Post on 23-Sep-2020
Pulling back to the nature: A condition to fight IBD
Manoj Patidar; Naveen Yadav; Sarat K. Dalai*
Institute of Science, Nirma University, Ahmedabad-382 481, India
*Correspondence to: Sarat K. Dalai, Institute of Science, Nirma University, Ahmedabad-382481,
India
Chapter 1
Inflammatory Bowel Disease
1
1. Introduction
Inflammatoryboweldisease(IBD)groupedasautoimmunediseasearisesduetoinflam-mationofsmallandlargeintestine.BasedonthetargetorganIBDisclassifiedunderUlcer-ativecolitis(UC;affectsthecolon)andCrohn’sdisease(CD;affectswholeintestinalwallbutmainlytotheileum)[1].1-1.6millionpeoplearesufferingfromIBDinUnitedStatesandthemaintargetagegroupisbetween15-30yrs.Theprevalencerateof201/106ofCDand238/106 ofUCinadultsattractsattentiontothedisease[2].Abdominalcramping,weightloss,fever,sweats,fatigue,growthretardation,diarrhoea,constipationandabnormalbowelmovementarethemajorsymptomsofIBD.ItisclearlynoticedthatIBDisnotlimitedtojustinflammationofthedigestivetract,butitcanleadtoothercomplicationslikearthritis,thromboembolism,car-diovascular-,pulmonary-&neurologicaldiseaseaffectingthequalityoflifeofanindividual.ItisclearlyseenthatIBDrunsinthefamily,andthefamilymembersofaffectedindividualsareatthemaximumriskofIBD.InlasttwodecadesitisshownthatenvironmentalfactorsinthepathogenesisofIBDareplayingimportantroleinincreasingtheincidencesofIBDcasesinthecountrieswithhistoricallylowratesofIBD.InNorthAmericaandEurope20-foldincreaseinIBDcaseswerefoundsinceWorldWarIIduetochangeindietaryhabitandenvironmentalfactors.TheenvironmentalfactorsalsocorrelateswiththesimilartrendsinIBDduetoglo-balizationandWesternizingEastAsia[3].VariationinmicrofloraanddisregulatedimmuneresponsesarethekeyeffectorsofIBD.InthischapterwehavediscussedthevariousfactorsaffectingthepathogenesisofIBDincludinggenetic,environmentalandimmunefactors.WehavealsodiscussedthatthedelayinIBDdiagnosisandfailtocontrolit,canresultintrans-
2
www.openaccessebooks.com
InflammatoryBowelDiseaseDalaiSK
formationintothecancer.WehavealsodiscussedtheroleofTcellsaswellasmicroflorainpathogenesisofIBDandshedlightonitstherapeuticaspects.
2. Disregulated Inflammation Predisposes to IBD
Healthygutcontains10-100foldmoremicrobesthanmammaliancellsandintestinalepithelial layer hides thismicrobial line from intestinal immune systemandmaintains thepeaceornon-inflammatoryenvironment.Asthenamesuggestsinflammationisthekeytoin-ducingIBDandbysuppressinginflammationIBDcanbeameliorated.InthepathogenesisofIBD,cytokinesholdthecentralpositionasdemonstratedinmanygeneticandimmunologicalstudies(Table 1).Basedontheirnatureofevokingorsuppressingtheinflammation,theyaregroupedaspro-andanti-inflammatorycytokines.Boththeseclassesofcytokinesareinten-sivelystudiedforbetterunderstandingtheIBDbiology.Cytokinesmaintainthenormalim-munehomeostasisbytriggeringtheresponsestoinfectionsandrevertingbackinflammationtoabasallevelaftertheinfectionisresolved.Butoftendysfunctionoruncontrolledexpressionof thesecytokines triggers immunologicaldisorders.Forexample,IL-1receptorantagonist(IL-1Ra)controlstheinflammatoryresponseofIL-1cytokines,andinsteady-stateIL-1/IL-1-Rarationisfoundtobeconstant.ButanincrementintheratiowasobservedincaseofIBDduetooversecretionofIL-1bymonocytesandmacrophages.TheinvolvementofIL-1inIBDpathogenesismakesitareliablemarkerfordiagnosisofIBDandalsomakeitasuitabletargetfortherapy[4].Similarly,IL-6,-8,-12,-13,-17,-15&-21triggertheinflammationandblock-ingthesecytokinesisshowntoalleviateIBD[5,6].Anti-inflammatorycytokinesorcytokineneutralizingAbsarefoundefficaciousforIBD(Table 1).Unlikethesepro-inflammatorycy-tokines,anti-inflammatorycytokinesdownregulatetheinflammatoryconditionandhelpincuringtheIBD.ForexamplesIL-10,acrucialanti-inflammatoryplayerinCD,controlsTh17cell development andhas beneficial effects in IBD.Spontaneous development of IBDob-servedinIL-10-/-mice[7]supportthefactthatIL-10iscriticalincontrollingtheIBD.Further,useofIL-10,TGF-βandIL-4hasshowntoreverseIBD(Table1).GenomewideassociationstudiesestablishedtheimportanceofSTAT-1,-3,-4,CCR6,CCL-2,-13,IL-12R,-23R,JAK2,IL-2,-21,-10,-27andIFN-γ[8]ininductionofIBD.
AmongthecytokinesTNF-αisapotentactivatorofinflammatoryresponsesandhencedrawnattentionof researchersworking in the areaof IBD.TNF-α isnotonly involved inpathogenesisofIBDbutalsoplaysdominantroleinotherdisorderslikerheumatoidarthritis,psoriasis,psoriaticarthritis,andankylosingspondylitis[8].OverexpressionofTNF-αleadstoacascadeofinflammatoryeventswhichresultsinauto-immunediseasesincludingCDandUC.Itshowspleiotropiceffectsbyincreasingtheexpressionofadhesionmolecules,stimulat-ingfibroblastproliferation,IL-1β,IL-6,IL-33,ST2expression[Table1:Cytokinesinvolve-mentinIBD8].ElevatedlevelsofTNF-αwerefoundintheserum,mucosaandstoolofIBDpatients.Deletion ofTNF-α synthesis regulatory elements is found to evoke IBD inmice
3
InflammatoryBowelDisease
models.Interestingly,modelsofinducingIBDthroughchemicalsfailedinTNF-/-mice[9]showingtheimportanceofTNF-αinIBD.TNF-αinducesIBDthroughseveralmechanisms,forexample,recruitmentofneutrophilsoninflammationsite,activationofcoagulationandfibrinolysis,andgranulomaformation.TNF-αhastwoisoformsanditwasdemonstratedthatmembrane-boundTNF-αisdominantinevokingIBDthansolubleform[8].
Sr. No.
Cytokines In Immune Homeostasis In IBD
Pro-inflammatory Cytokines
1IL-1 family: IL-1α, -1β, -18,-33,-36α,β,γ
1. IL-1Ra controls the activity ofIL-12.ConstantIL-1/IL-1Raratio
1.Overproductionbymonocytes¯ophagehenceincreaseIL-1/IL-1Raratio.2.Reliablemarkerofinflammation.3.TargetingIL-1hastherapeuticvalues[4].
2 TNF-αCriticalplayerfordefenceagainstmicroorganisms and immunesystemdevelopment.
1.Majorsourcemacrophages,monocytes,andTh1cells.2.Showspleiotropiceffects,3.Increasetheexpressionofadhesionmolecules,4.Stimulatefibroblastproliferation,5.StimulateIL-1β,IL-6,IL-33,ST2expression[5].6.TNF-αinhibitorsareefficaciousforIBD.
3IL-6 family:IL-6, IL-11, IL-31
1. IL-6 is an immunoregulatorycytokine2. Acts as both anti- and pro-inflammatory3. Signals through IL-6-sIL-6R-receptorgp130complex.4. Immune response duringinfectionandaftertrauma.
1.Over-secretionbymononuclearcells&intestinalepithelialcells.2.IncreasedlevelofsIL-6RwasseeninUCandCDpatients.3.IL-6inducesNF-kBactivation,STAT-3andexpressionoftheintercellularadhesionmolecule1.4.IL-6helpsinTh17differentiation.5.Controlsanti-apoptoticsignalsofCD4+Tcellsatthesiteofinflammation.6.anti-IL-6receptorantibodiesreversetheIBD[10].
4 IL-8Involves in neutrophil activationandmigration
1.HighertissuelevelwasfoundinactiveUC.2.Poormarkerofdiseaseactivity[11].
5IL-12 family:IL-12, IL-23, IL-27andIL-35
1. Role in Th17 celldifferentiation.2. Produce in response to TLRstimulationorendogenoussignals.
1.ElevatedIL-12levelsinthemucosaofUCpatients.2.IL-23oversecretionleadstoactivationofNKcells,NKTcells,CD4+TcellsandCD8+Tcells.3.IL-35involvesinT-cell-dependentcolitis[5].
6 IL-13
1.Allergicinflammation2. Also show anti-inflammatoryactivityw3.InducesIgEsecretion.
1.HigherexpressionwasfoundinUCmucosa.2.OversecretionbyCD161+NKTcells.3.InhibitorsofIL-13signallingpathwaysshowingpromisingresults[5].
7
IL-17 family:IL-17A,B,C,D,E(IL-25),F
1.Allergicresponses2.Delayed-typeimmunereactionsby increasing chemokineproduction and recruitingmonocytes and neutrophils to theinflammatorysite.
1.UpregulationinIL-17levelisassociatedwithUC.2.Anti-IL-17antibodies,IL-17receptorblockerandIL-17inhibitorsareusefulintargetingIBD[5].
8 IL-5 EosinophildifferentiationfactorOverexpressionofmucosalIL-5bymononuclearcellsisseeninactiveUC[5].
Table 1:CytokinesinvolvementinIBD
4
InflammatoryBowelDisease
3. Uncontrolled IBD May Lead To Cancer
Thelinkbetweeninflammationandcanceriswellaccepted[18].ThedirectrelationofIBDwithcancer,particularlyforcolorectalcancer(CRC)wasshownbyBurrillCrohnin1925[19].Duetochronicintestinalinflammation,theIBDpatientsarefoundtohaveanincreasedriskofdevelopingCRCandtheriskincreaseswiththeprogressionofIBD[20].TheriskofCRCwascalculatedforUCanditwasfoundthatpatientswithUCafter10years,20yearsand30yearsofstartingofdiseasehasriskby2%,8%and18%respectively[21].Similarly,therelativeriskwasfoundtobe2.59forCRCand28.4forsmallbowelcarcinomainCDcases[22].
DuringIBD,inflammationisthemajorcauseforthedevelopmentofCRC[23].Asig-nificantincreaseinthelevelofinflammatorymediatorslikecyclooxygenase-2,nitricoxidesynthase-2and interferon-induciblegene 1–8Uwas found in IBDpatients leading toCRC[24].TLR4inducedCox-2andEGFRsignallingarealsoinvolvedinthepromotionofCRC[25].InactiveIBDelevatedlevelofclaudin-1,-2andBeta-cateninwasalsoobservedwhich
9 IL-211.Th1mediatedinflammation2.InducerofIFN-γproduction
1.UncontrolledsecretionofIL-21byCD4+laminaproprialTcellsleadstoIFN-γproductionresultinIBD.2.IL-21inhibitsTregdifferentiationwhichultimatelyresultsininflammatoryresponses[12].
Anti-inflammatory Cytokines
1
IL-10 family:IL-19, IL-20,IL-22, IL-24 andIL-26
1. Regulate diverse host defensemechanisms from epithelial layerduringvariousinfections2.Importantformaintenanceoftheintegrityandhomeostasisoftissueepitheliallayers3. Down-regulate inflammatoryresponses and controlstissue disruptions caused byinflammation.
1.Crucialanti-inflammatoryplayerinCD.2. IL-10 controls Th17 cell development by inducing IL-1secretion.2.BlockingofIL-10leadstoIL-12andIFN-γproduction.3.LowerexpressionofIL-10wasseenininflamedmucosaandgranulomasofCDpatients[13,14].4.IL-22iselevatedinCDmucosaandserum.
2 TGF-β
1.Actsasaninhibitorycytokine2. Regulate the immunologicalhomeostasis and inflammatoryresponses
1.TGF-β induces IL-13 expression andwhichpromotes theexpressionofcellinvasionproteins.BothcanbetargetedforCD.2.Down-regulatedexpressioninCDpatients,butinterestinglyup-regulatedinUC[15].3.Somereportssuggesttheup-regulationofTGF-β1inbothUCandCD,butinhibitedbySmad7.4.InhibitingSmad7restoresTGF-β1activitywhichsuppressesinflammationandhelpsinrecovery[16].
3 IL-41.StimulatorofBandTcells2. Immunosuppressive activity intheintestine
1. Use of anti-IL-4 antibody decreases Th2-type cytokineproductionandincreasesIFN-γproduction,suggestingroleofIL-4inIBDpathogenesis.2.AdministrationofIL-4resultedindown-regulationofVEGFinactiveCDandUCpatients[5,17].
5
InflammatoryBowelDisease
iscorrelatedwithdiseasetransformation[26].Similarly, inIBDpatients,IL-6,-23,NF-κBandTNF-αarealsoshowntoinvolveinthedevelopmentofCRC[27-31].AlsotheroleofoxidativestressinCRCdevelopmentwasexploredandfoundthatnitricoxidehascontributingroleinthesame[32].ResearchersaremakingattemptstoreducetheriskofCRCinIBDbytheearlydiagnosisofCRC,treatmentbycolonoscopicsurveillanceandbychemoprevention[33]including5-aminosalicylicacid(5-ASA)i.e.,MesalazineandSulfasalazine[34-36]haveshownverypositiveresults.
4. T cells and IBD
Gutistheprimeentrysiteforpathogenscomingthroughfoodandorallyadministeredsubstances.GALT(gutassociatedlymphoidtissue)directstissuerestrictedandlocalizedim-muneresponseto the intestinalantigens.Tcellsprimedagainst invadingpathogenmigratefromGALT to the site of infection andprotect thegut.After resolutionof infection theseantigen-experiencedTcellsmigratetotheLP(laminapropria)andepithelialcompartmentswheretheyresideaslong-livedeffectormemoryTcellsandaccumulateovertime.Uponre-encounterwiththepathogenthesecellsrespondswiftlyandvigorouslytoeliminatethepatho-gen,preventingsystemicinfection[18,19].TheseeffectormemoryTcellsproliferateslowly,producelowamountofinflammatorycytokinesthathelpmaintainorganintegrity[20].LPisalsoenrichedwiththeTregcellsrequiredforpreventingtheexcessiveresponsesagainstthegutmicrobes,therebymaintainingthegutintegrity[21].
IngutthereispresenceofselfspecificTcellsexpressinghighlevelsofbotheffectorandregulatorymolecules.TheyareusuallyinquiescentstageanduponstrongstimulationtheybecomehighlycytolyticlikeconventionalTcells.TheyrestrictmicrobialinvasionbykillinginfectedordamagedIECs[37,38].TCRγδ+Tcellsproducespro-inflammatorycytokinesandantimicrobialfactorswhichsetthebasalmucosalinflammatorytoneandlimitentericbacterialtranslocation[39].Interestingly,TCRγδ +Tcellssecreteepidermalgrowthfactor(EGF)whichalsohelpsrepairtheepitheliuminsults[40].Thoughthesecellsactlikefirst-linedefence,theiractivationisfine-tunedandhighlyregulatedtoavoiduncontrolledimmuneresponsesandtis-suedestruction.
Varietiesofmicrobialspeciescoexistandestablishcommensalrelationshipinthegutofthehumans.Inreturnofthesupplyoffoodfromthehost,microbeshelpinmetabolismanddevelopmentoftheimmunesystem.BreachingofthisrelationleadstotheIBDduetoaber-rantandpersistentimmuneresponses.AsdescribeaboveGALTisinvolvedinneutralizingthepotentiallyharmful pathogens [41].Controlling theoverwhelming immune responses afterpathogenclearanceisrequiredtoavoidresponseagainsttheselforharmlessantigens.Per-turbationinimmuneregulatorymechanismsmaypredisposethehosttothepathogenesisofIBD[42].Differentcelltypesoftheintestinallymphoidtissueareinvolvedinmaintainingthe
InflammatoryBowelDisease
6
immunetolerancetotheluminalantigensandprotectionagainstthepathogens.Infiltrationofcellsmediatinginnateimmunity(neutrophils,macrophages,anddendriticcells)andadaptiveimmunity(TandBcells)isassociatedwiththeactiveIBD.CD4+Tcells(Th1,Th2,Th17,andTfollicularhelperTFH)playimportantroleindefenceagainstpathogens.RegulatoryTcells(nTreg,iTreg;Tr1andTh3)arerequiredforcontrollingtheeffectorresponses[41].
TcellsaccumulateintheinflamedgutofIBDpatientsasaresultofenhancedrecruit-ment,increasedcellcyclingandresistanttoapoptoticsignals.PresenceofCD4+TcellsintoinflamedmucosasuggeststheinvolvementofthesecellsinthepathogenesisofIBD.ThekeyroleofCD4+TcellsinIBDiscorroboratedbytheeffectivenessofanti-CD4antibodythera-piesandsuppressionofIBDinHIVpatients[41].Intheanimalmodelsofexperimentalcolitis,theadoptivenaiveTcelltransferintoalymphopenichostisshowntoinducecolitis[41].Ontheotherhand,blockingtheCD4+Tcellfunctionisfoundtoimprovetheexperimentalcolitis.RoleofCD8+TcellsinIBDhasbeendemonstratedinexperimentalanimalmodelsandpa-tients.ElevatednumbersofCD8+TcellsisalsoreportedinIBDpatients[37].Recently,itwasfoundthatapoptosismachineryofTcellshasintrinsicdefectsinIBDpatients,thusthedefec-tivepathwayinmitochondriahasimportantimplicationsforthetreatmentofIBD.Theeffec-tivenessofTNFneutralisingdrugsforIBDtreatmenthavecorrelatedwellwiththeircapacitytoinduceTcellapoptosis.AttemptshavebeenmadetousetheinhibitorsofTcellactivation,proliferation,differentiationorhomingtocontrolIBD.
Apartfromtheincreaseinthenumberofcells,defectiveregulatoryTcellresponsesarealsoconsideredasriskfactorsforIBD.NaturalTreg(nTreg)hastheabilitytorecognizebothselfandforeignantigens,andplaysanimportantroleinthemaintenanceofself-toleranceandpreventionofchronicimmunestimulationinIBD.TCRligationwithAginthepresenceofTGF-ßinducesFoxP3onCD4+Tcells,convertsthemintoTregsandsuppressestheimmunesystem[38].HigherfrequenciesofCD25brightandFoxP3+TregscellswereseeninlaminapropriaofactiveIBDpatientsandincreasedasdiseaseprogresses[38].Interestingly,colonicbiopsiesdemonstratedlessnumberofTregsinIBDpatientscomparedtonon-IBDinflammatorydiseas-es[38].CurrentIBDtherapeuticsmayhaveaneffectonthefrequencyandfunctionofTregs.ManipulationofregulatorypathwayswouldhavetherapeuticimpactagainstIBD. ItisfoundthattheadministrationofTregsinIBDpatientshavebeneficialeffects.ApartfromadministrationofexogenousTregs,attemptshavebeenmadetoexpandtheendogenousTregpopulation,convertingnaiveTcellsintoTregsbyinsertionofFoxP3genes,modulatingCD4+ TcellsinthepresenceofTGF-ßandimprovingthesurvivalofTregsviastabilizedß-catenin&upregulationofBcl-xL[38].InducedTreg(iTreg)cellspredominantlysecreteTGF-βandIL-10tomaintainmucosalhomeostasisandprotectfromexperimentalcolitis,respectively[41].Immuno-suppressorswithabilitytoinduceTregareuseful,butincreasingthenumberofmayalsodown-regulatethedesiredimmuneresponse,therefore,criticalanalysisisrequiredbefore
InflammatoryBowelDisease
7
targetingthepathwayofTregs.
5. Gut microbiota and IBD
Hostmicrobialinteractionsandimportanceofintestinalmicrobiotaformetabolismandhostdefencearewellestablished.Humansevolvewiththesemicrobesanditisknownthataround1,800generawith15,000-36,000bacterialspeciesco-existintheintestine[43].Itisinterestingtoknowthatthebacterialload(i.e.,1014bacteria)inhumangutis100timesmorethanthehumancells(i.e.,1012cells).Mucosalimmunecellscantargetthesemicrobesandevokeimmuneresponses.Theepitheliallayerscoveringthebowelwallcontroltheentryofgutfloraandminimizetheinteractionofmicrobeswiththeimmunecells[44].Alargebodyofstudiesisfocussedonimmuneresponsesaswellasmaintenanceofimmunetolerancetotheintestinalmicrobes.TheimmuneresponsesarelargelyprovokedbyrecognitionofPAMPs(pathogenassociatedmolecularpatterns)bytoll-likereceptors(TLRs).Apartfrommicrobes,themetabolites frommicrobesare shown toplay important role in inducing inflammation.Sometimesmicrobespenetratethebowelwallandprovokeimmuneresponses[45].TherearemanyreportssuggestingtheroleofentericflorainthepathogenesisofUCandCD[46-48].Itisobservedthattheareawithhighestbacterialloadshowshighestdegreeofinflammation.LoweringthebacterialloadbyantibioticshasbeenshowntoabrogatetheprogressionofIBD.ItisworthnotingthatinoculationofbacteriasuccessfullyinducesIBDinexperimentalmice[45].Genome-wideanalysisofhealthyandIBDpatientsprovidestheclueofmicrobialcon-nectionwithIBDanditisfoundthat>160SNPsareidentifiedasmarkersofriskforIBD.Interestingly,manyofthesegenesarecriticallyinvolvedinhostresponsestothemicroflora.MutationsinNOD2,ATG16L1,IRGM,CARD9andIL23RappeartobecriticalininducingIBD[1].
TounderstandtheinvolvementofbacteriainCrohn’sdiseasealargestudyinvolving668childrenwasconducted.Theresultshowsthedecreaseinnumbersofbeneficialbacteriaandincreaseinnumbersofharmfulbacteriainthegutofpatients[49].FirmicutestoBacteroidetesratiowasfoundtobedecreasedinIBD(bothCDandUC)[50,51].Apartfromtheinvolve-mentofabacterialshiftinIBD,roleoffungusisalsoreported.BysuppressingthefungalflorabyprobioticSchreiberetal.successfullytreatedtheUCsuggestingtherequirementofnotonlybacterialdiversitybutalsofungalandbacterialratio.IBDcanalsodevelopduetoinfectionsofMycobacteria, Shigella, Salmonella, Yersinia, Clostridium difficile andBacteroides vulgates [52].ThereductioninBifidobacterialoadandincrementinE. coliandclostridia loadinrectalmucosawasobservedinUCpatientsanda250-foldchangeinthebalancewasobserved[53].Surprisingly,inCDcasestheE. coliloadwasfoundincreasedbutnochangewasobservedinBifidobacteriaload[53].
6. Microflora and T cells shape each other: a check point for IBD
InflammatoryBowelDisease
8
GutmicrobiotaispostulatedtodirectandmodulatetheTcellactivationanddifferentia-tion.Itisevidentfromthefactthatgermfree(GF)rodentsdonotdevelopintestinalinflam-mationorimmuneactivationandtheyhavereducednumbersofCD4+andCD8+Tcellsthatgetrestoredfollowingrecolonizationwithmicrobiome[54].TcellclonesspecifictoEnter-obacteriaceae, Bacteroides,andBifidobacteriumwereisolatedfromthegut[55].Theimmunesystemistrainedtodevelopresponsesnotonlyagainstthepathogens,butalsotothecom-mensal trying toescape thehomeostasismechanisms.WhenintestinalparasiteToxoplasma gondiiinfectionoccurs,CD4+Tcellsdevelopresponsesagainstthepathogenandalsoagainstthetranslocatingcommensalbreachingthetolerancetocommensal[41].ThesemicrobesalsomodulateTh-17cellresponsesaswellasIL-17secretion;anditwasobservedthatGFmiceormicetreatedwithantibioticstoeliminatethecommensalbacteriahavecomparativelylowernumbersofTh-17cells.SegmentedFilamentousBacteria(SFB),agroupofgutmicrobehavebeenshowntoplayimportantroleinthedifferentiationoftheTh17TcelllineageaswellasIL-22-producingCD4+Tcellsinthesmallintestineandthecolon,andalsomediateprotectionagainstentericinfectionbyCitrobacter rodentium[41].DisproportionateSFBfrequencyhasdirectassociationwith IBD.Commensalbacteriaalsomodulate thebalancebetween regu-latoryandeffectorTcellsviapatternrecognitionreceptors, includingTLRs.DendriticcellstimulationbyTLR5leadstoanincreaseinIL-23,whichfurtherpromotestheTh17effectorcellpathwaytothedetrimentofFoxp3+Treg[41].
ItisestablishedthatregulatoryTcells(Tregs)alsoplayacriticalroleinthemaintenanceofguthomeostasis.InterestinglyitisobservedthatthegenerationandfunctionofTregsareinfluencedbythecolonfloralikeClostridiaandBacteroides fragilis butnotbythemicrobesinsmallintestine.Clostridiaclusters(Clostridium leptum andClostridium coccoides)arefoundtoinduceproliferationanddifferentiationofperipheralTregandhelpaccumulateCD4+CD25+ Foxp3+Tregincolon[41].ByreconstitutingGFmicewithamixof46ClostridialstrainsitwasshownthatasignificantnumberofTregswereaccumulated,inthececumandthecolon,tolevelssimilartothatofSPFmicebutsimilaraccumulationwasnotpossibleby16Bacteroidesspecies,SFB,and3Lactobacillusspecies.TheprotectiveeffectofClostridiaspeciesmaybemediatedtoalargeextentbySCFA(shortchainfattyacids)whichsupporttheexpansionoftheexistingpoolofcolonicTregs[41].
ItisamplyclearfromtheabovefindingsthatmicrofloracriticallyshapestheTcellre-sponses.Ontheotherhand,interestingly,TcellsappeartoshapetheGutMicrobiome.Thereis emerging evidencewhich demonstrates this reciprocal relationship betweenT cells andtheirabilitytoshapethecompositionofthegutmicrobiota.Thedifferenceinmicrobiotadi-versityandloadwasseeninRag1−/−micevs.normalmice.TheimmunodeficientmicehaveincreasedloadofAkkermansiamuciniphilabutdecreasedloadofLactobacillalesandEnter-obacteriales[41]comparedtothatofnormalmicestronglysupportstheideathatTcellplays
InflammatoryBowelDisease
9
importantroleinshapingtheGutMicrobiome.
7. Targeting IBD
CurrentlyIBDistreatedbythewaitandwatchapproachwiththehelpofdrugswhichalleviatethesymptomsbyregulatingtheinflammation.AminosalicylatesandCorticosteroidsareusedtocontroltheinflammations[56,57].AntibioticslikeMetronidazoleandCiprofloxa-cinarebeingusedtoreducethebacterialload.Apartfromthesetraditionalmethods,manybiologicsarenowbeingtriedtoforIBD.Theantibodiesthatcontroltheloadoffungus,Sac-charomyces cerevisiae [3]are inuse target thepro-inflammatorycytokines, induceanti-in-flammatorycytokinesandalsotoblocktheintravascularadhesionmolecules.TNF-αinhibi-torslikeInfliximab(Remicade),adalimumab(Humira)andantiα4-integrinlikecertolizumabpegol (Cimzia)arealsoplaying important role incontrolling thepathogenesisof IBD[56](Table 2).
Sr. No.
Therapeutics Examples Mechanism of action Side effects
1 AminosalicylatesMesalazine,Sulfasalazine,Olsalazine,Balsalazide
ActivationofPPARγ1.Inhibitionofmacrophage2.chemotaxisInhibitionofNF-κB,STAT&3.AP-1
Diarrhea,nausea,vomiting,headache,abdominalpain,hepaticabnormalities,Arthralgiaandmyalgia
2 Corticosteroids
Budesonide,Dexamethasone,Hydrocortisone,Methylprednisolone,Prednisolone,Prednisone
Down-regulationofNF-κB1.Inhibitionofcytokine2.productionBlockingtherecruitmentof3.immunecellsInhibitionofexpressionof4.adhesionmolecules
Osteoporosis,metabolicsyndrome,cardiovasculardisease,infections,osteonecrosis,andcataract
3 AntibioticsMetronidazole,Ciprofloxacin,
Decreasebacterialload1.Suppresstheintestine'simmune2.system
Numbness,tingling,musclepain,weakness,tendonrupture
4 ThiopurinesAzathioprine,6-mercaptopurine
Immunesystemsuppressors1.Inhibitionofproteinsynthesis2.InhibitionofLymphocyte3.proliferationInduceapoptosisofactivated4.TcellsBlockingofTRAIL,TNFRS75.&α4-integrin
Suppressionofdesiredimmuneresponsesmeanslossofresistancetoinfection,verylesschanceofdevelopinglymphomaandskincancers,adverseeffectsonliverandpancreas,
5Folicacidantagonists
MethotrexateInhibitionoffolatepathwayandpurineandpyrimidinesynthesis
Hepatotoxicity,nausea,fatigue,pneumonia,bonemarrowsuppression,cancer.
Table 2:TherapeuticsforIBD,theirmodeofactionandpossiblesideeffects
InflammatoryBowelDisease
10
8. Probiotic as therapy
Itisevidentfromvariousstudiesthatmicroflorapayskeyroleininitiationormodula-tionofinflammationinfluencingtheonsetorprogressionofIBD.Andthefactthatdisruptionin themicrobioticbalanceevokes IBDopensnewavenues foruseofbacterial inoculation(probiotic)totargettheIBDbyrestoringthebalance.Probioticsareclaimedtobesafer,easiertoproduceandadminister topatients than thepharmadrugsand immune-modulators.Thesideeffectofbiologicsandtheirabilitytomodulatetheimmunesystemiswellknownthere-forealternativebetterstrategiesshouldbepreferred.ManyexperimentalmodelsandclinicalstudiessuggestthesuitabilityofprobioticsfortargetingIBDandalsotheinfectionrateduetoprobioticsisnegligiblei.e.,between0.05%and0.4%cases(58).TheperfectmechanismbywhichprobioticalleviatesIBDisstillnotclear.MadsenetalfoundthatprobioticVSL#3(Non-pathogenicSalmonellastrains)actonepithelialbarriersandimprovetheresistancetoIBDinduction[59].KailaetalproposedantibodyproductionbyBifidobacterium breve[60],andMajamaaetalproposedenhancedcellmediatedphagocytosisbytheuseofBifidobacte-rium lactisprobiotic[61].ModulationofNF-kBpathway,preventionofepithelialapoptosis,antimicrobialactivityandimmunetolerancewereobservedbyuseofVSL#3,Lactobacillus rhamnosus GG,Enterococcus faeciumandBifidobacterium lactis respectively[58,59,62].EachstrainactsdifferentiallyanditwasfoundfromastudyconductedbyR.N.Fedoraketal[58]thatfivemechanismsmightberesponsiblefortheactionofprobioticsinalleviatingIBD:[1]probioticscompetewithmicrobialpathogensforreceptorspresentonthesurfaceepithe-lium;[2]immunomodulationofgut-associatedlymphoidandepithelialcells;[3]suppressionofpathogengrowththroughreleaseofantimicrobialfactorsbyprobiotics[4]enhancementofmucosalbarrierfunction;and[5]inductionofT-cellapoptosis[58].
ClinicalstudiesusingprobioticstotargetCDdemonstratedhighlyencouragingresults.Guptaetal.usedLactobacillusGGandobservedsignificantimprovementinthePaediatricCDactivityindexwithinoneweek.McCarthyetal.showedthat76%patientsavoidedothertreatmentsafter3monthsof Lactobacillus salivariustherapy[63].Apartfrominvestigatingthecontrolofactivediseasemanyclinicalstudieswereperformedtoevaluatethemaintenance
6 Anti-TNF
Infliximab,Adalimumab,Certolizumabpegol,Golimumab
InhibitionofcytokineTNF-αthusactasanti-inflammatory
Costly,treatmentfailure,infusionreactions,infections,autoimmunity,lymphomas
7 Anti-α4-integrinNatalizumab,Vedolizumab
InhibitionofT-cellmigrationProgressivemultifocalleukoencephalopathy
8 Probiotics
Lactobacillusspecies,Bifidobacteriumspecies,E.ColiNissle,yeastSaccharomycesboulardii
Inhibitionofdiseasecausing1.bacteriafromstickingtotheliningoftheintestinesInhibitinflammation2.Re-maintenanceofnaturalmicro3.flora
Sofar,noserioussideeffectshavebeenreported
InflammatoryBowelDisease
11
ofmedical-andsurgical- induced remission [58].Thestudiesdemonstrated thatprobioticsnotonlyalleviateCDbutalsobeneficialforUCandremissionmaintenance.Thestudiesper-formedbyRembackenetal[64],Fedoraketal[65],Guslandi etal[66]andBorody etal[67]withE. coli Nissle,VSL#3,Saccharomyces boulardiiandfecalenemas-showverypromis-ingresults.Geneticallymodifiedmicroorganismforprobiotic,Lactococcus lactis-modifiedtosecretandthusaccumulateIL-10atthemucosalsurfacewasfoundtopreventIBD[14].TheoverallfindingssupportthatprobiotictherapyhelpsmaintainthenaturalgutmicrofloraandthusasuitablecandidateforthetreatmentofIBD.
9. Conclusion and future perspective
The emerging cases during last two decades and severity associatedwith IBDneedfocusedeffortstodevelopsuitabletherapeutics.Thegutmicrobialcompositionanditsrela-tionshipwithimmunesystemarethekeyconsiderationsforIBD.IBDistargetedbyvariousmeansincludingantibiotics,drugsandimmunemodulators.Theseagentsshowsideeffects,highlyexpensiveandproductionisnotadequatetoreachtothelargepopulation.AlthoughthetherapeuticagentsactthroughvariousmechanismstotargetIBD,itiscriticaltomaintainthebalanceofmicroflorainthegut.AsthemodulationofTcellsshapethemicroflora,aprerequi-sitetomaintainahealthygut,weshoulduseprobiotictotreatIBD.
10. References
1.DalalSR,ChangEB.Themicrobialbasisof inflammatoryboweldiseases.The Journalof clinical investigation.2014;124(10):4190-6.
2.IBDEot.https://www.cdc.gov/ibd/ibd-epidemiology.htm.
3.UnderhillD,BraunJ.CurrentUnderstandingofFungalMicroflorainInflammatoryBowelDiseasePathogenesis.Inflammatoryboweldiseases.2008;14(8):1147-53.
4.LigumskyM,SimonPL,KarmeliF,RachmilewitzD.Roleofinterleukin1ininflammatoryboweldiseaseenhancedproductionduringactivedisease.Gut.1990;31(6):686-9.
5.MuzesG,MolnarB,TulassayZ,SiposF.Changesofthecytokineprofileininflammatoryboweldiseases.Worldjournalofgastroenterology.2012;18(41):5848-61.
6.MoldoveanuAC,DiculescuM,BraticeviciCF.Cytokinesininflammatoryboweldisease.Romanianjournalofinter-nalmedicine=Revueroumainedemedecineinterne.2015;53(2):118-27.
7.ScheininT,ButlerDM,SalwayF,ScallonB,FeldmannM.Validationoftheinterleukin-10knockoutmousemodelofcolitis:antitumournecrosisfactor-antibodiessuppresstheprogressionofcolitis.ClinicalandExperimentalImmunol-ogy.2003;133(1):38-43.
8.NeurathMF.Cytokinesininflammatoryboweldisease.NatRevImmunol.2014;14(5):329-42.
9.vanHeelDA,UdalovaIA,DeSilvaAP,McGovernDP,KinouchiY,HullJ,etal.Inflammatoryboweldiseaseisas-sociatedwithaTNFpolymorphismthataffectsaninteractionbetweentheOCT1andNF(-kappa)Btranscriptionfactors.Humanmoleculargenetics.2002;11(11):1281-9.
InflammatoryBowelDisease
12
10.MudterJ,NeurathMF.Il-6signalingininflammatoryboweldisease:pathophysiologicalroleandclinicalrelevance.InflammBowelDis.2007;13(8):1016-23.
11.JonesSC,EvansSW,LoboAJ,CeskaM,AxonAT,WhicherJT.Seruminterleukin-8ininflammatoryboweldisease.Journalofgastroenterologyandhepatology.1993;8(6):508-12.
12.PalloneF,FinaD,CarusoR,MonteleoneG.RoleofIL-21ininflammatoryboweldisease.Expertreviewofclinicalimmunology.2010;6(4):537-41.
13.LeachMW,DavidsonNJ,FortMM,PowrieF,RennickDM.TheroleofIL-10ininflammatoryboweldisease:“ofmiceandmen”.Toxicologicpathology.1999;27(1):123-33.
14.SchotteL,SteidlerL,VandekerckhoveJ,RemautE.Secretionofbiologicallyactivemurineinterleukin-10byLac-tococcuslactis.Enzymeandmicrobialtechnology.2000;27(10):761-5.
15.DelZottoB,MumoloG,PronioAM,MontesaniC,TersigniR,BoirivantM.TGF-β1productionininflammatoryboweldisease:differingproductionpatternsinCrohn’sdiseaseandulcerativecolitis.ClinicalandExperimentalIm-munology.2003;134(1):120-6.
16.MarafiniI,ZorziF,CodazzaS,PalloneF,MonteleoneG.TGF-BetasignalingmanipulationaspotentialtherapyforIBD.Currentdrugtargets.2013;14(12):1400-4.
17.WestGA,MatsuuraT,LevineAD,KleinJS,FiocchiC.Interleukin4ininflammatoryboweldiseaseandmucosalimmunereactivity.Gastroenterology.1996;110(6):1683-95.
18.TerzicJ,GrivennikovS,KarinE,KarinM.Inflammationandcoloncancer.Gastroenterology.2010;138(6):2101-14e5.
19.CrohnBBRH.Thesigmoidoscopicpictureofchroniculcerativecolitis.AmJMedSci.1925;170:220-8.
20.AxelradJE,LichtigerS,YajnikV.Inflammatoryboweldiseaseandcancer:Theroleofinflammation,immunosup-pression,andcancertreatment.Worldjournalofgastroenterology.2016;22(20):4794-801.
21. Eaden JA,AbramsKR,Mayberry JF.The risk of colorectal cancer in ulcerative colitis: ameta-analysis. Gut.2001;48(4):526-35.
22.CanavanC,AbramsKR,MayberryJ.Meta-analysis:colorectalandsmallbowelcancerriskinpatientswithCrohn’sdisease.Alimentarypharmacology&therapeutics.2006;23(8):1097-104.
23.ItzkowitzSH,YioX.InflammationandcancerIV.Colorectalcancerininflammatoryboweldisease:theroleofin-flammation.AmericanjournalofphysiologyGastrointestinalandliverphysiology.2004;287(1):G7-17.
24. Clevers H. Colon cancer--understanding how NSAIDs work. The New England journal of medicine.2006;354(7):761-3.
25.FukataM,ChenA,VamadevanAS,CohenJ,BreglioK,KrishnareddyS,etal.Toll-likereceptor-4promotesthedevelopmentofcolitis-associatedcolorectaltumors.Gastroenterology.2007;133(6):1869-81.
26.WeberCR,NalleSC,TretiakovaM,RubinDT,TurnerJR.Claudin-1andclaudin-2expressioniselevatedinin-flammatoryboweldiseaseandmaycontributetoearlyneoplastictransformation.Laboratoryinvestigation;ajournaloftechnicalmethodsandpathology.2008;88(10):1110-20.
27.FantiniMC,PalloneF.Cytokines:fromgutinflammationtocolorectalcancer.Currentdrugtargets.2008;9(5):375-80.
28.AtreyaR,NeurathMF.InvolvementofIL-6inthepathogenesisofinflammatoryboweldiseaseandcoloncancer.Clinicalreviewsinallergy&immunology.2005;28(3):187-96.
InflammatoryBowelDisease
13
29.SchotteliusAJ,DinterH.Cytokines,NF-kappaB,microenvironment, intestinal inflammationandcancer.Cancertreatmentandresearch.2006;130:67-87.
30.TangW,WangW,ZhangY, Liu S, LiuY, ZhengD.Tumour necrosis factor-related apoptosis-inducing ligand(TRAIL)-inducedchemokinereleaseinbothTRAIL-resistantandTRAIL-sensitivecellsvianuclearfactorkappaB.TheFEBSjournal.2009;276(2):581-93.
31.YanB,WangH,RabbaniZN,ZhaoY,LiW,YuanY,etal.Tumornecrosisfactor-alphaisapotentendogenousmu-tagenthatpromotescellulartransformation.Cancerresearch.2006;66(24):11565-70.
32.SawaT,OhshimaH.NitrativeDNAdamageininflammationanditspossibleroleincarcinogenesis.Nitricoxide:biologyandchemistry.2006;14(2):91-100.
33.LakatosPL,LakatosL.Riskforcolorectalcancerinulcerativecolitis:changes,causesandmanagementstrategies.Worldjournalofgastroenterology.2008;14(25):3937-47.
34.KahnMJ,MorrisonDG.Chemopreventionforcolorectalcarcinoma.Hematology/oncologyclinicsofNorthAmer-ica.1997;11(4):779-94.
35.RyanBM,RusselMG,LangholzE,StockbruggerRW.AminosalicylatesandcolorectalcancerinIBD:anot-sobitterpilltoswallow.TheAmericanjournalofgastroenterology.2003;98(8):1682-7.
36.RousseauxC,LefebvreB,DubuquoyL,LefebvreP,RomanoO,AuwerxJ,etal.Intestinalantiinflammatoryeffectof5-aminosalicylicacidisdependentonperoxisomeproliferator-activatedreceptor-gamma.JExpMed.2005;201(8):1205-15.
37.FunderburgNT,StubblefieldParkSR,SungHC,HardyG,ClagettB,Ignatz-HooverJ,etal.CirculatingCD4(+)andCD8(+)Tcellsareactivatedininflammatoryboweldiseaseandareassociatedwithplasmamarkersofinflammation.Immunology.2013;140(1):87-97.
38.BodenEK,SnapperSB.RegulatoryTcellsininflammatoryboweldisease.Currentopinioningastroenterology.2008;24(6):733-41.
39.IsmailAS,BehrendtCL,HooperLV.ReciprocalInteractionsbetweenCommensalBacteriaandγδIntraepithelialLymphocytesduringMucosalInjury.Journalofimmunology(Baltimore,Md:1950).2009;182(5):3047-54.
40.ChenY,ChouK,FuchsE,HavranWL,BoismenuR.ProtectionoftheintestinalmucosabyintraepithelialgammadeltaTcells.ProcNatlAcadSciUSA.2002;99(22):14338-43.
41.LarmonierCB,ShehabKW,GhishanFK,KielaPR.TLymphocyteDynamicsinInflammatoryBowelDiseases:RoleoftheMicrobiome.BioMedresearchinternational.2015;2015:504638.
42.SartorRB.Microbialinfluencesininflammatoryboweldiseases.Gastroenterology.2008;134(2):577-94.
43.PetersonDA,FrankDN,PaceNR,GordonJI.MetagenomicApproachesforDefiningthePathogenesisofInflam-matoryBowelDiseases.Cellhostµbe.2008;3(6):417-27.
44.GotoY,KiyonoH.Epithelialbarrier:aninterfaceforthecross-communicationbetweengutfloraandimmunesys-tem.Immunologicalreviews.2012;245(1):147-63.
45. Becker C, Neurath MF, Wirtz S. The Intestinal Microbiota in Inflammatory Bowel Disease. ILAR journal.2015;56(2):192-204.
46.SheilB,ShanahanF,O’MahonyL.ProbioticEffectsonInflammatoryBowelDisease.TheJournalofNutrition.2007;137(3):819S-24S.
47.VernaEC,LucakS.Useofprobioticsingastrointestinaldisorders:whattorecommend?TherapeuticAdvancesinGastroenterology.2010;3(5):307-19.
InflammatoryBowelDisease
14
48.CAMPIERIM,GIONCHETTIP.Bacteriaasthecauseofulcerativecolitis.Gut.2001;48(1):132-5.
49.http://www.sciencemag.org/news/2014/03/crohns-disease-marked-dramatic-changes-gut-bacteria.
50. Matsuoka K, Kanai T. The gut microbiota and inflammatory bowel disease. Seminars in Immunopathology.2015;37:47-55.
51.KabeerdossJ,JayakanthanP,PugazhendhiS,RamakrishnaBS.Alterationsofmucosalmicrobiotainthecolonofpa-tientswithinflammatoryboweldiseaserevealedbyrealtimepolymerasechainreactionamplificationof16Sribosomalribonucleicacid.TheIndianJournalofMedicalResearch.2015;142(1):23-32.
52.SteidlerL.Microbiologicalandimmunologicalstrategiesfortreatmentofinflammatoryboweldisease.MicrobesandInfection.2001;3:10.
53.MylonakiM,RaymentNB,RamptonDS,HudspithBN,BrostoffJ.Molecularcharacterizationofrectalmucosa-associatedbacterialfloraininflammatoryboweldisease.InflammBowelDis.2005;11(5):481-7.
54.SmithK,McCoyKD,MacphersonAJ.Useofaxenicanimalsinstudyingtheadaptationofmammalstotheircom-mensalintestinalmicrobiota.Seminarsinimmunology.2007;19(2):59-69.
55.DuchmannR,MayE,HeikeM,KnolleP,NeurathM,MeyerzumBuschenfeldeKH.Tcellspecificityandcrossreactivitytowardsenterobacteria,bacteroides,bifidobacterium,andantigensfromresidentintestinalflorainhumans.Gut.1999;44(6):812-8.
56.Sales-CamposH,BassoPJ,AlvesVBF,FonsecaMTC,BonfáG,NardiniV,etal.Classicalandrecentadvancesinthetreatmentofinflammatoryboweldiseases.BrazilianJournalofMedicalandBiologicalResearch.2015;48(2):96-107.
57.WilliamsC,PanaccioneR,GhoshS,RiouxK.Optimizingclinicaluseofmesalazine(5-aminosalicylicacid)inin-flammatoryboweldisease.TherapeuticAdvancesinGastroenterology.2011;4(4):237-48.
58.FedorakRN,MadsenKL.Probioticsand themanagementof inflammatoryboweldisease. InflammBowelDis.2004;10(3):286-99.
59.MadsenK,CornishA,SoperP,McKaigneyC,JijonH,YachimecC,etal.Probioticbacteriaenhancemurineandhumanintestinalepithelialbarrierfunction.Gastroenterology.2001;121(3):580-91.
60.KailaM,IsolauriE,SoppiE,VirtanenE,LaineS,ArvilommiH.EnhancementofthecirculatingantibodysecretingcellresponseinhumandiarrheabyahumanLactobacillusstrain.Pediatricresearch.1992;32(2):141-4.
61.MajamaaH,IsolauriE,SaxelinM,VesikariT.Lacticacidbacteriainthetreatmentofacuterotavirusgastroenteritis.Journalofpediatricgastroenterologyandnutrition.1995;20(3):333-8.
62.Resta-LenertS,BarrettKE.Liveprobioticsprotectintestinalepithelialcellsfromtheeffectsofinfectionwithen-teroinvasiveEscherichiacoli(EIEC).Gut.2003;52(7):988-97.
63.McCarthyJ,O’MahonyL,O’CallaghanL,SheilB,VaughanEE,FitzsimonsN,etal.Doubleblind,placebocon-trolledtrialoftwoprobioticstrainsininterleukin10knockoutmiceandmechanisticlinkwithcytokinebalance.Gut.2003;52(7):975-80.
64.RembackenBJ,SnellingAM,HawkeyPM,ChalmersDM,AxonAT.Non-pathogenicEscherichiacoliversusme-salazineforthetreatmentofulcerativecolitis:arandomisedtrial.Lancet(London,England).1999;354(9179):635-9.
65.BibiloniR,FedorakRN,TannockGW,MadsenKL,GionchettiP,CampieriM,etal.VSL#3probiotic-mixturein-ducesremissioninpatientswithactiveulcerativecolitis.TheAmericanjournalofgastroenterology.2005;100(7):1539-46.
66.GuslandiM,GiolloP,TestoniPA.ApilottrialofSaccharomycesboulardiiinulcerativecolitis.Europeanjournalof
InflammatoryBowelDisease
15
gastroenterology&hepatology.2003;15(6):697-8.
67.BorodyTJ,WarrenEF,LeisS,SuraceR,AshmanO.Treatmentofulcerativecolitisusingfecalbacteriotherapy.Journalofclinicalgastroenterology.2003;37(1):42-7.