Abstract
Intellectual disability in Down syndrome (DS) appears to be related to severe proliferation impairment during brain development. Recent evidence shows that it is not only cellular proliferation that is heavily compromised in DS, but also cell fate specification and dendritic maturation. The amyloid precursor protein (APP), a gene that is triplicated in DS, plays a key role in normal brain development by influencing neural precursor cell proliferation, cell fate specification, and neuronal maturation. APP influences these processes via two separate domains, the APP intracellular domain (AICD) and the soluble secreted APP. We recently found that the proliferation impairment of neuronal precursors (NPCs) from the Ts65Dn mouse model for DS was caused by derangement of the Shh pathway due to overexpression of patched1(Ptch1), its inhibitory regulator. Ptch1 overexpression was related to increased levels within the APP/AICD system. The overall goal of this study was to determine whether APP contributes to neurogenesis impairment in DS by influencing in addition to proliferation, cell fate specification, and neurite development. We found that normalization of APP expression restored the reduced neuronogenesis, the increased astrogliogenesis, and the reduced neurite length of trisomic NPCs, indicating that APP overexpression underpins all aspects of neurogenesis impairment. Moreover, we found that two different domains of APP impair neuronal differentiation and maturation in trisomic NPCs. The APP/AICD system regulates neuronogenesis and neurite length through the Shh pathway, whereas the APP/secreted AP system promotes astrogliogenesis through an IL-6-associated signaling cascade. These results provide novel insight into the mechanisms underlying brain development alterations in DS.
Highlights
Individuals with Down syndrome suffer from mental retardation due to severe neurogenesis impairment
Neuronal Precursor Cell Cultures from the Ts65Dn Mouse Exhibit Altered Cell Fate Specification and Reduced Neurite Length, Similar to the in Vivo Condition—We previously reported that NPCs from the subventricular zone of Ts65Dn mice exhibited a defect in cell fate specification at the third passage (P3) in culture similar to that observed in vivo [26]
These results suggest that trisomic NPCs have an intrinsic defect in cell fate specification that is independent from the passage in culture
Summary
Individuals with Down syndrome suffer from mental retardation due to severe neurogenesis impairment. Results: Normalization of the triplicated gene APP expression restores neuronal maturation and differentiation in trisomic neuronal precursors. Conclusion: APP overproduction contributes to neurogenesis impairment in DS. Significance: APP signaling may be a target for therapeutic approaches aiming to improve brain development in DS. Intellectual disability in Down syndrome (DS) appears to be Down syndrome (DS) is a genetic pathology caused by triprelated to severe proliferation impairment during brain development. ReTchenist eavirdteincclee shhoawssbtheaet nit iws niotht odnrlyawcelnlulbaryptrho-e alhuicatavhteiovonarrsioofuuhspumomenadnictcahhleprorromebolqesmoumes,esbtu21to.ifnItntedhllieevcidtuuaallsdiwsaitbhiliDtySismthaye liferation tJhoatuisrnheaalv.ilIyncDomepcreommisbeed rin2D0S1, 9bu,ttahlseo Jcoelul franteal ruaniasveoiddaqbuleehsatllimoanrks aanbdothuetmFoigstsi.n2val(iBda-t-iDng),aspect of this sppreocteifiinca(AtioP6nPA)a,n,adagednnednedt7hriaDttic.ismItnraitppuliracaratttioeidcn.uinTlahDerS,a, pminlayylFosiiadgkspe.rye2crouBlres(oiPnrtchpma1atjhoporalodngeyteewlr)mitaihnnaadnnt6ootfAaibn,lteseolilmemcptaeucatbl doainscapkbugilbirtloyicuishnceoadlntshid(e1r,e2d).toThbee normal brafineadetvuerloepsmwenet rbey irneflumenocvinegdn.euFriaglsp.re2cu(rCsoar ncedll D)thaencdha7raDctewrisetirceallcyodmecrpeaosseidtebraimin asigzeeso.f Iinndividuals with pArPoPlifienrfalutieoFnnic,gecs.elt2lhDfeast,eeopsrnpoeecceiofsiscfeasttihvoinea,tPawntodcshneep1uarrboataneanlddmosmataiusinradst,uitohpne.licaDprtSiem. DTah.ryeTshhoymepoaactoeusllteuhnlasoorirrtysy owbseerrevedabinlethetoprliomcaraytveisual cortex, cortex, primary motor cortex, primary ReTchenist eavirdteincclee shhoawssbtheaet nit iws niotht odnrlyawcelnlulbaryptrho-e alhuicatavhteiovonarrsioofuuhspumomenadnictcahhleprorromebolqesmoumes,esbtu21to.ifnItntedhllieevcidtuuaallsdiwsaitbhiliDtySismthaye liferation tJhoatuisrnheaalv.ilIyncDomepcreommisbeed rin2D0S1, 9bu,ttahlseo Jcoelul franteal ruaniasveoiddaqbuleehsatllimoanrks aanbdothuetmFoigstsi.n2val(iBda-t-iDng),aspect of this sppreocteifiinca(AtioP6nPA)a,n,adagednnednedt7hriaDttic.ismItnraitppuliracaratttioeidcn.uinTlahDerS,a, pminlayylFosiiadgkspe.rye2crouBlres(oiPnrtchpma1atjhoporalodngeyteewlr)mitaihnnaadnnt6ootfAaibn,lteseolilmemcptaeucatbl doainscapkbugilbirtloyicuishnceoadlntshid(e1r,e2d).toThbee normal brafineadetvuerloepsmwenet rbey irneflumenocvinegdn.euFriaglsp.re2cu(rCsoar ncedll D)thaencdha7raDctewrisetirceallcyodmecrpeaosseidtebraimin asigzeeso.f Iinndividuals with pArPoPlifienrfalutieoFnnic,gecs.elt2lhDfeast,eeopsrnpoeecceiofsiscfeasttihvoinea,tPawntodcshneep1uarrboataneanlddmosmataiusinradst,uitohpne.licaDprtSiem. dTah.ryeTshhoymepoaactoeusllteuhnlasoorirrtysy owbseerrevedabinlethetoprliomcaraytveisual cortex, cortex, primary motor cortex, primary
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