1、SnapShot:Nonsense-Mediated mRNA DecaySbastien Durand and Jens Lykke-AndersenDivision of Biology,University of California San Diego,La Jolla,CA 92093,USASee online version for legend and references.324 Cell 145,April 15,2011 2011 Elsevier Inc.DOI 10.1016/j.cell.2011.03.038 P PPP PPP PPPm7Gm7Gm7Gm7Gm7
2、Gm7GAUGAUGAUGm7Gm7Gm7GTranslationterminationSubstraterecognitionNMD mRNPassemblyIMPORTANT FACTORSmRNP/Translation factorsCBC Cap binding complexeIF4F Initiation factor 4FeRF1,3 Release factors 1 and 3PAB Poly(A)binding proteinEJC Exon-junction complexUpf1 Superfamily 1 helicaseUpf2-3 Upf2 and Upf3Sm
3、g1 PI3K-like kinaseSmg6 EndonucleaseSmg5,7 (Ebs1p)Decay factor recruitmentUpf1 phosphorylation?Ebs1p recruitment?Smg5-7,PNRC2,decay factor recruitmentPNRC2Dcp1-2Dcp1-2Upf2-3Upf2-3Smg5,7Ebs1p?Smg6Xrn1ExosomeXrn1ExosomeCBC only?eIF4FTerTerEJCUpf1Upf1Smg1PABPABPABPABeRF1,3eRF1,3Upf2-3ATPADP+PiATPADP+Pi
4、Upf1 phosphorylation(Smg1)SURFDECIDAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAUGAUGAUGAUGAUGAUGAUGAUGTerAUGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAEndocleavage(Smg6),Decapping and deadenylation,mRNP dissasembly DecappingdeadenylationP bodyCompletion of decayCompletion of decayContinued trans
5、lationDcp1-2 Decapping complexPNRC2 Upf1-Dcp1-2 linkXrn1 5-to-3 exonucleaseExosome 3-to-5 exonucleaseNMD factorsmRNA decay factorsNMD mRNPdisassemblyand decaySaccharomyces cerevisiaeHomo sapiensSnapShot:Nonsense-Mediated mRNA DecaySbastien Durand and Jens Lykke-AndersenDivision of Biology,University
6、 of California San Diego,La Jolla,CA 92093,USA324.e1 Cell 145,April 15,2011 2011 Elsevier Inc.DOI 10.1016/j.cell.2011.03.038 The nonsense-mediated mRNA decay(NMD)pathway serves an important function in mRNA quality control by ridding the cell of aberrant mRNAs that encode truncated proteins due to p
7、remature translation termination codons(PTCs).PTC-containing mRNAs arise from errors in transcription or pre-mRNA processing or from mutation or recombination events within protein-coding genes.They are also produced from alternative pre-mRNA splicing events.In addition,a subset of normally expresse
8、d mRNAs are downregulated by the NMD pathway(reviewed in Chang et al.,2007;Lejeune and Maquat,2005).This SnapShot summarizes current insights into the mechanism by which the NMD pathway identifies and degrades target mRNAs,highlighting similarities and differences between the pathway in the budding
9、yeast Saccharomyces cerevisiae and human cells.Translation Termination/Substrate RecognitionThe mechanism by which the NMD machinery discriminates target mRNAs from other cellular mRNAs has been intensely studied but remains enigmatic.The key step is the translation termination event.Evidence sugges
10、ts that the composition of the mRNP downstream of the terminating ribosome plays a critical role in determining whether the mRNP is targeted for NMD or is allowed to continue translation(reviewed in Amrani et al.,2006;Nicholson et al.,2010;Rebbapragada and Lykke-Andersen,2009).In budding yeast and h
11、uman cells,as well as in cells of the fly Drosophila melanogaster,cytoplasmic poly(A)-binding protein(PABPC)antagonizes NMD when the poly(A)tail is close to the termination codon,thereby placing PABPC in proximity to the termination event.However,mRNP components other than PABPC must also affect NMD
12、 substrate recognition because PABPC is not required for the discrimination between normal mRNAs and NMD substrates in budding yeast.Moreover,some mRNAs that contain long 3UTRs,placing the poly(A)tail distal to the termination codon,are resistant to NMD in human cells(reviewed in Nicholson et al.,20
13、10;Rebbapragada and Lykke-Andersen,2009).In vertebrates,an exon junction complex(EJC),loaded on mRNAs upstream of exon-exon junctions as a consequence of pre-mRNA splicing,stimulates NMD when posi-tioned downstream of the translation termination event.It is currently unclear whether the EJC stimulat
14、es NMD through substrate recognition or at a downstream step in the pathway.The EJC is likely an evolutionary adaptation in the NMD pathway,as no EJC has been observed in budding yeast,and the EJC does not appear to be important for NMD in the fission yeast Schizosaccharomyces pombe or in the worm C
15、aenorhabditis elegans(reviewed in Lejeune and Maquat,2005;Nicholson et al.,2010;Rebbapragada and Lykke-Andersen,2009).Another level at which mammalian and budding yeast NMD substrate recognition may differ is in regards to how long translating mRNPs remain sensi-tive to NMD.According to the pioneer
16、round of translation model for NMD,mRNAs are,in mammalian cells but not in budding yeast,only sensitive to NMD before the nuclear cap-binding complex(CBC)has been replaced with the cap-binding translation initiation factor eIF4E(reviewed in Maquat et al.,2010).NMD mRNP AssemblyTargeting of an mRNA f
17、or NMD is initiated by the assembly of an NMD mRNP.The most central component of the NMD pathway is the superfamily 1 helicase Upf1(reviewed in Amrani et al.,2006;Nicholson et al.,2010;Rebbapragada and Lykke-Andersen,2009).Upf1 forms an interaction with translation release factors eRF3 and eRF1,in w
18、hat is thought to be an early event in the formation of an NMD mRNP.In mammalian cells,a phosphoinositide 3-kinase(PI3K)-like kinase,Smg1,which phosphorylates Upf1 at multiple S/TQ motifs,has also been observed in complex with Upf1 and eRFs 1 and 3,in what has been named the SURF complex.Smg1 is con
19、served between metazoans.In budding yeast,phosphorylated Upf1,but no Smg1 ortholog,has been observed.Two other central and conserved components of the NMD pathway are Upf2 and Upf3.These form a complex with one another and with Upf1.In metazoans,Upf2 and Upf3 stimulate Smg1-mediated phosphorylation
20、of Upf1.In mammals,the EJC interacts with the Upf2-Upf3 complex and also stimulates Upf1 phosphorylation,which likely contributes to the mechanism by which the EJC stimulates mammalian NMD(reviewed in Nicholson et al.,2010;Rebbapragada and Lykke-Andersen,2009).Phosphorylated Upf1 subsequently serves
21、 as a recruitment platform for Smg5,Smg6,and Smg7 proteins(reviewed in Nicholson et al.,2010;Rebbapragada and Lykke-Andersen,2009).These proteins contain 14-3-3-like domains,which,as shown in the case of Smg7,promote direct interaction with phosphorylated residues in Upf1.In addi-tion,human Smg6 dir
22、ectly interacts with the EJC(Kashima et al.,2010).Evidence suggests that Smg57 proteins serve as a link between phosphorylated Upf1 and cellular mRNA decay machineries.Smg6 possesses a PIN domain with intrinsic endonuclease activity,and Smg7 can promote cellular decapping and 5-to-3 exonuclease acti
23、vities.An additional protein in human cells,PNRC2,interacts with phospho-Upf1 and components of the decapping complex(reviewed in Nicholson et al.,2010;Rebbapragada and Lykke-Andersen,2009).In addition to recruiting Smg57 and PNRC2 proteins,phosphorylated Upf1 has also been reported to repress trans
24、lation initiation on mammalian NMD mRNPs via an interaction with translation initiation factor eIF3(Isken et al.,2008).The importance of Upf1 phosphorylation in budding yeast is unclear,but a presumed budding yeast ortholog of Smg7 called Ebs1p stimulates,but is not critical for,NMD(reviewed in Nich
25、olson et al.,2010;Rebbapragada and Lykke-Andersen,2009).NMD mRNP Disassembly and DecayThe degradation of the NMD mRNP can be initiated by alternative mechanisms.In human and D.melanogaster cells,a major event appears to be endonucleolytic cleavage near the PTC by Smg6.However,evidence for initiation
26、 of mRNA decay by decapping and deadenylation has also been reported in human cells.In budding yeast,the major mRNA decay-initiating event appears to be decapping,although deadenylation is also stimulated.After the mRNA decay-initiating event,degradation of the NMD substrate is completed by the 5-to
27、-3 exonuclease Xrn1 and/or the 3-to-5 exonuclease,the exosome(reviewed in Chang et al.,2007;Lejeune and Maquat,2005;Nicholson et al.,2010;Rebbapragada and Lykke-Andersen,2009).In human cells,the completion of 5-to-3 exonucleolytic decay by Xrn1 following endonucleolytic cleavage by Smg6 requires Upf
28、1 ATPase-dependent disassembly of the NMD mRNP(Franks et al.,2010).It is unclear at which step during the NMD pathway that ATP hydrolysis by Upf1 takes place.However,the Upf1 ATPase is stimulated by the Upf2-Upf3 complex,suggesting that a transition taking place in the NMD mRNP regulates the timing
29、of mRNP disassembly and decay.In budding yeast,the Upf1 ATPase likely acts in a similar manner,as in the absence of Upf1 ATPase activity,both human and budding yeast NMD mRNPs,like many other mRNPs stalled during mRNA decay,accumulate in cytoplasmic mRNP granules called P bodies(reviewed in Nicholso
30、n et al.,2010;Rebbapragada and Lykke-Andersen,2009).Another event that occurs late in the NMD pathway in metazoans is the dephosphorylation of Upf1.Upf1 dephosphorylation is impaired in the absence of Smg57 proteins and of Upf1 ATPase activity,suggesting that Smg57 stimu-late Upf1 dephosphorylation
31、sometime after the remodeling of the mRNP by the Upf1 ATPase(reviewed in Nicholson et al.,2010;Rebbapragada and Lykke-Andersen,2009).Future QuestionsSeveral questions remain in understanding the mechanism of the NMD pathway.For example,it remains unclear exactly how a premature termination event lea
32、ds to the formation of an NMD mRNP and why this does not occur during normal termination.Early ideas implicated differences in recruitment of Upf proteins,but a more recent study suggests that differences in activation of Upf1 downstream of recruitment may contribute to substrate differentiation(Hog
33、g and Goff,2010).It also remains to be determined how Upf1 phosphorylation,dephosphorylation,and ATPase activity are coordinated on the NMD mRNP to ensure an ordered sequence of mRNP remodeling events and initiation of mRNA decay prior to mRNP disassembly.Also,what determines which of the alternativ
34、e mRNA decay initiating events is activated in different organisms and under different conditions?Finally,is NMD a regulated process?The observation that human NMD target mRNAs show differences in their reliance of individual NMD factors(reviewed in Chang et al.,2007)leaves open the possibility that
35、 subsets of NMD substrates could be coregulated under various conditions.Answering these questions should not only provide more detailed insights into the NMD pathway,but should also help our understanding of mechanisms of mRNA decay in general.AcknowledgmentsWe thank Dr.Suzanne Lee for helpful comm
36、ents.Work on NMD in the J.L.-A.lab is supported by a grant from the National Science Foundation(MCB-0946464).SnapShot:Nonsense-Mediated mRNA DecaySbastien Durand and Jens Lykke-AndersenDivision of Biology,University of California San Diego,La Jolla,CA 92093,USA324.e2 Cell 145,April 15,2011 2011 Else
37、vier Inc.DOI 10.1016/j.cell.2011.03.038 RefeRencesAmrani,N.,Sachs,M.S.,and Jacobson,A.(2006).Early nonsense:mRNA decay solves a translational problem.Nat.Rev.Mol.Cell Biol.7,415425.Chang,Y.F.,Imam,J.S.,and Wilkinson,M.F.(2007).The nonsense-mediated decay RNA surveillance pathway.Annu.Rev.Biochem.76,
38、5174.Franks,T.M.,Singh,G.,and Lykke-Andersen,J.(2010).Upf1 ATPase-dependent mRNP disassembly is required for completion of nonsense-mediated mRNA decay.Cell 143,938950.Hogg,J.R.,and Goff,S.P.(2010).Upf1 senses 3UTR length to potentiate mRNA decay.Cell 143,379389.Isken,O.,Kim,Y.K.,Hosoda,N.,Mayeur,G.
39、L.,Hershey,J.W.,and Maquat,L.E.(2008).Upf1 phosphorylation triggers translational repression during nonsense-mediated mRNA decay.Cell 133,314327.Kashima,I.,Jonas,S.,Jayachandran,U.,Buchwald,G.,Conti,E.,Lupas,A.N.,and Izaurralde,E.(2010).SMG6 interacts with the exon junction complex via two conserved
40、 EJC-binding motifs(EBMs)required for nonsense-mediated mRNA decay.Genes Dev.24,24402450.Lejeune,F.,and Maquat,L.E.(2005).Mechanistic links between nonsense-mediated mRNA decay and pre-mRNA splicing in mammalian cells.Curr.Opin.Cell Biol.17,309315.Maquat,L.E.,Tarn,W.Y.,and Isken,O.(2010).The pioneer
41、 round of translation:features and functions.Cell 142,368374.Nicholson,P.,Yepiskoposyan,H.,Metze,S.,Zamudio Orozco,R.,Kleinschmidt,N.,and Mhlemann,O.(2010).Nonsense-mediated mRNA decay in human cells:mechanistic in sights,functions beyond quality control and the double-life of NMD factors.Cell.Mol.Life Sci.67,677700.Rebbapragada,I.,and Lykke-Andersen,J.(2009).Execution of nonsense-mediated mRNA decay:what defines a substrate?Curr.Opin.Cell Biol.21,394402.
