THEJOURNALOFBIOLOGICALCHEMISTRY VOL.289,NO.29,pp.19958–19975,July18,2014 ©2014byTheAmericanSocietyforBiochemistryandMolecularBiology,Inc. PublishedintheU.S.A. Amigo Adhesion Protein Regulates Development of Neural Circuits in Zebrafish Brain* Receivedforpublication,December23,2013,andinrevisedform,June3,2014Published,JBCPapersinPress,June5,2014,DOI10.1074/jbc.M113.545582 XiangZhao‡1,JuhaKuja-Panula‡,MariaSundvik‡§,Yu-ChiaChen‡§,VilmaAho¶,MarjaanaA.Peltola‡, TarjaPorkka-Heiskanen¶,PerttiPanula‡§,andHeikkiRauvala‡2 Fromthe‡NeuroscienceCenter,§InstituteofBiomedicine/Anatomy,and¶InstituteofBiomedicine/Physiology,Universityof Helsinki,HelsinkiFIN-00014,Finland Background:Amigosaretransmembraneproteinssuggestedtomediateadhesiveinteractionsofcells. Results:Down-regulationofAmigoproteinexpressionorinhibitionofitsfunctionresultsindefectsoffiberpathwaydevelop- mentanddisturbedlocomotorfunctionsinzebrafish. Conclusion:TheneuralformofAmigoisrequiredforconstructionoffunctionalneuralcircuitries. Significance:Amigoisidentifiedasanovelfactorthatregulatesformationofneuronalconnections. TheAmigoproteinfamilyconsistsofthreetransmembrane haverecentlygainedincreasinginterestaskeyfactorsguiding proteinscharacterizedbysixleucine-richrepeatdomainsand developmentofneuronalconnectivity(forarecentreview,see one immunoglobulin-like domain in their extracellular moi- Ref. 1). LRR domains are protein-protein interaction motifs eties.Previousinvitrostudieshavesuggestedaroleashomo- thathavebeenimplicatedindevelopmentandplasticityoffiber philicadhesionmoleculesinbrainneurons,buttheinvivofunc- tracts,recognitionofaxontargets,synaptogenesis,anddisor- tionsremainunknown.Herewehaveclonedallthreezebrafish dersofthenervoussystem.Slitproteins(Slit1–3),Trkrecep- amigosandshowthatamigo1isthepredominantfamilymem- tors(TrkA,TrkB,andTrkC),andNogoreceptor1(NgR1)are berexpressedduringnervoussystemdevelopmentinzebrafish. among the most studied LRR proteins in the nervous system Knockdown of amigo1 expression using morpholino oligonu- development(2,3). cleotides impairs the formation of fasciculated tracts in early AMIGO(amphoterin-inducedgeneandopenreadingframe) fiberscaffoldsofbrain.Asimilardefectinfibertractdevelop- wasfoundbyordereddifferentialdisplayasatranscriptup-reg- mentiscausedbymRNA-mediatedexpressionoftheAmigo1 ulatedinrathippocampalneuronsthatextendneuritesupon ectodomain that inhibits adhesion mediated by the full- ligation of the transmembrane receptor RAGE (receptor for length protein. Analysis of differentiated neural circuits advanced glycation end products) by amphoterin (HMGB1; reveals defects in the catecholaminergic system. At the high mobility group box-1) or by anti-RAGE antibodies (4). behaviorallevel,thedisturbedformationofneuralcircuitryis Together with two homologous proteins, the three AMIGOs reflectedinenhancedlocomotoractivityandintheinability (AMIGO1–3)formanovelfamilyoftransmembraneLRRpro- ofthelarvaetoperformnormalescaperesponses.Wesuggest teins.ThethreeAMIGOsdisplayabout50%sequencesimilar- that Amigo1 is essential for the development of neural cir- itycomparedwitheachother,andtheyhavethesamedomain cuitsofzebrafish,whereitsmechanisminvolveshomophilic organization,withsixextracellularLRRmotifsandoneimmu- interactionswithinthedevelopingfibertractsandregulation noglobulin-like (Ig) domain, another protein motif that is of the Kv2.1 potassium channel to form functional neural widelyexpressedinneuralrecognitionmolecules(5).InBLAST circuitrythatcontrolslocomotion. searches using the AMIGO1 ectodomain to identify homolo- gous proteins outside of the AMIGO family, the best fits are found for the axon-guiding Slit proteins and the Nogo-66 Developmentoffunctionalneuralcircuitsdependsonspa- receptor(NgR1). tiallyandtemporallyprecisecellularinteractionsmediatedbya AMIGO1andAMIGO2arehighlyexpressedinthemamma- widevarietyofsecretedandmembrane-boundfactors.Proteins liannervoussystem,whereasAMIGO3displaysabroadexpres- containing extracellular leucine-rich repeat (LRR)3 domains sion pattern in different tissues (4, 6, 7). In vitro studies have suggestedthatAMIGO1actsasahomophilicadhesionmole- *ThisworkwassupportedbytheAcademyofFinlandandtheSigridJusélius cule that induces outgrowth and fasciculation of neurites in Foundation. central neurons (4). The crystal structure of the AMIGO1 1Supported by the Doctoral Program in Brain and Mind of the Doctoral dimer has recently revealed that homophilic binding of SchoolinHealthSciences. AMIGO1 occurs through its LRR domains (8). In addition, 2Towhomcorrespondenceshouldbeaddressed:NeuroscienceCenter,P.O. Box56(Viikinkaari4),FIN-00014UniversityofHelsinki,Finland.Tel.:358-9- AMIGO1andAMIGO2(alsodesignatedasAlivin1)havebeen 19157621;Fax:358-9-19157620;E-mail:[email protected]. reportedtoenhancesurvivalofneuronsinculture(9,10).Fur- 3Theabbreviationsusedare:LRR,leucine-richrepeat;CA,catecholaminergic; thermore, AMIGO1 has recently been found to bind to the DiV,diencephalonventricle;dpf,day(s)postfertilization;hpf,hour(s)post- fertilization;Igdomain,immunoglobulin-likedomain;MBP,maltose-bind- ing protein; MLCT, medial longitudinal catecholaminergic tract; MLF, medial longitudinal fasciculus; MO, medulla oblongata; POC, postoptic PCR, quantitative RT-PCR; SLC, short latency C-start; LLC, long latency commissure;TH,tyrosinehydroxylase;vcc,ventralcaudalcellcluster;qRT- C-start;ANOVA,analysisofvariance. This is an Open Access article under the CC BY license. 19958 JOURNALOFBIOLOGICALCHEMISTRY VOLUME289•NUMBER29•JULY18,2014 AmigoinBrainDevelopment Kv2.1 potassium channel and to affect excitability of central and 5(cid:2)-AGC GAC AGG GAG TCA AGT AG-3(cid:2). The zebra neuronsviatheKv2.1interactions(11). fish (cid:2)-actin (AF057040.1, GI:3044209), elongation factor 1 Despiteseveralinvitrofindingsprovidingcluestodevelop- (cid:3)1 (zgc:109885, GI:90652818), and ribosomal protein L13a mental roles of the AMIGOs, their in vivo functions remain (BC047855.1,GI:28838761)weresetastemplatequantitycon- unknown. In the current study, we have used the zebrafish trols,andthesameprimerswereusedasdescribedpreviously model to study Amigo functions in nervous system develop- (12).ThePCRswereprocessedwiththeBio-RadCFX96real- ment. We have cloned all three amigo genes of zebrafish and time PCR machine using the CFX96TM real-time PCR detec- focusedourfunctionalstudiesonamigo1,whichwasfoundto tionsystem.Thethreeconstructedamigoplasmidspreparedin bethemajormemberofthegenefamilyexpressedinzebrafish differentdilutions(from1mg/mlto0.1(cid:4)g/ml)inmilli-Qwater duringthenervoussystemdevelopment.Usingthemorpholino wereusedasstandardsforqPCR.Theamigo1expressionlevel knockdown approach and expression of the Amigo1 ectodo- normalizedto(cid:2)-actinin1dpflarvaewassetas1. mainasadominantnegativereceptor,weshowthatAmigo1is Cloningofamigo1andkv2.1mRNAs—Thefull-lengthopen essential for the development of fiber tracts in the zebrafish reading frame mRNA construct encoding Amigo1 was pre- brain. paredbyRT-PCRwithprimers5(cid:2)-ATAAGATCTATGCCC CCTTCCATTAATTG-3(cid:2)and5(cid:2)-AAGAATTCCCGGTCA EXPERIMENTALPROCEDURES AAAGATACACATCCTC-3(cid:2).TheconstructincludesBglII Animals—Anoutbredzebrafish(Daniorerio)strainfroma and EcoRI restriction sites on both sides of the amigo1 first local resource, the Turku line, was used in this study for its strand cDNA in the full-length transcript. These restriction steadyyieldofembryos(12).Fishfeeding,breeding,andmain- siteswereusedforinsertionintothepMCexpressionvector, tenance were done according to an established protocol (13). whichcapstheinsertedfragmentwiththesequenceelements TheexperimentpermitswereobtainedfromtheUniversityof ofthe(cid:2)-globin5(cid:2)-UTRand3(cid:2)-UTRonbothofitssidesandin HelsinkiCommitteeforanimalexperimentsandtheNational additiontheSV40poly(A)signalatthe3(cid:2)-tail.Thiselevatesthe AnimalExperimentBoardinagreementwiththeethicalguide- transcribed mRNA stability and activity about 100-fold in linesoftheEuropeanConvention.Embryosofeithersexwere mRNA injection experiments (14). The mRNA encoding the stagedaccordingtothenumberofhourspostfertilization(hpf) Amigo1ectodomainwaspreparedwithprimers5(cid:2)-ATAAGA ordayspostfertilization(dpf).Topreventpigmentformation, TCTATGCCCCCTTCCATTAATTG-3(cid:2)and5(cid:2)-ATGAAT 0.2mM1-phenyl-2-thiourea(Sigma)wasaddedtothemedium TCT CAG CCA TTG CCG TTG AGG-3(cid:2). GFP mRNA was ofembryosafterspawning. used as another control in mRNA rescue experiments, and it Cloning of amigo Genes and Quantitative RT-PCR—Ze- was prepared using the pEGFP-C1 vector. All mRNAs were brafish orthologs were found by BLASTing the peptide preparedusingthemMessagemMachinekit(Ambion,Austin, sequencesofthemammalianAMIGOproteinsusingtheUCSC TX)accordingtothemanufacturer’sinstructions. genome browser and Ensembl zebrafish ZV9 database. Total The full-length kv2.1 cDNA (ZDB-GENE-090831-3) was RNA from 1–8-dpf larvae was extracted and reverse-tran- prepared by RT-PCR with primers 5(cid:2)-ATA AGC TTC CCT scribed.ThesubsequentPCRwasperformedasdescribedpre- CGGCAGGAATGAGTAA-3(cid:2)and5(cid:2)-ATGGATCCTCAA viously(12).RNAqualityandamountwereanalyzedspectro- AGGCCCTTATCAAAAG-3(cid:2)andclonedintopMCexpres- photometrically by a NanoVue Plus spectrophotometer (GE sion vector. A cDNA fragment encoding the N terminus and Healthcare).Theprimers5(cid:2)-ATGCCCCCTTCCATTAAT the transmembrane loops of the Kv2.1 protein (432 amino TG-3(cid:2) and 5(cid:2)-CCG GTC AAA AGA TAC ACA TCC TC-3(cid:2) acids)wasclonedintopMal-c2Evector(NewEnglandBiolabs were used for cloning the full-length coding sequence of Inc.) for Kv2.1 ectodomain-maltose-binding protein (MBP) amigo1(ENSDARG00000079620).Theprimers5(cid:2)-ATGACC recombinantexpressionwithprimers5(cid:2)-ATGGATCCCCCT TCG ACA TCT TGC ATG GTT-3(cid:2) and 5(cid:2)-GAT TCA AAC CGGCAGGAATGAGTAA-3(cid:2)and5(cid:2)-ATAAGCTTCTTG AAG CAG GAT TTT AAG G-3(cid:2) were used for cloning the ATGGCCTTCTCTTGT-3(cid:2). full-length coding sequence of the second gene that displays Antibodies against Amigo1 and Kv2.1—Chicken polyclonal clear homology compared with the amigo genes (ENS- antibodies were produced against the zebrafish Amigo1 DARG00000079569;designatedhereasamigo3a).Theprimers (Agrisera,Sweden)usingAmigo1ectodomain-GST(glutathi- 5(cid:2)-ATGCTGTGTGCTCAGGGTGTGGC-3(cid:2)and5(cid:2)-TCA one S-transferase) fusion protein as the antigen. In order to TCTCTCTGATTCTATGTGCTTTCCT-3(cid:2)wereusedfor makeahighqualityantigen,theAmigo1extracellularcoding cloningthefull-lengthcodingsequenceofthethirdhomologous sequence was cloned into pGEX-2TK GST fusion vector (GE gene(ENSDARG00000074469;designatedhereasamigo3b).The Healthcare)usingtheprimers5(cid:2)-ATAGGATCCTGCGCC PCRproductswerepurifiedwiththeMinEluteGelExtractionkit AGCAACATTGTCAG-3(cid:2)and5(cid:2)-ATGAATTCTCAGCCA (Qiagen,Hilden,Germany),ligatedtothepGEM-Teasyplasmid TTGCCGTTGAGG-3(cid:2)toaddtheBamHIandEcoRIrestric- (Promega),andsequenced. tion sites on both sides of the coding sequence. The Amigo1 The quantitative RT-PCR (qRT-PCR) primers of amigo1 ectodomain-MBPfusionproteinwasproducedbycloningthe were5(cid:2)-TCGCCGTGAGTGAATACCTC-3(cid:2)and5(cid:2)-TGC codingsequenceintopMAL-c2Evector.Theprimers5(cid:2)-ATG CAA GCA ACC CAC CAA A-3(cid:2). The qPCR primers of AATTCTGCGCCAGCAACATTGTCAG-3(cid:2)and5(cid:2)-ATA amigo3awere5(cid:2)-GGCTGTGTTGTGACCCTTGT-3(cid:2)and GGATCCTCAGCCATTGCCGTTGAGG-3(cid:2)wereusedfor 5(cid:2)-GATGAGATGGCTGGAGATGGA-3(cid:2).TheqPCRprim- addingEcoRIandBamHIonbothsidesofthecodingsequence. ersofamigo3bwere5(cid:2)-ACACTGGCTTCACCACACT-3(cid:2) TheplasmidsweretransformedintoEscherichiacoliXL-1blue JULY18,2014•VOLUME289•NUMBER29 JOURNALOFBIOLOGICALCHEMISTRY 19959 AmigoinBrainDevelopment strain by electroporation (Bio-Rad) for Amigo1 ectodomain- Whole Mount in Situ Hybridization—Whole mount in situ GST/MBPrecombinantexpression.Therecombinantprotein hybridization was carried out as described previously (15), waspurifiedusingtwodifferentaffinitycolumns(GSTorMBP usingthespecificprobes(16)ofpax2a(theZIRCcb378),pax6a tag).ThepurifiedAmigo1ectodomain-GST/MBPfusionpro- (ZIRC cb280), and krox20 (ZIRC cb427). Larvae at 28 hpf teinwasanalyzedonSDS-PAGEstainedwithCoomassieBlue (Prim-5)and2dpf(Long-pec)stageswereusedintheexperi- (Invitrogen). ments. The probe for the detection of amigo1 expression TheIgYantibodiesintheimmunizedeggyolkwerefirstpuri- was obtained from the cDNA clone encoding the Amigo1 fiedbyammoniumsulfateprecipitation.Inaffinitypurification, ectodomain. thefirststepwascarriedoutonanaffinitycolumnloadedwith Detection of Apoptosis and Proliferation—A fluorometric Amigo1 ectodomain-GST fusion protein. The second step in TUNELsystem(DeadEndTM,Promega)wasusedforstaining affinitypurificationwascarriedoutonanotheraffinitycolumn ofapoptosisinwholemounts,andEdustaining(Click-iTEdu loaded with Amigo1 ectodomain-MBP fusion protein to AlexaFluor555,Invitrogen)wasusedfordetectionofcellpro- excludetheproteinsthatbindnonspecificallytotheGSTtag. liferation in whole mounts. Apoptosis and proliferation were The purified zebrafish Amigo1 antibodies were diluted to 1 exploredaccordingtotheprotocolrecommendedbytheman- mg/mlaliquotscontaining0.01%NaN andstoredat(cid:3)80°C. ufacturer(12). 3 Monoclonal anti-Kv2.1 antibodies (K39/25) were obtained MorpholinoOligonucleotideandmRNAInjections—Knock- from the NeuroMab facility (University of California, Davis/ downexperimentsofamigo1werecarriedoutwithtranslation- NationalInstitutesofHealth). blockingantisensemorpholinooligonucleotides(MOs)(Gene Western Blotting and Co-immunoprecipitation—Zebrafish Tools)targetedtothe5(cid:2)-upstreamsequenceflankingthetrans- Amigo1antibodies(1:1000correspondingto1(cid:4)g/ml)andthe lation start site (MO1, 5(cid:2)-GGC ATT TCT GAC ACG CAG purifiedmonoclonalKv2.1antibodies(2(cid:4)g/ml)wereusedfor TTA AAA T-3(cid:2); MO2, 5(cid:2)-TGT GGT TGT AGC ACA AGT Western blotting and for co-immunoprecipitation that was CAT AAA C-3(cid:2)) of theamigo1 transcript. To knock down carriedoutaccordingtoapreviouslydescribedprotocol(11). amigo3bexpression,thetranslation-blockingMOwas5(cid:2)-GGC Dithiobis(succinimidyl propionate) cross-linking (Pierce) was CAC ACC CTG AGC ACA CAG CAT T-3(cid:2). The 5-mispair appliedasbefore(11).Anti-HNK-1antibodies(C0678,1:500; oligonucleotide5misMO,GcCATTTgTGAgACcCAcTTA mousemonoclonal,Sigma-Aldrich)andanti-acetylatedtubu- AAAT-3(cid:2)(mispairsareinlowercasetype),wasusedasanMO lin(6-11B-1mousemonoclonal,1:1000;Sigma-Aldrich)were injection control. Cloning of the mRNAs encoding the full- usedtodetectzebrafishaxonogenesisandaxonaldevelopment length Amigo1 and the ectodomain of Amigo1 (mRNA and inWesternblottingandwholemountimmunostaining.Mouse EmRNA,respectively)isexplainedabove. monoclonal anti-(cid:2)-actin antibody (A2228, 1:1000; Sigma-Al- MicroinjectionsoftheMOsandthemRNAsintozebrafish drich)wasusedasthecontrolofsampleloading.Thezebrafish embryoswerecarriedoutasdescribedpreviously(12).Anali- tissue preparation and Western blotting were carried out as quotof4nlofthemixture(correspondingto4ngofMOswhen describedpreviously(12,13). 100Msolutionwasused)wasinjectedintotheyolkofa1–4-cell Immunocytochemistry—Mouse monoclonal anti-tyrosine embryo that was allowed to develop at 28.5°C. For Amigo1 hydroxylase(TH)antibody(Diasorin,Stillwater,MN)wasused mRNAandGFPmRNAinjections,0.1–0.2(cid:4)g/(cid:4)lmRNAwas forthewholemountstainingofthecatecholaminergicsystem mixedwithinjectionsolutionafterheating.Theinjectioncon- in3dpflarvalbrainsasdescribedearlier(12).Themouseanti- centration was tested for eliminating ubiquitous overexpres- 3A10 (1:100; Developmental Studies Hybridoma Bank), sioneffects(12).ForKv2.1mRNAinjections,0.1(cid:4)g/(cid:4)lmRNA chicken anti-Amigo1 antibodies (5 (cid:4)g/ml), and anti-HNK-1 wasmixedwiththeinjectionsolution. antibodies(1:100)wereusedforwholemountimmunostaining MicroscopyandImageAnalysis—Confocalimagingoflarvae ofzebrafishlarvae.TheAmigo1ectodomain-MBPfusionpro- stainedwithanti-THandanti-Amigo1antibodieswascarried teinwaspurifiedandusedasacompetingantigeninantibody out as described (12). Zeiss LSM710 Pascal confocal micros- binding(100(cid:4)g/ml).Forimmunohistochemistryofthelarvae, copysystemwasusedforimaginglarvalsamplesstainedwith thesampleswerefixedin2%paraformaldehydefor2hatroom anti-3A10 antibodies and anti-HNK1 antibodies. Stacks of temperatureandthenwashedandpreincubatedinphosphate- imagestakenat0.6–1.2-(cid:4)mintervalswerecompiledtomake bufferedsalinecontaining0.1%Tween20(PBS-T,pH7.4)with maximumintensityprojectionimages.Specimensfrominsitu 1%dimethylsulfoxide(DMSO)and4%normalgoatserumat hybridization were examined with inverted light microscopy 4°Covernightorlonger.Thespecimenswereincubatedwith usingOlympusIX70connectedthroughaCCDcameratothe the primary antibodies in the preincubation solution (PBS-T Analysis(cid:2)software.Highresolutionimageswereobtainedwith with2%normalgoatserum)forover12hat4°Cunderslow a digital MicroFire S99808 camera (Optronics) attached to stirring.ThesampleswerethenwashedthoroughlywithPBS-T OlympusBX51epifluorescencemicroscope(Olympus,Tokyo, and incubated with the Alexa(cid:2)-conjugated goat anti-chicken Japan).TheacquiredimageswerefurtherprocessedwithCore- (Alexa488 and Alexa546) or goat anti-mouse (Alexa488 and lDRAW(cid:2) Graphics Suite X6 (Corel Corp.). Analysis of cell Alexa568)secondaryantibodies(diluted1:2000)intheprein- numbersfromthewholestackofimagesscannedthroughthe cubation solution for over 12 h at 4°C. The samples were sampleswascarriedoutusingImageJtocountthestainedcells washedwithPBS-Ttwicefor30min,oncewithPBSfor30min, (17). andoncewith50%glycerolinPBSfor1handtheninfiltrated Staining intensity of axonal tracts was measured by Zeiss overnightin80%glycerolinPBSbeforemounting. EfficientNavigation(ZEN2012)software(CarlZeissMicroIm- 19960 JOURNALOFBIOLOGICALCHEMISTRY VOLUME289•NUMBER29•JULY18,2014 AmigoinBrainDevelopment aging GmbH) with single maximum intensity z-stacking pro- AMIGOorthologsofdifferentspecieswerecarriedoutusing jections containing the whole image stacks. To quantify the GeneiousProR6(BiomattersLtd.). degreeofaxonaltractdevelopment,theaxonaltract/cellbody ratiowasmeasuredoneachmaximumintensityz-stackingpro- RESULTS jection(18).Forthedeterminationofmediallongitudinalfas- ZebrafishAmigoProteinsandDetectionofZebrafishAmigo cicle(MLF),averagepixelintensityofanti-HNK-1immunore- 1—AccordingtothecharacteristicLRRandIgdomains,three active MLF descending from the ventral caudal cluster (vcc) putativeamigotranscriptsarefoundinthezebrafishZv9data- cellswasmeasured(50(cid:4)2(cid:4)m)andcomparedwiththatofthe base(Ensembl,searchzebrafish).Thefull-lengthcDNAswere vcccellbodies(5(cid:4)5(cid:4)m)inthesamez-stackingprojection.For cloned by using mRNA from zebrafish larvae and primers thedeterminationofthemediallongitudinalcatecholaminer- designed according to the putative homologous sequences gictract(MLCT),averagepixelintensityofanti-TH1-immuno- foundintheZv9database.Comparisonofthededucedamino reactive MLCT descending from the locus coeruleus was acid sequences of the zebrafish Amigos with the human, measured (30 (cid:4) 3 (cid:4)m) and compared with that of the locus rodent,chicken,medaka,andXenopusproteinswascarriedout coeruleuscellbodies(3(cid:4)3(cid:4)m)inthesamez-stackingprojec- using the Geneious software. Within the 17 Amigo proteins tion.Theaveragevalueof5misMOlarvaewasusedfornormal- quoted, the zebrafish Amigo1 shares over 50% identity in its izationinthetractanalyses.Thebackgroundfluorescencewas aminoacidsequencecomparedwiththeAmigo1proteininall subtractedfromeachmeasurement.Allimageacquisitionand otherspecies(Fig.1A).Thetwootherzebrafishsequences(des- analysiswasperformedblindtotheexperimentalgroup. ignatedasAmigo3aand-3b)displayahigherdegreeofsimilar- Anatomicalstructuresoflarvalbrainwerenamedandnum- itytoAMIGO3thantoAMIGO2.ItappearsthatnoAMIGO2 beredusingtheneuroanatomicalatlasofdevelopingzebrafish orthologhasyetbeenidentifiedinteleostspecies. brain(19)andtheatlasbasedonlocationofTHneuronsin5dpf A phylogenetic tree view of the alignment result clearly larvalfish(20,21). showedthatwithintheAmigofamily,Amigo1hasthehighest Behavioral Assays—Two behavioral assays were used. degree of homology when compared with the orthologs First, the locomotor activity of 6-dpf larvae was observed expressedindifferentspecies(Fig.1A).ZebrafishAmigo3aand during10minin24-wellplatesasdescribedpreviously(20, Amigo3b are both similar to mammalian AMIGO3 and 22). The analysis included 80 fish (20/group in four inde- groupedintoadifferentbranchcomparedwithAMIGO2ofthe pendentexperiments). other species (Fig. 1A). Zebrafish Amigo3a and -3b might be In the second behavioral assay, we assessed the startle encodedbyduplicatecopiesofthesamegene. response(C-startresponse)of9-dpflarvaeelicitedbyelectrical In order to detect expression of the Amigos in larval stimuli.Wechoseelectricalstimulationbecauseitallowedusto zebrafish, the primers for qRT-PCR of amigo1, amigo3a, and provideafixedandstablestartlestimulusineachgroupoflar- amigo3bweredesignedandusedforexpressionanalysisinlar- vaeduringconstantillumination(23).Fortheelectricalstimu- vaeatthedevelopmentalstages1–8dpf.TheqRT-PCRresults lationexperiments,recordingchambers(60ml,x(cid:5)5cm,y(cid:5)4 revealedthatallthreeamigoexpressionsstartfromthebegin- cm,z(cid:5)3cmsharedfromthelaboratoryofH.A.Burgess)were ning of early developmental stages (Fig. 1B). Expression of fittedwithstainlesssteelsidewallsasbipolarstimulatingelec- amigo1 was found to be the highest of the three amigo tran- trodes(5V,0.01s).Foreachexperiment,20larvaewereaccli- scripts.Expressionofamigo1alreadystartedtoincreaseafter matedintherecordingchamberfor3minbeforetesting.The 24hpfandwasincreasedinalogarithmicmannerduringthe MotionPro X3 fast recording camera (Redlake Imaging) was stages1–8dpf.Expressionofamigo3aandamigo3bstartedto controlledbyascriptwritteninMatlab(MathWorks).Record- increase from 3 dpf and was always lower than expression of ingwasstarted200msbeforetheelectricalstimuluswasgiven amigo1.Expressionofamigo3bwasfoundtobethelowestof (via the MotionPro XTM data acquisition hardware module, the three transcripts. Before 4 dpf, amigo1 expression was RedlakeImaging)andwascontinuedfor1s.Thiswasrepeated foundtobeover5-foldhigherthanthatofamigo3aoramigo3b. threetimeswiththesamelarvaeinthechamber,witha3-min After4dpf,amigo1expressionwasstillover3-foldhigherthan intervalsetbetweeneachelectricalstimulus.Sequentialimages expressionofthetwoothertranscripts. oftheC-startresponsewerecapturedevery1ms.Latencywas Becauseamigo1wasfoundtobethemajoramigotranscript definedasthetimefromthebeginningofthestimulationtothe inzebrafishearlyembryos,wedecidedtofocusonthisfamily C-bend formation. The captured images were analyzed with membertoelucidateputativeamigofunctionsinnervoussys- Floteversion2.1.ShortlatencyC-start(SLC;initiatedwithin20 temdevelopment.Becausetheantibodiesthatwehaveprevi- msafterstimulus)andlonglatencyC-start(LLC;initiatedlater ouslygeneratedagainstthemouseAMIGO1(11)didnotspe- than20msafterstimulus)shareidenticalmovementtrajecto- cifically detect the zebrafish Amigo1 protein in Western riesandwereclassifiedaccordingtothepreviousreport(24). blotting of SDS extracts of larvae, we generated antibodies Foreachgroup,theexperimentwasrepeatedfourtimeswith against the zebrafish Amigo1 sequence. We constructed a fishfromdifferentinjections. fusionplasmidcloneencodingAmigo1ectodomain-GSTand AnalyticalSoftware—Student’sttestandone-wayANOVA purifiedtheexpressedproteintobeusedasanimmunogenin analyseswerecarriedoutusingOriginProversion8.0.Intensi- chicken(4).Westernblottingrevealedthattheaffinity-purified ties of the Western blot bands were examined with Quantity antibodies detect specifically the Amigo1 ectodomain-MBP One version 4.6.2 (Bio-Rad). Sequence alignments of the fusionproteinandtheendogenouslyexpressedproteininlarval JULY18,2014•VOLUME289•NUMBER29 JOURNALOFBIOLOGICALCHEMISTRY 19961 AmigoinBrainDevelopment FIGURE1.AMIGOproteinsindifferentspecies,expressionoftheamigosinzebrafish,andproductionofantibodiestodetectAmigo1ofzebrafish.A, alignmentoftheaminoacidsequencesofthezebrafishAmigoswith14AMIGOproteinsfoundinotherspecies(ontheleft).Identityoftheaminoacid sequencesisindicatedinthetable.Aphylogenetictreeof17AMIGOproteinsfoundinXenopus,chicken,rat,mouse,human,zebrafish,andmedakawas generatedbytheClustalmultiple-sequencealignmentprogram(ontheright).ThesimilaritiesandidentitieswerecomputedbyGeneious.Scalebar,numberof aminoacidsubstitutions/site.B,expressionofthethreeamigosduringzebrafishdevelopmentdetectedbyqRT-PCR.Full-lengthcDNAplasmidclonesof amigo1,amigo3a,andamigo3bwereconstructedandusedforthestandardizationofeachqRT-PCR.Templateswerenormalizedbythreereferencegenesas describedunder“ExperimentalProcedures.”amigo1expressioncomparedwith(cid:2)-actinin1-dpflarvaewassetas1.amigo1expressionincreasesover30-fold duringdevelopmentfrom1to8dpf.ForeachqRT-PCRtest,totalRNAwasextractedfromapoolof20larvae.Thedataarebasedonthreeindependent experiments.Meanvalues(cid:6)S.E.(errorbars)areindicated.C,antibodiesagainstzebrafishAmigo1.Specificityoftheanti-Amigo1antibodiesisshownby Westernblottingontheleft.ThepurifiedantibodiesstaintheAmigo1ectodomain-MBPfusionprotein(E-MBP)band((cid:7)75kDa)clearlywithweakbackground. TheantibodiesalsodetectspecificallytheAmigo1band((cid:7)60kDa)intheSDSextractoftheadultzebrafishbrain.CoomassieBluestainingontherightconfirms highexpressionoftheAmigo1ectodomain-MBPfusionproteinusedforpurificationandbindingtestsoftheantibodies.D,wholemountimmunostainingof 5-dpflarvalbrainswiththeanti-Amigo1antibodies.Goatanti-chickenAlexa546(orangetowhite)wasusedasthesecondaryantibodyforfluorescentlabeling. Themaximumz-stackingprojectionimages(maximumdepth,130(cid:4)m)werescannedfrombothventralanddorsalsidestoshowtheAmigo1expression patternthroughoutthebrain(thethicknessofthesamplesover200(cid:4)m).Comparedwiththeuninjectedorthe5misMO-injectedlarvae,immunostainingis clearlyinhibitedintheMO1-injectedlarvaeorintheuninjectedlarvaeinthepresenceofthecompetingantigen(E-MBPcomp).CC,cerebellarcrest;CeP, cerebellarplate;Di,diencephalon;Pr,pretectum;SR,superiorraphe;Tel,telencephalon;TeO,tectumopticum.Scalebar,100(cid:4)m.E,domainstructureof zebrafishAmigo1basedonthesequenceofthetranscript.Recognitionsitesofthedesignedmorpholinooligonucleotides(MO1andMO2)aroundthe5(cid:2)-UTR ofthetranscriptaremarkedbyshortredlines.ThepartofthetranscriptencodingtheAmigo1ectodomainwasusedfordominantnegativeexpression(Am1 EmRNA).IG-domain,immunoglobulin-likedomain;LRRCT,leucine-richrepeatC-terminalflankingdomain;LRRNT,leucine-richrepeatN-terminalflanking domain;TM-domain,transmembranedomain. 19962 JOURNALOFBIOLOGICALCHEMISTRY VOLUME289•NUMBER29•JULY18,2014 AmigoinBrainDevelopment SDSextractsthatcorrespondstothemolecularmassofAmigo1 (Fig.1C). InadditiontothezebrafishAmigo1specificantibodies,we designedaknockdownapproachtostudyexpressionandfunc- tionsofAmigo1inzebrafish.Twogene-specificantisenseMOs (MO1andMO2;Fig.1E)weredesignedforamigo1translation inhibition (25). Because the amigo1 transcript contains only oneintegratedexonwithoutanyintrons,MO1andMO2were targeted for binding to the 5(cid:2)-UTR sites near the start codon (Fig.1E).Theyarenotexpectedtoinhibitproteintranslation from capped amigo1 mRNA injected in rescue experiments. Uninjected larvae and larvae injected with 5mis MO (having fivenon-pairingnucleotidescomparedwithMO1)wereusedas controls. ToverifythespecificityoftheAmigo1immunostaining,we usedtwodifferentapproaches.First,immunostainingusingthe anti-Amigo1 antibodies was strongly reduced in the knock- down morphants compared with the uninjected or the 5mis MO-injected controls (Figs. 1D and 2A). To restore Amigo1 expressioninknockdownexperiments,wetestedinjectionsof Amigo1mRNAatthedosesrangingfrom0.2to0.8ng.Amigo1 wasimmunostainedatanintensitycomparablewiththeendog- enousexpressioninlarvaeinjectedwithabout0.4ngofAmigo1 mRNA (Fig. 2A; see also Western blotting results of Fig. 3,A FIGURE 2. Immunohistochemistry of Amigo1 expression during early and B). As an additional control, Amigo1 ectodomain-MBP developmentofthezebrafishbrain.A,wholemountimmunostainingof fusion protein was premixed with the antibodies for antigen Amigo1in28-hpflarvae.Anti-Amigo1antibodieswereusedastheprimary antibodies,andgoatanti-chickenAlexa488antibodieswereusedasthesec- competition in immunostaining. Amigo1-specific immuno- ondaryantibodiesforfluorescentlabeling.Controlgroupsarethe5misMO- stainingwasblockedintheprebindingexperimentsinasimilar injected and the uninjected larvae. amigo1 knockdown morphants are manner as in the knockdown experiments (Fig. 1D, E-MBP markedasMO1andMO2.Rescuedgroupsarecoinjectedwiththefull-length mRNA(MO1(cid:8)mRNAandMO2(cid:8)mRNA).DT,dorsalthalamus;P,pallium;Pr, comp). pretectum;Po,preopticarea.Theconfocalimageswerescannedandstacked Amigo1 Expression in Larval Brain—The affinity-purified asshownbytheinsetontheright.Thearrowineachframeindicatestheoptic recessofDiVasthelandmark.Scalebar,60(cid:4)m.B,doublestainingof28-hpf antibodiesdetectedAmigo1inwholemountimmunostaining larvaewithchickenanti-Amigo1andmouseanti-HNK1antibodies;thepri- already at 28 hpf in the larval brain (Fig. 2A). Amigo1 was maryantibodiesweredetectedwithanti-chickenAlexa546(red;anti-Amigo1 intensely stained in the neuronal progenitor cell layers lining antibodies)andgoatanti-mouseAlexa488(green;anti-HNK1antibodies).B1, anti-Amigo1antibodiesshowedstainingonthesuperficiallayerofthehind- thediencephalicventricle(DiV)andtheopticrecessofthefore- brainventricle(HbVe).Thearrowindicatesthedirectionfromposteriorto brain(26,27).Furthermore,theanteriordiencephalonwasalso anterior.B2andB3,Z-stackingconfocalimagesscannedunderhighermag- nificationshowthatanti-Amigo1andanti-HNK1antibodiesstainthetracts. specificallystainedonthealarplateprosomere,fromwhichthe TherectanglesinB1indicatetheareasofB2andB3.H,hindbrain;TPOC,tractof anteriorthalamicnucleiderive(28),andontheupperlayerof thepostopticcommissure.Scalebars,25(cid:4)m(B1)and4(cid:4)m(B2andB3).C,the posteriortuberculum.Essentiallynodetectionwasobservedin ascendingPOCintelencephalon(Tel)stainedwithmouseanti-HNK1antibod- ies(left)andchickenanti-Amigo1antibodies(middle)andoverlayofthestain- the amigo1 knockdown morphants compared with the unin- ings(right).Thearrowshowstheleadingpartofthetractinthedirectionofits jectedorthe5misMO-injectedcontrols(Fig.2A).Expression extension.Scalebar,5(cid:4)m. of amigo1 was partially rescued by coinjection of the amigo1 full-lengthmRNAwiththeMOs,asevidencedbyintensiveand Gross Morphology of amigo1 Knockdown Morphants—In ubiquitous Amigo1 staining in DiV cells (Fig. 2A, MO1 (cid:8) injections with different MO doses, the death rates in larvae mRNAandMO2(cid:8)mRNA). injected with MO1, MO2, or 5mis MO were essentially the At 28 hpf, Amigo1 was found to be expressed in both cell same(about5%)atthedosesof2–4ngbutweresignificantly layers and the early developing fiber tracts. MLF and the increased at higher doses (data not shown). We therefore postopticcommissure(POC)belongtoearlydevelopingfiber selected 4 ng as the dose for the injections in further experi- scaffoldsofzebrafishthatwereimmunostainedwiththeanti- mentsbecauseitwasfoundtobethehighestdoseoftheMOs Amigo1andtheanti-HNK-1antibodies.Amigo1wasdetected allowinghighproportionsoflivelarvae. at the leading front and along the fascicle of the developing WeusedWesternblottingof3dpflarvallysatestoevaluate tracts(Fig.2,BandC). the effects of the MOs at a dose of 4 ng on Amigo1 protein The early embryonic brain development in zebrafish is expression. Amigo1 expression essentially disappeared in the largelyaccomplishedat5dpf(29,30).Atthisstage,Amigo1is MO1-andMO2-injectedlarvae,whereasnomajorchangewas widely distributed in most nuclei in telencephalon and com- observed in amigo3a MO-injected morphants or in larvae missuresindiencephalon(fortheexpressionpatternat5dpf, injectedwith5misMO.Coinjectionoftheamigo1mRNAwith seeFig.1D). MO1 or MO2 displayed a clear rescue effect on the protein JULY18,2014•VOLUME289•NUMBER29 JOURNALOFBIOLOGICALCHEMISTRY 19963 AmigoinBrainDevelopment FIGURE3.KnockdownofAmigo1proteinexpressionandphenotypicfeaturesoftheknockdownlarvae.A,Westernblottingof3-dpflarvaelysateswith anti-Amigo1antibodies.NoAmigo1bandisdetectedontheMO1andMO2lanes.B,quantificationofAmigo1expressionbyplotdensityanalyses.In3-dpf amigo1knockdownmorphants(MO1andMO2),amigo1expressionissignificantlyinhibitedcomparedwiththe5misMO-injectedcontrols.Theplotdensityof thebandsfromuninjectedlarvalSDSextractswassetas1fornormalization.Westernblotswererepeatedthreetimesinthreeindependentexperiments(n(cid:5) 3;***,p(cid:10)0.001inone-wayANOVAfollowedbyTukey’sposthoctest).C,Edustaining(red)andfluorescentTUNELstaining(green)donotdisplaydifferences betweentheamigo1knockdownmorphants(MO1)andtheuninjectedcontrol.CeP,cerebellarplate;Di,diencephalon;H,hindbrain;MHB,midbrainhindbrain boundary;Tel,telencephalon;TeO,tectumopticum.Scalebar,50(cid:4)mintheEdu-stainedand40(cid:4)mintheTUNEL-stainedpanel.D,numbersofapoptoticcells basedonTUNELstaininginprosencephalonandmesencephalonof28-hpflarvae.Theamigo1morphantsdonotdisplayasignificantdifferencecompared withthe5misMO-injectedcontrols.Thedataarebasedonthreeindependentexperiments;apoptoticcellnumbersin15larvaeofeachgroupwerecounted (n(cid:5)15,one-wayANOVAfollowedbyTukey’sposthoctest).Errorbars,S.E. expression(Fig.3A).QuantificationoftheWesternblotresults defects during development (Fig. 4A). The knockdown mor- revealed (cid:9)85% decrease in Amigo1 expression in the MO1- phantsdidnoteitherdisplayanydifferenceinexpressionlevels injectedmorphantsand(cid:9)90%intheMO2-injectedmorphants of regional transcription factors (pax2a, pax6a, and krox20) (Fig. 3B). The 4-ng dose in the MO injections thus appears thatareknowntobeimportantforbraindevelopment(Fig.4,B optimal to avoid nonspecific effects and to obtain efficient and C). Closer inspection, however, suggested that the mor- knockdown effects of the Amigo1 protein expression. Immu- phantshaveshorterlengthandwidthofhead(Fig.4B,pax6a nostaining of Amigo1 in the larvae injected with 4 ng of the and krox20 stainings), and smaller tectum opticum (Fig. 3C, MOs (Figs. 1D and 2A) was found to agree with the protein TeO) and midbrain-hindbrain boundary (MHB; cell layer expressiondata. betweencerebellarplateandmidbraintectum;Figs.3Cand4B) Whentheendogenousamigo1expressionwasinhibiteddur- comparedwiththecontrols. ing the development using injections of MO1 and MO2 at a Amigo1 knockdown might perturb brain development by doseof4ng,themorphantsdidnotshowgrossmorphological causingproblemsincellproliferationandsurvival.Wethere- 19964 JOURNALOFBIOLOGICALCHEMISTRY VOLUME289•NUMBER29•JULY18,2014 AmigoinBrainDevelopment FIGURE4.Amigo1morphantsdonotdisplaydefectsingrossmorphologyorinexpressionoftranscriptionfactorsthatregulateneuronaldevelop- ment.A,lightmicroscopyimagesof3-dpflarvae.Scalebar,1mm.B,wholemountinsituhybridizationofpax2aandpax6ain2-dpflarvae(thepharyngula periodfromHigh-pectoLong-pec)andkrox20in24hpflarvae(thepharyngulaperiodfromPrim5toPrim15).Thefirstlaneshowsalateralviewofpax2ain 2-dpflarvaeasamarkerofthemidbrain-hindbrainboundary(MHB)development.Scalebar,200(cid:4)m.Thesecondlaneshowsadorsalviewofpax6ain2-dpf larvaeasamarkerofforebraindevelopment.Scalebar,100(cid:4)m.Thelastlaneshowsadorsalviewofkrox20in24-hpflarvaeasamarkerofrhombomere3(r3) andrhombomere5(r5)inhindbrain.Scalebar,80(cid:4)m.Theasterisksindicatethesmallermidbrain-hindbrainboundaryandrhombomere3ofMO1larvae.C, quantificationofpax2a,pax6a,andkrox20expressionbyqRT-PCRusingtotalRNAextractedfrom2-dpflarvae.EachqRT-PCRsamplewasobtainedfromapool of20larvae.Templateswerenormalizedbythreereferencegenes,asdescribedunder“ExperimentalProcedures.”Thedataarebasedonthreeindependent experiments.Meanvalues(cid:6)S.E.(errorbars)areindicated. fore carried out EdU and TUNEL stainings in whole mount Amigo1 knockdown morphants and whether Amigo1 and preparations of larvae but did not find any apparent changes Kv2.1interactinzebrafishneurons. (Fig.3C).Countingofapoptoticcellsintheareacoveringthe Based on the sequences in the zebrafish Zv9 database wholeprosencephalonandmesencephalon(31)didnotreveal (Ensembl, search D.rerio), a putative kv2.1 transcript is any differences in different experimental settings used in the expressedinzebrafishdisplaying66%identityinitssequence study(Fig.3D). compared with the mouse Kv2.1 transcript. We produced an Amigo1RegulatesExpressionoftheKv2.1PotassiumChannel N-terminal fragment of the zebrafish Kv.2.1 containing the and Binds to Kv2.1—We have recently shown that AMIGO1 extracellulardomainandthetransmembraneloopsasanMBP bindstoKv2.1inadultmouseneuronsandregulatesvoltage- fusion protein ((cid:7)80 kDa). Monoclonal antibodies against gated potassium currents through Kv2.1 (11). We therefore mouse Kv2.1 (K39/25) were found to recognize the recombi- decidedtostudywhetherexpressionofKv2.1ischangedinthe nantKv2.1fragment(Fig.5A).WesternblottingofSDSextracts JULY18,2014•VOLUME289•NUMBER29 JOURNALOFBIOLOGICALCHEMISTRY 19965 AmigoinBrainDevelopment 19966 JOURNALOFBIOLOGICALCHEMISTRY VOLUME289•NUMBER29•JULY18,2014 AmigoinBrainDevelopment from3dpflarvaeshowedthattheKv2.1proteinisexpressedin embryos. Coinjection of the full-length amigo1 mRNA (Am1 the larvae, and its expression is strongly decreased in the mRNA)withMO1displayedarescuingeffect(Fig.6,AandB). amigo1knockdownlarvae(MO1),displayingabout10%ofthe WehavepreviouslyshownthattheAMIGOproteinsdisplay expressionfoundincontrollarvae(Fig.5,AandB).Coinjection homophilicbindingthatappearsimportantforfasciculationof of amigo1 mRNA with MO1 (MO1 (cid:8) Am1 mRNA) restored neuritesinculturesofratbrainneurons.Furthermore,theect- theexpressionto30–40%ofthatfoundinthecontrols.Coin- odomainofAMIGO1insolutionwasshowntoactasadomi- jectionofkv2.1mRNAwithMO1restoredKv2.1expressionto nantnegativereceptorandtoinhibitAMIGO1-mediatedadhe- 80%ofthelevelseeninthecontrollarvae(Fig.5,AandB). sionandfasciculationinbrainneuronsinvitro(4).Inorderto Double immunostaining of brain sections from adult provideanassaythatdoesnotdependonMOs,wepreparedan zebrafishshowedcolocalizationofKv2.1andAmigo1through- mRNA encoding the extracellular part of Amigo1 (Am1 outthebrain,shownfordiencephalicneuronsinFig.5C.Coex- EmRNA,codingforthesixLLRdomainsandoneIgdomainof pressionwasalsoobservedinthehindbrainventriclecelllayers Amigo1;Fig.1E)andinjecteditintofertilizedembryos.Expres- (HbVe) and the edge of the cerebellar plate (CeP) in 28-hpf sion of the dominant negative protein in the injected larvae larvae (Fig. 5D), but the staining patterns did not suggest couldbedistinguishedbyWesternblottingwithanti-Amigo1 expressioninthesamecells. antibodies(Fig.6C).Asintheamigo1MO1morphants,devel- Because the immunostaining experiments suggested colo- opment of the early tracts was severely disturbed in larvae calizationofAmigo1andKv2.1inadultzebrafishneurons,we injectedwiththeAm1EmRNA.Forexample,intheconfocal carried out co-immunoprecipitation experiments using adult stacking projections, MLF could hardly be discerned in the brain samples. These experiments suggested binding of Am1EmRNA-injectedlarvae(Fig.6A).IncontrasttotheAm1 Amigo1toKv2.1(Fig.5E).Thebindingwasmoreprominentin EmRNA, larvae injected with the full-length mRNA did not dithiobis(succinimidylpropionate)-cross-linkedsamplescom- display such inhibition (Fig. 6A, Am1 mRNA) but even dis- paredwithsampleswithoutanycross-linker.Theapparentrea- playedrescueofaxonalgrowth(Fig.6A,MO1(cid:8)Am1mRNA). sonforthisisthatthetransmembranedomainsoftheproteins The larvae coinjected with MO1 and kv2.1 mRNA (MO1 (cid:8) mediatebindingarelargelylostindetergentextractionusedin kv2.1 mRNA) showed MLF defects, as did the amigo1 MO1 the co-immunoprecipitation experiments, which was previ- morphantsandtheAm1EmRNA-injectedlarvae(Fig.6A). ouslyshownintheexperimentsusingbrainextractsfrommice Statistics of the 28-hpf larvae immunostained with anti- (11). HNK-1 antibodies showed that significantly lower numbers Amigo1 Is Required for the Development of Early Axonal of the amigo1 knockdown morphants and amigo1 EmRNA- ScaffoldsinZebrafishBrain—At28hpf,theinitialaxonscaffold injected larvae had intact MLF than 5mis MO-injected or ofthezebrafishbrainissimple,consistingofafewlongitudinal amigo1mRNA-injectedlarvae(Fig.6D).IntensityoftheMLF tractsconnectedbycommissures(32,33).Antibodiesagainst staining confirmed the defective tract development in the thecellsurfacemarkerHNK-1(34)specificallylabelneurons knockdownmorphantsandintheEmRNA-injectedlarvae(Fig. andaxonsintheearlyembryonicnervoussystem(35).Weused 6E). A clear rescuing effect in the development of MLF was immunocytochemistry with anti-HNK-1 antibodies to visual- foundincoinjectionoftheamigo1mRNAwiththeMOs(Fig.6, ize the possible role of Amigo1 in the development of early D and E), which could not be achieved by kv2.1 mRNA nervoussystemstructures(Fig.6,AandB). coinjection. Confocal stacking projections of the lateral side of larvae Thevccandthehindbraincellclusterareimportantforthe clearly showed disturbed fiber tract development in amigo1 developmentofearlyascendinganddescendinglongtracts(35, knockdownmorphantsat28hpf(Fig.6A).TheMLFandtract 36)andwerefoundtobecorrectlylocatedintheknockdown of the postoptic commissure belong to the very early major morphants(Fig.6A,vccandhc).Underhighermagnification, tractsandonlyappearasthinfibersintheamigo1MO1mor- theMO1morphantsdisplayedaclearlyreducedHNK-1stain- phants compared with the wild-type or 5mis MO-injected ingofaxonsfromtheventralcaudalcellclusters(Fig.6B,top FIGURE5.Amigo1regulatesKv2.1expressionandbindstoKv2.1.A,monoclonalanti-Kv2.1antibodiesdetecttheectodomainofzebrafishKv2.1(Kv2.1 E-MBP)inWesternblotting.Westernblottingof3-dpflarvalSDSextractsusingtheanti-kv2.1antibodiesshowsstrongdown-regulationofKv2.1inAmigo1 knockdownmorphants(MO1)comparedwiththe5misMO-injectedortheuninjectedlarvae.WesternblottingsuggeststhatKv2.1expressionisenhancedby coinjectionofamigo1orkv2.1mRNAwithMO1.B,quantificationofKv2.1expressionintheamigo1MO1morphantsshowssignificantdown-regulationofthe expressioncomparedwiththe5misMO-injectedortheuninjectedlarvae.IntheMO1/Amigo1mRNA-coinjectedlarvae,Kv2.1expressionisincreasedto30% oftheuninjectedcontrols,whichisstillsignificantlylessthantheexpressioninthe5misMOgroup.IntheMO1/Kv2.1mRNA-coinjectedlarvae,Kv2.1expression isincreasedtoover60%oftheuninjectedcontrols.Westernblotswererepeatedfourtimesinfourindependentexperiments(n(cid:5)4;**,p(cid:10)0.01inone-way ANOVAfollowedbyTukey’sposthoctest).C,doublestainingofadultbrainsectionswithanti-Amigo1andanti-Kv2.1antibodiesshowstheircoexpressioninthe diencephalicneuronalcellsintheadult(over1-year-old)zebrafish.Theprimaryantibodiesweredetectedwithgoatanti-chickenAlexa488(green;anti-Amigo1 antibodies)andgoatanti-mouseAlexa568(red;anti-Kv2.1antibodies).ThelightmicroscopyimageontherightshowsAmigo1wholemountinsituhybrid- izationinabrainsagittalsection.Rectangle,theAmigo1-expressingbrainregionthatwasusedforthedoubleimmunostainingofAmigo1andKv2.1.Scalebar, 10(cid:4)m.CP,centralposteriorthalamicnucleus;PGZ,periventriculargrayzoneofoptictectum;PPv,ventralperiventricularpretectalnucleus;TeV,tectum ventricle;TL,toruslongitudinalis;TPp,periventricularnucleusofposteriortuberculum;Val,vlavulacerebelli.D,doublestainingof28-hpflarvaewithanti- Amigo1andanti-Kv2.1antibodiesshowsthatKv2.1andAmigo1arebothexpressedinthehindbrainventricleareafromanearlydevelopmentstagebutare notexpressedinthesamecells.Therectangularareainthelightmicroscopyimageontherightistheregionshowninthefluorescentimages.Scalebar,20(cid:4)m. CeP,cerebellarplate;H,hindbrain;HbVe,hindbrainventricle;MHB,midbrain-hindbrainboundary.E,coimmunoprecipitation(IP)ofKv2.1andAmigo1from adultbrainSDSextractsusingthemonoclonalanti-Kv2.1andthepolyclonalchickenanti-Amigo1antibodies.Dithiobis(succinimidylpropionate)(DSP)-treated SDSextractsshowenhancedcoimmunoprecipitation.Non-immuneIgYandIgGwereusedasnegativecontrolsinWesternblottingofAmigo1andKv2.1, respectively.Intheanti-Amigo1andanti-Kv2.1controls,immunoprecipitationandWesternblottingwerecarriedoutwiththesameantibodies.Errorbars,S.E. JULY18,2014•VOLUME289•NUMBER29 JOURNALOFBIOLOGICALCHEMISTRY 19967
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