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Loss of the Chr16p11.2 ASD candidate gene QPRT leads to aberrant neuronal differentiation in the SH-SY5Y neuronal cell model

Haslinger, Denise ; Waltes, Regina ; Yousaf, Afsheen ; Lindlar, Silvia ; Schneider, Ines ; Lim, Chai K. ; Tsai, Meng-Miao ; Garvalov, Boyan K. ; Acker-Palmer, Amparo ; Krezdorn, Nicolas ; Rotter, Björn ; Acker, Till ; Guillemin, Gilles J. ; Fulda, Simone ; Freitag, Christine M. ; Chiocchetti, Andreas G.

In: Molecular Autism, 9 (November 2018), Nr. 56. pp. 1-17. ISSN 2040-2392

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Download (2MB) | Lizenz: Creative Commons LizenzvertragLoss of the Chr16p11.2 ASD candidate gene QPRT leads to aberrant neuronal differentiation in the SH-SY5Y neuronal cell model by Haslinger, Denise ; Waltes, Regina ; Yousaf, Afsheen ; Lindlar, Silvia ; Schneider, Ines ; Lim, Chai K. ; Tsai, Meng-Miao ; Garvalov, Boyan K. ; Acker-Palmer, Amparo ; Krezdorn, Nicolas ; Rotter, Björn ; Acker, Till ; Guillemin, Gilles J. ; Fulda, Simone ; Freitag, Christine M. ; Chiocchetti, Andreas G. underlies the terms of Creative Commons Attribution 4.0

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Abstract

Background: Altered neuronal development is discussed as the underlying pathogenic mechanism of autism spectrum disorders (ASD). Copy number variations of 16p11.2 have recurrently been identified in individuals with ASD. Of the 29 genes within this region, quinolinate phosphoribosyltransferase (QPRT) showed the strongest regulation during neuronal differentiation of SH-SY5Y neuroblastoma cells. We hypothesized a causal relation between this tryptophan metabolism-related enzyme and neuronal differentiation. We thus analyzed the effect of QPRT on the differentiation of SH-SY5Y and specifically focused on neuronal morphology, metabolites of the tryptophan pathway, and the neurodevelopmental transcriptome.

Methods: The gene dosage-dependent change of QPRT expression following Chr16p11.2 deletion was investigated in a lymphoblastoid cell line (LCL) of a deletion carrier and compared to his non-carrier parents. Expression of QPRT was tested for correlation with neuromorphology in SH-SY5Y cells. QPRT function was inhibited in SH-SY5Y neuroblastoma cells using (i) siRNA knockdown (KD), (ii) chemical mimicking of loss of QPRT, and (iii) complete CRISPR/Cas9-mediated knock out (KO). QPRT-KD cells underwent morphological analysis. Chemically inhibited and QPRT-KO cells were characterized using viability assays. Additionally, QPRT-KO cells underwent metabolite and whole transcriptome analyses. Genes differentially expressed upon KO of QPRT were tested for enrichment in biological processes and co-regulated gene-networks of the human brain.

Results: QPRT expression was reduced in the LCL of the deletion carrier and significantly correlated with the neuritic complexity of SH-SY5Y. The reduction of QPRT altered neuronal morphology of differentiated SH-SY5Y cells. Chemical inhibition as well as complete KO of the gene were lethal upon induction of neuronal differentiation, but not proliferation. The QPRT-associated tryptophan pathway was not affected by KO. At the transcriptome level, genes linked to neurodevelopmental processes and synaptic structures were affected. Differentially regulated genes were enriched for ASD candidates, and co-regulated gene networks were implicated in the development of the dorsolateral prefrontal cortex, the hippocampus, and the amygdala.

Conclusions: In this study, QPRT was causally related to in vitro neuronal differentiation of SH-SY5Y cells and affected the regulation of genes and gene networks previously implicated in ASD. Thus, our data suggest that QPRT may play an important role in the pathogenesis of ASD in Chr16p11.2 deletion carriers.

Item Type: Article
Journal or Publication Title: Molecular Autism
Volume: 9
Number: 56
Publisher: BioMed Central
Place of Publication: London
Date Deposited: 24 Jan 2019 14:42
Date: November 2018
ISSN: 2040-2392
Page Range: pp. 1-17
Faculties / Institutes: Medizinische Fakultät Mannheim > Zentrum für Medizinische Forschung
Subjects: 610 Medical sciences Medicine
Uncontrolled Keywords: Autism, 16p11.2, Quinolinate phosphoribosyltransferase, Quinolinic acid, Kynurenine, CRISPR/Cas9, Sholl analysis
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