1、See online version for legend and references.246 Cell 128,March 23,2007 2007 Elsevier Inc.DOI 10.1016/j.cell.2007.03.011SnapShot:Notch Signaling Pathway Ma.Xenia G.Ilagan and Raphael KopanDepartment of Molecular Biology and Pharmacology,Washington University School of Medicine,St.Louis,MO 630,USASna
2、pShot:Notch Signaling Pathway Ma.Xenia G.Ilagan and Raphael KopanDepartment of Molecular Biology and Pharmacology,Washington University School of Medicine,St.Louis,MO 630,USA246.e Cell 128,March 23,2007 2007 Elsevier Inc.DOI 10.1016/j.cell.2007.03.011The Notch signaling pathway is a short-range comm
3、unication transducer that is involved in regulating many cellular processes(proliferation,stem cell and stem cell niche maintenance,cell fate specification,differentiation,and cell death)during development and renewal of adult tissues.Notch signaling is mediated by proteolysis and does not appear to
4、 involve any secondary messengers.However,depending on cellular context,the amplitude and timing of Notch activity can be regulated by posttranslational modifications to ligands and receptors and their trafficking.(1)Receptor MaturationNotch receptors are large single pass type I transmembrane prote
5、ins.Upon translation,the Notch protein is fucosylated by the chaperone O-fut,a modification es-sential for the production of a functional receptor.In cells expressing Fringe,the fucose is extended by the glycosyltransferase activity of Fringe,altering the ability of specific ligands to activate Notc
6、h(see below).The mature receptor undergoes proteolytic cleavage by protein convertases(PC5;Furin)at site 1(S1)and then is targeted to the cell surface as a heterodimer held together by noncovalent interactions.(2)Endosomal SortingSeveral mechanisms control the steady-state levels of the Notch recept
7、or at the cell surface and therefore regulate its availability for binding of ligand.For example,Numb,in cooperation with the AP2 component-adaptin and AP2-or Numb-associated kinase(NAK),can promote Notch endocytosis and degradation.Several E3 ubiquitin ligasesDeltex,Nedd4,Su(Dx)/Itch,Cbltarget Notc
8、h,shifting receptor trafficking toward degradation or recycling.Other proteins prevent inappropriate receptor activation in the absence of ligand binding.Mutations in certain ESCRT complex proteins lead to accumulation of Notch in endosomal vesicles,which surpris-ingly permits ectopic activation of
9、Notch via-secretase-dependent proteolysis(NICD*).Another protein,Lethal Giant Discs(LGD),is also required to maintain Notch in the OFF state.Therefore,ESCRT and LGD complexes are normally involved in Notch downregulation,indicating that endosomal sorting is a key way to restrict activation of Notch
10、to the cell surface and that defects in endosomal sorting may contribute to pathogenesis.SE,sorting endosome;RE,recycling endosome;MVB,multivesicular body.(3)Ligand MaturationNotch ligands are also type I transmembrane proteins characterized by an N-terminal DSL domain.The two major classes of ligan
11、ds are Delta and Jagged(Serrate in Drosophila),the latter containing a cysteine-rich domain.In addition to Delta and Jagged,the neural adhesion molecule F3/contactin,the related NB-3 protein,the EGF repeat protein DNER,and a diffusible protein in C.elegans have been identified as potential Notch lig
12、ands.Endocytic trafficking of the DSL ligands is crucial for en-hancing their signaling activity:Ligands are ubiquitinated by the E3 ubiquitin ligases,Neur and Mib,triggering Epsin-mediated endocytosis;an undefined modification produces an active ligand that recycles to the cell surface in a Rab11-d
13、ependent process.Current models explaining the nature of ligand modification include ligand clustering,posttranslational modifications,and/or recycling into specific membrane domains.(4)Regulated ProteolysisThe Notch receptor is activated by binding to a ligand presented by a neighboring cell.Produc
14、tive receptor-ligand interactions depend on the glycosylation state,for example,a Fringe-modified receptor may favor binding of Delta.Ligand endocytosis is thought to generate sufficient force to produce partial or complete domain dissociation,thereby exposing Notch to cleavage at site S2 by ADAM me
15、talloproteases(perhaps following heterodimer dissociation at S1).The Notch extracellular domain is transendocytosed into the signal-sending cell,whereas the membrane-anchored NEXT(Notch extracellular truncation)fragment is recognized by the inactive aminopeptidase domain of nicastrin(NCT),which tran
16、sfers NEXT to the active site of-secretase,an enzymatic complex composed of presenilin(PS),NCT,PEN2,and APH1.-secretase then cleaves the Notch transmembrane domain sequentially starting near the cytosolic surface(sites S3 and S4)to release the Notch intracellular domain(NICD)and N peptides,respectiv
17、ely.-secretase cleavage can occur at the cell surface or in endosomal compartments,perhaps following monoubiquitination.The apical polarity protein Crumbs appears to play a role in restricting-secretase activity thereby limiting the extent of Notch activation.Like many type I proteins,Notch ligands
18、are also subject to extracellular cleavage by ADAM proteases followed by transmembrane domain cleavage by-secretase.Ligand processing may be important to reduce its ability to antagonize Notch signaling in cis and for its downregulation and membrane clearance.Alternatively,it could generate biologic
19、ally active fragments,e.g.,soluble ligands(that may act as antagonists of Notch signaling)and/or ligand intracellular domain fragments.(5)Transcriptional Switch and Target Gene ExpressionIn the absence of NICD,the DNA-binding protein CSL associates with ubiquitous corepressor(Co-R)proteins and histo
20、ne deacetylases(HDACs)to repress transcrip-tion of target genes.When NICD enters the nucleus,its binding to CSL may trigger an allosteric change that facilitates displacement of transcriptional repressors.The NICD/CSL interface is then recognized by Mastermind(MAM),and this tri-protein complex recru
21、its coactivators(Co-A)such as histone acetylases(HATs),chromatin-remodeling factors,and a mediator complex to assemble an active transcription complex on target promoters.(6)Signal DownregulationDuring transcriptional activation,NICD is phosphorylated on its PEST domain by kinases such as CDK8 and t
22、argeted for proteasomal degradation by E3 ubiquitin ligases such as Sel10/Fbw7.This terminates the Notch signal and resets the cell for the next round of signaling.REfEREncESBray,S.J.(2006).Notch signalling:a simple pathway becomes complex.Nat.Rev.Mol.Cell Biol.7,678689.Ehebauer,M.,Hayward,P.,and Ma
23、rtinez-Arias,A.(2006).Notch signaling pathway.Sci.STKE 2006,cm7.Haines,N.,and Irvine,K.D.(2003).Glycosylation regulates Notch signalling.Nat.Rev.Mol.Cell Biol.4,786797.Kadesch,T.(2004).Notch signaling:the demise of elegant simplicity.Curr.Opin.Genet.Dev.14,506512.Kovall,R.A.(2007).Structures of CSL,
24、Notch and Mastermind proteins:piecing together an active transcription complex.Curr.Opin.Struct.Biol.17,117127.Le Borgne,R.(2006).Regulation of Notch signalling by endocytosis and endosomal sorting.Curr.Opin.Cell Biol.18,213222.Lubman,O.Y.,Korolev,S.V.,and Kopan,R.(2004).Anchoring notch genetics and
25、 biochemistry;structural analysis of the ankyrin domain sheds light on existing data.Mol.Cell 13,619626.Mumm,J.S.,and Kopan,R.(2000).Notch signaling:from the outside in.Dev.Biol.228,151165.Schweisguth,F.(2004).Regulation of notch signaling activity.Curr.Biol.14,R129R138.Wilkin,M.B.,and Baron,M.(2005).Endocytic regulation of Notch activation and down-regulation(review).Mol.Membr.Biol.22,279289.AcknowLEDGMEnTSM.X.G.I.,R.K.,and Washington University may receive income based on a license of Notch-related technology by the University to Merck.Merck did not support this work.