhibition of NMD, and not by changes in alternative splicing. Using sucrose gradient analysis of mRNAs undergoing translation, we find several examples of NMD-dependent enrichment of premature termination codon (PTC) isoforms in the monosome fraction. In contrast, we present evidence of two genes for which the PTC-containing isoforms are found in polysomes and have a translational profile similar to non-PTC-containing transcripts from the same gene. We propose that NMD of certain alternatively spliced isoforms is regulated, and that some stabilized NMD targets may be translated.

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SMG-8 and SMG-9, two novel subunits of the SMG-1 complex, regulate remodeling of the mRNA surveillance complex during nonsense-mediated mRNA decay

Cited by 221 publications

References 46 publications

Structural insights into nonsense-mediated mRNA decay (NMD) by electron microscopy

Structural insights into nonsense-mediated mRNA decay (NMD) by electron microscopy

Rules that govern UPF1 binding to mRNA 3′ UTRs

Global analysis of alternative splicing uncovers developmental regulation of nonsense-mediated decay in C. elegans

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