Prenatal inflammatory exposures and neonatal immune development
Chougnet, Claire A.   
Cincinnati Children's Hospital Medical Center, Cincinnati, OH, United States

The ?Developmental Origin of Health and Disease? hypothesis posits that susceptibility to a number of non- communicable diseases can be influenced by in utero exposures (nutritional, environmental, inflammatory). Whilethishypothesisisincreasinglyaccepted,particularlyfordiseaseswithanimmuneetiology(i.e.allergic, autoimmune),themechanismsinvolvedremainunresolved.Amajorknowledgegapthatlimitsprogressinthis areaistheremainingpaucityofinformationregardingthe?normal?immuneprocessesthatoccurduringcritical pre-andperinatalperiods,andhowthisdevelopmentmaybeinfluencedbyfetalexposures.Onefetalexposure witharepeatedandrobustimpactonlong-termhealthisinflammationoftheplacenta?termedchorioamnionitis (chorio),which,inseverecases,leadstoinflammationoffetalmembranesandincreasedlevelsofinflammatory mediatorsinboththeamnioticfluidandtheneonates?cordbloods.Ourpreliminarydatashowinhumaninfants thatexposuretoseverechorio(1)isassociatedwithrespiratorymorbidityduringearlyinfancy,and(2)leadsto increasedlevelsoftheTh17-associatedtranscriptionfactorRORCinthecirculationinthefirstmonthoflife.To getdeeperinsightsintotheunderlyingmechanisms,wehavedevelopedanexperimentalmodelofchoriointhe Rhesus macaque, which presents with very high level of similarities with human chorio. Intra-amniotic (IA) injectionofLPSintopregnantanimalsleadstomassiveneutrophilicinfiltrationandup-regulationofinflammatory cytokinesinthechorio-decidua,andsignificantchangesinthefetalimmunesystem,including(1)severelung inflammation;?(2)alterationoftheregulatoryTcell(Treg)/Th17balanceinthespleen,withtheincreasedaccrual of ?inflammatory Tregs?;? and (3) increased proportion of activated type 3 innate lymphoid cells (ILC3) in the mucosalareas.LPS-inducedfetalinflammationwaslargelydrivenbyIL-1-dependentmechanisms. Thesedataleadustohypothesizethatexposuretochorioinducesalterationsofthefetalsystemicandmucosal immunesystem,notablythroughalterationsofTregsandILCs,thatpredisposetopost-nataldiseases,including respiratoryproblems.Wewill(1)analyzeindepththeaccrualoffetalinflammatoryTregsinthecontextofchorio, usingsinglecellRNAseq,methylationprofilinganduniquefunctionalassays;?(2)analyzehowfetalinflammation directs the ontogeny and functional development of ILC3 through detailed phenotyping of ILC and their progenitorsforhoming/adhesionmolecules,analysisofthetranscriptomeoffetalNHPILCbyscRNAseq,and the use of unique ILC3 functional assays we have developed;? and 3) determine how fetal inflammation longitudinallyimpactsaccumulationofinflammatoryTregsorILC3precursordevelopment,andneonatalimmune function,bymonitoringcontrolandchorio-exposedneonatesfrombirthto4monthsofage,characterizing1)the normalcourseofrecruitmentofinflammatoryTregsandILC3invariouscompartments,and2)immuneresponses tocommonneonatalvaccinesandenvironmentalallergens.

Public Health Relevance

Susceptibility to a number of non-communicable diseases are influenced by in utero exposures (nutritional, environmental,inflammatory).However,themechanismsinvolvedremainunresolved.Amajorknowledgegap thatlimitsprogressinthisareaistheremainingpaucityofinformationregardingthe?normal?immuneprocesses that occur during critical pre- and perinatal periods, and how this development may be influenced by fetal exposures. Ourdatashowthatinuteroplacentalinflammationaltersthefetalimmunesystem,whichcouldpredisposeto post-natal diseases, including respiratory problems. We will use the experimental model of pregnant rhesus macaquetostudytheunderlyingmechanisms,aswellastodeterminehowfetalinflammationimpactsneonatal immuneresponsesafterbirth.