2014.7 NATURE DNA methylation dynamics of the human preimplantation embryo - 图文

发布时间 : 2024/5/20 17:53:48 星期一 文章2014.7 NATURE DNA methylation dynamics of the human preimplantation embryo - 图文更新完毕开始阅读

LETTER

DNAmethylationdynamicsofthehumanpreimplantationembryo

doi:10.1038/nature13581

ZacharyD.Smith1,2,3,4*,MichelleM.Chan1,5*,KathrynC.Humm3,6,7,8,9*,RahulKarnik1,2,3,ShilaMekhoubad3,4,AvivRegev1,9,10,KevinEggan1,2,3,4,11&AlexanderMeissner1,2,3Inmammals,cytosinemethylationispredominantlyrestrictedtoCpGdinucleotidesandstablydistributedacrossthegenome,withlocal,cell-type-specificregulationdirectedbyDNAbindingfactors1–3.Thiscomparativelystaticlandscapeisinmarkedcontrastwiththeeventsoffertilization,duringwhichthepaternalgenomeisgloballyreprogrammed.PaternalgenomedemethylationincludesthemajorityofCpGs,althoughmethylationremainsdetectableatseveralnota-blefeatures4–7.Thesedynamicshavebeenextensivelycharacterizedinthemouse,withonlylimitedobservationsavailableinothermam-mals,anddirectmeasurementsarerequiredtounderstandtheextenttowhichearlyembryoniclandscapesareconserved8–10.Wepresentgenome-scaleDNAmethylationmapsofhumanpreimplantationdevelopmentandembryonicstemcellderivation,confirmingatran-sientstateofglobalhypomethylationthatincludesmostCpGs,whilesitesofresidualmaintenanceareprimarilyrestrictedtogenebodies.Althoughmostfeaturessharesimilardynamicstothoseinmouse,maternallycontributedmethylationisdivergentlytargetedtospecies-specificsetsofCpGislandpromotersthatextendbeyondknownimprintcontrolregions.Retrotransposonregulationisalsohighlydiverse,andtransitionsfrommaternallytoembryonicallyexpressedelements.Together,ourdataconfirmthatpaternalgenomedemeth-ylationisageneralattributeofearlymammaliandevelopmentthatischaracterizedbydistinctmodesofepigeneticregulation.

Wegeneratedgenome-scalemethylationmapsofhumanpreimplan-tationdevelopmentusingreducedrepresentationbisulphitesequenc-ing(RRBS)toaccommodateminimalDNAinputs7.Wethawedandscreenedmorphologicallynormalcleavagestageembryosandblasto-cyststorepresentearlyandlatepreimplantation,tworeplicatesofpooled,matchedinnercellmass(ICM)andtrophectoderm,motilespermfromfourunrelatedhealthydonors,andfetaltissues(ExtendedDataFig.1).Toestimatethetime,extentandtargetsofglobalremethylation,wegeneratedderivationtimeseriesofthreehumanembryonicstem(ES)celllines,collectingtheprimaryoutgrowth,firstandfifthpassageperline.Onaverage,replicatesshowedhighreproducibilityandcaptured1,753,958CpGsofmethylationdataat103coverage(ExtendedDataFig.2).

WenotedtwodistinguishablearchitecturesforDNAmethylationacrossthistimeseries:somatic-likeCpG-density-dependentbimodalityinsperm,EScellsandfetaltissues,andextensiveCpG-density-independenthypomethylationinpreimplantationembryos(Fig.1a).Thesubstan-tialintermediatemethylationinspermreflectsdisparaterepetitiveele-mentregulation,thoughnon-repetitivesequencesstillfitthesomaticparadigm11(Fig.1b).AlmostnohypermethylatedCpGspersistintocleavage,withresidualmethylationdiminishingfurtherintotheblas-tocyst,indicatingthattheembryoniclandscapeisrapidlyestablishedbeforethethirdembryonicdivision(Fig.1bandExtendedDataFig.2f).

1Withoutaccesstohumanepiblasts,invivocharacterizationofglobalremethylationisunavailable,butcross-speciescomparisonbetweenmouseepiblastandhumanEScellssuggestthattheyareareasonablyproxyforpostimplantationpluripotency(ExtendedDataFig.3).Notably,withinprimaryEScelloutgrowths,globalremethylationisnearlycomplete,includingforintermediatelymethylatedrepetitiveelementsapparentinsperm(Fig.1b).

Despitepredominanthypomethylation,erasureisnotthedefactofateofallloci.Non-repetitive100-bpgenomictileswereclusteredusingk-meansinto10dynamicpatterns.Ofspermhypermethylatedtiles,45%retainsomemethylationoverpreimplantation,and23%displayhighenoughlevelsincleavageembryostobebiparentallyinheritedandatleastpartiallymaintained(Fig.1c).Localmaintenanceissignificantlyweightedtogenebodies:only31%of40,486spermhypermethylatedintergenictilesare$0.2methylatedincleavageembryos,comparedto57%or59%ofexonsorintrons,respectively(Fig.1d,e).Frequently,genebodymethylationextendsfortenstohundredsofkilobaseswithinasinglegene(Fig.1f).SitesofretainedembryonicmethylationsuggestresidualDNAmethyltransferaseactivitywithinaphasewheremain-tenanceappearsotherwiseimpeded12.

WeincorporatedrecentlypublishedRNA-sequencing(RNA-seq)datatointerprettherelationshipbetweenDNAmethylationandexpression13(SupplementaryTable1).Despiteglobalhypomethylation,thecanonicalnegativecorrelationbetweenpromotermethylationandgeneexpres-sionextendstopreimplantation,althoughtheoverallrangeinpromotermethylationiscontracted(ExtendedDataFig.4a).Fewdemethylatedpromotersaretranscribed,suggestingthatpromoterdemethylationlargelyreflectstheglobaltrend(ExtendedDataFig.4b).However,deme-thylatedpromotersaremorefrequentlyinducedthanrepressedandincludePOU5F1(alsoknownasOCT4),whoseembryonicinductionisessen-tialfordevelopment14(ExtendedDataFig.4c,d).Thus,ourpreimplan-tationdatasupportmodelswheredistinctmechanismsmayregulateglobalversustargetedreprogramming15.

TheglobalDNAmethylationdynamicsofthehumanembryocloselymirrorthoseofthemouse,withsharptransitionsbothintoandoutofpreimplantation7,16(Fig.2a).Weinvestigatedthebehaviourofortho-logousexonswithinthemousepreimplantationtimeline7,predicatedontheirhumandynamics.Surprisingly,simplysortingmouseexonsaccordingtothedynamicsoftheirhumanorthologuesrecapitulatedsimilartrendsinspermandoverpreimplantation(Fig.2b).Inmouse,demethylatedexonsareerasedearly,withmoderatepassivedepletionovercleavage(Fig.2c,d).Alternatively,exonsthatmaintainmethyla-tionbehavesimilarlyinmouseandarehypermethylatedinbothgam-etes(Fig.2c,d).Introndynamicsrevealedcomparabletrends,butonlyafterrepetitiveelementswereremovedfrommethylationestimates(ExtendedDataFig.5).Thus,bothspeciespassthroughanequivalent

BroadInstituteofMITandHarvard,Cambridge,Massachusetts02142,USA.2HarvardStemCellInstitute,Cambridge,Massachusetts02138,USA.3DepartmentofStemCellandRegenerativeBiology,HarvardUniversity,Cambridge,Massachusetts02138,USA.4DepartmentofMolecularandCellularBiology,HarvardUniversity,Cambridge,Massachusetts02138,USA.5ComputationalandSystemsBiologyProgram,MassachusettsInstituteofTechnology,Cambridge,Massachusetts02142,USA.6DivisionofReproductiveEndocrinology&Infertility,DepartmentofObstetrics&Gynecology,BethIsraelDeaconessMedicalCenter,Boston,Massachusetts02215,USA.7Obstetrics,Gynecology,andReproductiveBiology,HarvardMedicalSchool,Boston,Massachusetts02215,USA.8BostonIVF,Waltham,Massachusetts02451,USA.9HowardHughesMedicalInstitute,MassachusettsInstituteofTechnology,Cambridge,Massachusetts02142,USA.10MassachusettsInstituteofTechnology,Cambridge,Massachusetts02142,USA.11HowardHughesMedicalInstitute,HarvardUniversity,Cambridge,Massachusetts02138,USA.*Theseauthorscontributedequallytothiswork.00MONTH2014|VOL000|NATURE|1

?2014Macmillan Publishers Limited. All rights reservedRESEARCHLETTER

a

Count (×105)420>105<1

Sperm

n = 1,023,928

Cleavage

n = 981,622

Blastocyst

n = 936,354

ICMTEBlast.

ES cell

n = 793,094

p0p1p5

Somatic

n = 674,198

BrainHeartLung

00.5100.5

100.510Methylation

So0.5100.51

ceSollm1.00.8Fraction0.60.40.20.0

ESSplBlCmbc

≥0.80.2–0.8<0.2

d

DemethylationLowMethylation0

0.5

1Sp

–Log10 P val0Cl

800

Bl

ES cell

Methylationn = 245,6670

0.5

1

Som

e

MethylationFigure1|Humanpreimplantationembryosaregloballyhypomethylated.a,Top,DNAmethylationacross100-bptilesforhumansperm,

preimplantationembryos,includingtheICMandtrophectoderm(TE),

EScellderivationfromoutgrowthtofifthpassage(p5),andsomaticfetaltissuesrepresentingallgermlayers.Greyhighlightstheaverage.nequalstheaveragenumberoftilescapturedforagivenstage.Theyaxisshowsthenumberoftilesineachmethylationbin.Bottom,boxplotsofmethylationatdifferentlocalCpGdensities(yaxis).Bullseyesindicatethemedian,boxesandlinesthe25thand75th,and2.5thand97.5thpercentiles,respectively.b,Barplotsof100-bptilessegregatedbynon-repetitive(unique)orrepetitivedesignationandbinnedbymethylationstatus.Bl,blastocyst;Cl,cleavage;Som,somatic;Sp,sperm.‘EScell’and‘Som’showtheaverageofthesetimepoints.

c,Non-repetitive100-bptilesareclusteredviak-meansinto10dynamics.Spermhypermethylatedsequencesfollowthreegeneraltrajectories:persistentmaintenance,incompleteorcompletedemethylation.Otherdynamicsincludespermspecifichypermethylationandhypomethylationsharedbysperm

andtheearlyembryofollowedbydenovomethylationinEScells.Finally,3,586tilesarehypomethylatedinspermandEScellsbutmethylatedinembryos,representingtransientimprint-likesignatures.nequalsthenumberoftilessharedbetweenthetimepointsandusedforclustering.d,Dynamicsforspermhypermethylated,non-repetitivetilesasclusteredinc.Leftheatmap,per-clusteraverageoftiles.Rightheatmap,–log10Pvalueofhypergeometricenrichmentforeachclusterforintergenic,exonic,intronic,CGIorTSS

annotationsusingspermhypermethylatedregionsasthebackground.e,Violinplotforspermhypermethylatedintergenic(Inter),exonicandintronicfeatures.f,TheOBSCNgeneexhibitshighinter-andintra-genicmethylationandanunmethylatedpromoterinspermandEScells.Incleavageembryos,a130-kbregion,highlightedinblue,remainsspecificallymethylatedwhiletheperipheryisdemethylated.EachdotreferstoaCpGcapturedbyRRBS.TheyaxisforDNAmethylationrepresentsthefrequencyinwhichcapturedCpGsaremethylatedandrangesfrom0to1.

CpG Densityell cHigh1.00.80.60.40.20.0

Sperm methylation levelSpCl/ESBl cInellteExroInntroCnGTSISUReniqpeuetiUtivReniqepeuetUitivReniqepeuetUitivReniqepeuetUitivReniqepeuetitiveESSpClBlIntExeroInntroInntExeroInntroInntExeroInntroInntExeroInntroInntExeroInntronnearlyallofwhichweremonoallelicallymethylated(Fig.3bandExtendedDataFig.7).

GiventhatmaternalDMRsinmousearealsoenrichedforCGIs,wenextexaminedtheconservationoftargetedlocibetweenspecies(Fig.3c).Wefoundthat795and293CGIsbehaveastransientDMRsinhuman

50 kb

8 CICMEpif

1

Sperm

0

1CleavageMethylationCount (×105)0

1Blastocyst0

1p0 ES cell0

Chr 1: 228,370,831–228,573,181

OBSCN

CpG islandsSpn = 867,594n = 559,9741210210–101–101Bl to ES cell/Epin = 832,109n = 507,724Cl to Bln = 833,594n = 512,594Exon dynamics0n = 11,055

0

ClBl2ES cSpella

HumanMouse

Sp to Clb

HumanMouse

Δ Methylation

Methylation

0.5

11

Difference

>0<

1

Δ Methylation

globalreprogrammingwithcongruentkinetics,whilemanyorthologousregionsmaintainmethylationthatdecayspassively.

Transient,maternallyinheritedmonoallelicmethylationhasbeenpreviouslyobservedinmouse5–7.Toidentifycandidatelociinhumanwithoutaccesstooocytes,wesearchedforregionsthataresignificantlymoremethylatedinpreimplantationembryosthaninsperm,asthismeth-ylationwouldbelikelytobeofmaternalorigin(ExtendedDataFig.6aandMethods).Usingourcriteria,weidentify5,265100-bpcandidatematernaldifferentiallymethylatedregions(DMRs),includingmostcanon-icalICRs.WeclusteredtheseregionsbytheirresolutioninEScellsandfoundthatthemajorityarepreimplantation-specificandeitherhyper-orhypomethylatedinsomatictissue(Fig.3a).ThelocationandCpGdensityofDMRtilesdependsontheirresolution,withsomaticallyhypo-methylatedDMRssubstantiallyenrichedforCpGisland(CGI)-containingpromoters,whereassomaticallyhypermethylatedDMRsaremorelikelytobeintragenicanddistributedfurtherdownstream(Fig.3aandExtendedDataFig.6b,c).Toconfirmthatthesesignaturesrepresenttrueimprint-likemaintenance,wegeneratedRRBSlibrariesoftwounrelated,singleblastocystsandidentifiedCpGsthatcouldbeassignedtoeachallele,

2|NATURE|VOL000|00MONTH2014

c

1.0Exonmethylation0.50.0HumanMouseMaintainedDemethylatedl8 CMIC2 CFigure2|Humanpreimplantationdynamicsaregloballysimilartomouse.a,Histogramsofmethylationchanges(Dmethylation)for100-bptilesacrosshumanandmousepreimplantationfromfertilization(SptoCl)throughpreimplantation(CltoBl)toglobalremethylationatimplantation,asmeasuredfromblastocysttoEScellinhumanandICMtoembryonicday6.5(E6.5)epiblastinmouse(BltoEScell/Epi).nshowsthenumberoftilescontributingtoeachcomparison.b,Exonsclusteredbydynamicsinhumanwithequivalentmethylationvaluesfororthologoussequencesinmouse.TheDmethylationheatmapdisplaysthedifferenceinmethylationformatchedtimepoints.

nshowsthenumberofexonsavailableforcrossspeciescomparison.c,Violinplotsoforthologoushumanspermhypermethylatedexonsclassifiedasmaintainedversusdemethylated(toptwoclustersinb)andmeasuredoverhumanandmousepreimplantation.

?2014Macmillan Publishers Limited. All rights reservedES c4 EpiSpellBlSpZyoCOCLETTERRESEARCH

ES ceBrllainHeartLungCGITSSExInontroICnRa

SplCBlb

1.0Methylation0.80.60.40.20.0Replicate 1Replicate 2

CGICpG (n = 74)CGICpG (n = 103)c1Sperm0500 bp1Sperm01Oocyte01Cleavage01Blastocyst01Somatic0500 bp1Cleavage01Blastocyst01Somatic0Chr 13 : 100,547,333–100,549,211Chr 14 : 122,804,906–122,806,794CLYBL 3′ UTR

Methylation0

0.5

1

n = 5,265

CpG islands

CpG

Single blastocyst CpG

GM5089CpG islandsAllele 1Allele 2

de

ES cBrellainHearLutngoSplBlCODMR resolutionHypoInt/varHyperMethylation0

0.5

1

n = 11

f

15913227MethylationResolve to Hypo1.00.80.60.40.20.0SpermPreImpES cellOocyteSpermPreImpEpiFigure3|TransientmaternalDMRstargetadivergentsetofCpGislandpromoters.a,Heatmapof5,265100-bptilesconsistentwithmaternallycontributedmonoallelicmethylation(Methods).Tilesarepartitioned

accordingtotheirhypomethylated(#0.2),intermediateorvariable(.0.2,,0.8)orhypermethylated($0.8)resolutioninEScells.Featureannotationsareincludedasseparateheatmaps.b,BoxplotsofCGIDMRmethylationfortwoindependentsingleblastocysts,withheterozygousSNP-linkedCpGshighlighted.Withineachreplicate,31and33CGIDMRscontainCpGsthatcouldbeassignedtoparentalloci.Ineachcase,DNAmethylationisrestrictedtoonlyoneofthetwoalleles.Untrackedreferstotheinferredmethylationstatusbeforehaplotypesegregation.Redlinesignifiesthemedian,boxesandwhiskersthe25thand75th,and2.5thand97.5thpercentiles.c,SingleCpGresolutionmethylationvaluesofaconservedpreimplantation-specificDMRinhumanandmouse.Humanblastocystdataincludesinformationfromthepooledsampleaswellasforasingleblastocystreplicate(purple)with

allele-trackedmethylationfor10CpGshighlightedinpinkandblue.AnnotatedCGIsareincludedbelow.d,ResolutionofCGIsthatbehaveasmaternalDMRsinhumanandmouse.e,HeatmapoforthologousICRsoverhumanandmousepreimplantationdevelopment.f,Orthologoushypomethylation-resolvingCGIDMRsinhumanandmouseshareonly13equivalentlyregulatedregions.WhenmethylationvaluesofmouseorhumanspecificDMRsaretrackedinthealternatespecies,theyareconstitutivelyhypomethylated,indicatingthat

oogenesistargetsequivalentgenomicfeaturesbutatspecies-specificsequences.PreImpreferstotheaveragevalueforcleavageandblastocystinhumanor8cellandICMinmouse.

andmouse,respectively,withsubstantiallymoreresolvingtohyper-methylationinhuman(Fig.3dandSupplementaryTable2).Notably,humanDMRsresolvingtohypomethylationaremorelikelytobeanno-tatedasCGIsinmousethanthoseresolvingtohypermethylation(ExtendedDataFig.6d,e).WerestrictedourcomparisontoDMRsthatshareCGIstatusandsomatichypomethylationinbothspeciesandfoundthatmaternallycontributed,preimplantation-specificDMRsarestrikinglydivergent,withonly7.5%foundinhumanequivalentlyregulatedinmouse.Noobvioustrenddistinguishedsharedfromspecies-specificsignatures,

thoughseveral,suchasthesomaticpromoterofDNMT1,indicatecon-servedregulatoryutility17(ExtendedDataFig.8a).ThedisparityofmaternalmethylationtargetingcontraststrueICRs,whicharegenerallyconserved18(Fig.3eandExtendedDataFig.8b).Moreover,hypomethylation-resolvingDMRsspecifictoonespeciesareconstitutivelyhypomethylatedintheother,suggestingthatthesesignaturesarefrequentlyanddiverselytar-geted(Fig.3f).

Wenextinvestigatedspecies-specificrepetitiveelements,incorporatingRNA-seqdatatointerpretDNAmethylation’sroleintheirregulation13.Inhumansperm,repetitiveelementsarefrequentlyincompletelymeth-ylatedorhypomethylated11.Long-terminal-repeat-containingelements(LTRs)areunexpectedlybimodal,withonlyafractionhypermethylatedandmostdisplayinggameticescapethatpersistsoverpreimplantation(ExtendedDataFig.9a).Longinterspersednuclearelements(LINEs)aregenerallyhighlymethylatedinsperm,demethylatedintheearlyembryo,withsomepartialremethylationinhumanEScellsandcompletehyper-methylationinsomaticcells(ExtendedDataFig.9b).Finally,shortinter-spersednuclearelements(SINEs),whichrepresentthemajorityofhumangenomerepetitivecontent,exhibitauniformglobalbehaviour(Sup-plementaryTable3).Althoughintermediatelymethylatedinsperm,theirdynamicsoverpreimplantationwereotherwisesimilartointer-genicsequencesingeneral(ExtendedDataFig.9c).Alternatively,diverseLTRandLINEsubfamiliesaredynamic,providingseveralexampleswhereDNAmethylationappearstoparticipateinspecificregulatorytransitions(SupplementaryTables4and5).

WefoundthatthebimodalityofLTRmethylationisexplainedbyspecies-specificendogenousretrovirus1(ERV1)familyelements.Alter-natively,theERVKfamilygenerallymaintainshighmethylationlevels,similartoobservationsinmouseandsuggestingconserved,constitutivetargeting4(Fig.4a,ExtendedDataFig.9d-g).Afterfertilization,expres-sionsharplytransitionedfromaMalR-dominatedearlycleavagestateresemblingtheoocytetoonecomposedofERV1andERVKelementsintheblastocystandEScells(Fig.4b).Unexpectedly,someERV1sseemtobeinducedlater,includingafterglobalremethylationinEScells,indi-catingatransitioninthespecificsubfamiliesthatareexpressed.Tran-scriptspresentearlyinpreimplantationaregenerallyfromgameticallyhypomethylatedERV1elementsthataredownregulatedbeforedenovomethylation(Fig.4c,d).Fortheseelements,methylationandexpressionarenegativelycorrelated,indicatingdiscriminatorytargetingforevenextremelyrelatedsequences(ExtendedDataFig.9h).Incontrast,theLTR7subfamilyishypermethylatedinsperm,rapidlydemethylated,andupregulatedintheblastocystandhumanEScells(Fig.4c,d).LTRsarerarelydynamicoutsideofthisearlyversuslatepreimplantationaxis:theyareeitheralreadyexpressedintheoocyteandsilencedlaterorareinducedfollowingdemethylationandremainexpressedinEScells.Nota-bly,thislatterdynamicincludesalimitednumberofrecentlyemergent,unrelatedsubfamilies19–21.

ComparedtoLTRs,LINEsmaintainhighermethylationlevelsandonlytheprimate-specificL1PAphylogenyisdynamicallyexpressed(Fig.5aandExtendedDataFig.9c).Astheonlyactivelytransposinglineageinhumans,L1PAsubfamiliesemergedasalinearphylogeny22.Wefoundthatthehuman-specificL1HSanditstwoclosestancestors,L1PA2andL1PA3,aredemethylatedearly,whereasolderelementsmaintainhigherembryonicmethylation(Fig.5b).Correspondingly,nearlyallembryonictranscriptioncouldbeattributedtothesethreeyoungestsubfamilies(Fig.5candExtendedDataFig.10a).Giventhehomologybetweensub-families,wesearchedforsequencecompositionchangesthatmayexplainthepreimplantation-specificescapeofyoungerelements.Wealigned59untranslatedregions(UTRs)offull-lengthL1PA7toL1HSandcomparedsequencesthatdemarcateddemethylatedL1PA3-descendedelementsfromconstitutivelytargetedancestors.Thelargestdiscretedifferencecorrespondstoan,130-bpdeletionfoundwithintheL1PA3lineageitselfthatseparatesolderelementsfromtheL1HSprogenitorL1PA3a23(Fig.5dandExtendedDataFig.10b,c).Intriguingly,thepres-enceorabsenceofthisregionisolatestwodisparatelyregulatedsubpo-pulationsandmarksthetransitiontoembryonicexpression(Fig.5e,f

00MONTH2014|VOL000|NATURE|3

MethylationICRs?2014Macmillan Publishers Limited. All rights reserved2 C4 C8 CICME6.5E7.5BrainHearLitverSpZyAll SN(612UP ()nt3ra1)ckAledlelAle 1lele 2All (SN606UP ()nt33ra)ckAledlelAle 1lele 2RESEARCHLETTER

a

Methylation1.0ERV10.80.60.40.20.0

p0p5SomSpClBlERVKERVLERVL-MalR

a

Total RNA contribution

8%

17r%

12%

15%

41%

50%9%

45%

45%8%

L1PA

Other LINE1LINE2Other

22%

27%

63V%

p0p5SomlBlp0p5Somp5SomSplBlSpSplBlp0CCCES cellES cell

Total RNA contribution

8%

ES cell4%

82%

7%

ES cell

3%

7%ERV1

ERVKERVL

ERVL-MalROther

Oocyte2 Cell8 CellBlastocystp10 ES cell

b

29%

56%

12%2%

Oocyte

2 Cell67%

20% 9%

b

Methylation1.00.80.60.40.2

Cleavage methylation20%

61%

3%

8 Cell

10%9%

78%

9%

L1HSL1PA2L1PA3L1PA4

L1PA5L1PA6L1PA7

500 bpL1HS

d

10.50CpGAlign

10.50CpGAlign

10.50CpGAlign

5′ UTR

Blastocystp10 ES cell

HeaExpression (Log2 FPKM)1.0Methylation0.80.60.40.20.0

lBlp0p1p5BraHineaLurtngSpCExpression (Log2 FPKM)ERV1: LTR12CERV1: HERV9-INTERVL-MalR: MLT1H2ERV1: LTR7ERVK: LTR5Hs50

ERV1: LTR7ERVK: LTR5HsERV1: LTR12CERVL-MalR: MLT1H2ERV1: HERV9-INTp0p10ClBlc

5

ES cell

BrLucd

0.0

p0p5nSpp1rtngClBlL1PA3aL1PA3b

ai–5

oZy2 C8 CO0

L1PA4

–5

ES cellES cell

ORF1L1PA alignmentConsensusNonconsensusGap

L1PA3a3b

Oocyte8 CellBlastocyst

2 C8 Cp0ZyFigure4|LTRsubfamilydynamicsaredividedintoearlyandlate

preimplantationphases.a,ViolinplotsforthefourLTRfamiliespresentinhumanoverearlydevelopmentandEScellderivation.b,PiechartsofLTRfamilyexpressioncalculatedasthenumberoffragmentspermillion(FPM)thataligntoelementswithinthefamily.c,MeanmethylationofnotableERV1,ERVKandMalRsubfamilies.ThreeERV1subfamiliesareincludedtorepresentdiscretedynamics:sharedgameteandearlyembryonichypomethylation(LTR12c),constitutivemethylation(HERV9-INT)andrapiddemethylation(LTR7).TheERVKsubfamilyLTR5Hsisalsodemethylated.d,Expressiondynamicsforthesamesubfamiliesinc.LTR12cisexpressedearlyand

downregulatedintheblastocyst.Alternatively,LTR7isexpressedthroughout,butupregulatedintheblastocystandmaintainedinEScells,whereitaccountsforthemajorityofERV1transcripts.LikeLTR7,LTR5HsisonlyintermediatelymethylatedduringEScellderivationandisembryonicallyinduced.

Alternatively,theERV1HERV9-INTremainsrepressed.MLT1H2istheprevailingMalRtranscribedintheoocyteandislostafterfertilization.Expressionisthefragmentspermillionthataligntosubfamilyelements,dividedbythekbannotatedasthesubfamilyinthegenome(FPKM).

p10OCpG frequency00.5

1

ClBloES cell

Cleavage methylatione

1.00.80.60.40.20.0

f

Expression(read count ×10–4)1.0

0.5

n De= let1eL1107dPA3n De=eL1 19tedPA03n Pres= en96tPren s= en38t60.0

L1PA3aL1PA3b

5′ UTR0 kb

7 kb

andExtendedDataFig.10d).ThisadaptationmayrepresentaspecificmomentintheevolutionaryprogressionoftheL1PAswhenemergingelementsevadedaseeminglysequence-directed,repressivemechanism.Whetheroldersubfamiliesretainexpressionortranspositionpotentialwithoutactivesilencing,orifthissignaturereflectsavestigial,hostgen-omeadaptationthatisnolongerrequired,remainstobeinvestigated.WepresentbasepairresolutionmapsofDNAmethylationasitisdynamicallyreconfiguredduringhumanearlydevelopment.Thesedataidentifyasetoftransient,maternallycontributedmethylationatCGIpromoters,theresolutionofwhichsuggestindependentmodesofacqui-sition:malegermlinespecificprotectionagainstmethylationordenovotargetingintheoocyteofotherwisecanonicallyunmethylatedCGIs24.BotharecommonandshowpoorconservationcomparedtoclassicICRs,indicatingthatshort-lived,parent-specificsignaturesarelessevolutio-narilyconstrainedthanthosepersistingafterimplantation.Wefindthatrepetitiveelementregulationisnotablydiverseinhuman,moresothaninmouse,withgameticallyhypomethylatedLTRsubfamiliespre-sentintheoocyteandearlyembryoandotherssharplydemethylatedandinducedembryonically.ForLINEs,thestepwisephylogenywithintheprimate-specificL1PAlineagepinpointsaspecific,adaptivetrans-ition.AsL1HSelementsremaintranspositionallyactive,includingsomat-icallyinnumerouscancers,thetargetingofepigeneticsilencingmachineryduringpreimplantationmayberelevantinidentifyingtherootcauseoftheiraberrantinductionlater25.Understandingtheregulatoryprinci-plesinherenttotheearlyembryowillimprovecontinuingeffortstoeval-uatecomplextraitswithunclearmodesofepigeneticinheritance.Futureworktocharacterizethemechanismsthatimposethesediverselytar-getedembryonicmethylationpatternswillilluminatetheircontributiontonormalhumandevelopmentanddisease.

4|NATURE|VOL000|00MONTH2014

Figure5|EmergentL1PAsubfamiliesescapeDNAmethylation-associatedrepressionduringpreimplantation.a,PiechartsoftheLINEexpressiondividedintotheL1PAsubfamily,otherLINE1andLINE2subfamilies.Totalexpressioniscalculatedasthenumberoffragmentspermillion(FPM)thataligntofamilyelements.b,MeanmethylationvaluesforthemostrecentL1PAsubfamilies.Incleavageembryos,L1HSthroughL1PA3aredemethylatedandmaintaintheselevelsthroughtheblastocyst.c,ExpressiondynamicsforthesamesubfamiliesincoverpreimplantationandinEScells.ThethreeyoungestL1PAsubfamiliesareinducedbythe8cellstage.Expressionisthenumberoffragmentspermillionthataligntosubfamilyelements,dividedthekbannotatedasthesubfamilyinthegenome(FPKM).Thecoloursincarethesameasinb.d,Compositeplotofcleavagestagemethylationvaluesacrossaligned59UTRsinL1PAsubfamilies.ThecompositeforL1PA3issplitbythepresence(red)orabsence(blue)ofa,130-bpsequencethatdistinguishesL1PA3bfromL1PA3aanddemarcatesmethylationvaluesbetweenolderandnewersubfamilies(highlightedinpink).Multiplesequencealignmentforeachsubfamilytotheassembledconsensusisbeloweachcomposite,withbluecorrespondingtoconservation,blacktodivergence,andwhitetogapsordeletions.ThexaxisrepresentspositionalongtheL1HS59UTRandaportionofORF1.CpGFrequencydescribesperCpGconservationwithinsingleelementstotheconsensus.TwooldersequencesspecifictoL1PA7are

highlightedingrey.e,BoxplotofL1PAmethylationincleavageembryos,sortedbythepresenceofthe,130bpsequenceforallelementsandL1PA3

specifically.Preimplantationmethylationishigherforelementsthatcontainthisinsert.Boldlinesignifiesthemedian,boxesandwhiskersthe25thand75th,and2.5thand97.5thpercentiles.f,Expressioncompositeoffull-lengthinsertdeletedL1PA3aandinsertcontainingL1PA3bsubfamiliesinoocyte,8cellandblastocyststageembryos.TranscriptionalinductionisnotapparentuntilafterfertilizationandisspecifictoL1PA3a.Readcountisthereadcoveragenormalizedbytotalreads(Methods).

OnlineContentMethods,alongwithanyadditionalExtendedDatadisplayitemsandSourceData,areavailableintheonlineversionofthepaper;referencesuniquetothesesectionsappearonlyintheonlinepaper.Received16September2013;accepted16June2014.Publishedonline23July2014.1.2.Suzuki,M.M.&Bird,A.DNAmethylationlandscapes:provocativeinsightsfromepigenomics.NatureRev.Genet.9,465–476(2008).Stadler,M.B.etal.DNA-bindingfactorsshapethemousemethylomeatdistalregulatoryregions.Nature480,490–495(2011).?2014Macmillan Publishers Limited. All rights reserved