2017
DOI: 10.3233/jad-160945
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Neurons Derived from Induced Pluripotent Stem Cells of Patients with Down Syndrome Reproduce Early Stages of Alzheimer’s Disease Type Pathology in vitro

Abstract: People with Down syndrome (DS) are at high risk of developing pathology similar to Alzheimer's disease (AD). Modeling of this pathology in vitro may be useful for studying this phenomenon. In this study, we analyzed three different cultures of neural cells carrying trisomy of chromosome 21, which were generated by directed differentiation from induced pluripotent stem cells (iPS cells). We report here that in vitro generated DS neural cells have abnormal metabolism of amyloid-β (Aβ) manifested by increased sec… Show more

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Cited by 28 publications
(15 citation statements)
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“…DS patients develop early onset AD, thought to result from triplication of the APP gene as part of trisomy 21 [97]. DS iPSC-derived neurons show elevations in Aβ secretion and phosphorylated tau similar to that caused by FAD-linked mutations [98][99][100][101]. Intriguingly, deletion of the supernumerary copy of APP from DS cells was able to restore Aβ production to control levels and correct many of the gene expression alterations caused by trisomy 21, but was not able to restore altered tau phosphorylation, indicating Aβ-dependent and independent phenotypes in DS [101].…”
Section: Human Neural Progenitor Cell and Neuron Modelsmentioning
confidence: 99%
“…DS patients develop early onset AD, thought to result from triplication of the APP gene as part of trisomy 21 [97]. DS iPSC-derived neurons show elevations in Aβ secretion and phosphorylated tau similar to that caused by FAD-linked mutations [98][99][100][101]. Intriguingly, deletion of the supernumerary copy of APP from DS cells was able to restore Aβ production to control levels and correct many of the gene expression alterations caused by trisomy 21, but was not able to restore altered tau phosphorylation, indicating Aβ-dependent and independent phenotypes in DS [101].…”
Section: Human Neural Progenitor Cell and Neuron Modelsmentioning
confidence: 99%
“…Genome editing technology could also be used for mutations’ correction, generating an isogenic control line [18]. Interestingly, iPSCs derived from iPSCs of patients with Down Syndrome, which usually have a high risk of early AD development, allowed the understanding of AD-like initial cellular hallmarks [19]. IPSCs also assume an important role when it comes to drug screening models.…”
Section: Uses Of Ipscs In Neurodegenerative Diseasesmentioning
confidence: 99%
“…Finally, the computational analysis identified several genes that represent the target of most of the significant miRNAs (see Table ). Of interest, some of these genes have been reported implicated in diseases with cognitive impairment, for example, BRI3, RGS6, DIP2A, ZBTB16, BACE2, SIRBP1, IGF2BP2, FCRL5, RTN3, FAM46A, MCF2L, SPI1, and TREM1 in Alzheimer's disease (Abd‐Elrahman, Hamilton, Vasefi, & Ferguson, ; Chung et al, ; Comabella et al, ; Dashinimaev, Artyuhov, Bolshakov, Vorotelyak, & Vasiliev, ; De Jager et al, ; Gaikwad et al, ; Gasparoni et al, ; Matsuda, Matsuda, & D'Adamio, ; Moon et al, ; Replogle et al, ; Schott et al, ; Shi, Ge, He, Hu, & Yan, ); or in clinical conditions characterized by behavioral changes, such as NTNG2 in cognitive abnormalities associated with defective axonal amygdalar projections (Huang et al, ) or bipolar disorders (Egger et al, ), or RAB11FIP5, WARS, and HES6 in depression and other mood disorders (Bacaj, Ahmad, Jurado, Malenka, & Sudhof, ; Glubb, Joyce, & Kennedy, ; Musante et al, ). Furthermore, the experimental ablation of CACNA1H , a gene already associated with the RR course of MS (Sadovnick et al, ), was able to trigger affective disorders including anxiety and hippocampus‐dependent recognition memories (Gangarossa, Laffray, Bourinet, & Valjent, ).…”
Section: Discussionmentioning
confidence: 99%