Transcriptome signatures from discordant sibling pairs reveal changes in peripheral blood immune cell composition in Autism Spectrum Disorder

Transcriptome signatures from discordant sibling pairs reveal changes in peripheral blood immune cell composition in Autism Spectrum Disorder

Notwithstanding several research efforts in the past years, robust and replicable molecular signatures for autism spectrum disorders from peripheral blood remain elusive. The available literature on blood transcriptome in ASD suggests that through accurate experimental design it is possible to extra...

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Bibliographic Details
Published in:Translational psychiatry Vol. 10; no. 1; p. 106
Main Authors: Filosi, Michele, Kam-Thong, Tony, Essioux, Laurent, Muglia, Pierandrea, Trabetti, Elisabetta, Spooren, Will, Müller-Myshok, Bertram, Domenici, Enrico
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 14-04-2020
Nature Publishing Group
Subjects:
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Autism
Autism Spectrum Disorder - genetics
Autistic Disorder
Behavioral Sciences
Biological Psychology
Blood Cells
Gene expression
Humans
Medicine
Medicine & Public Health
Neurosciences
Pharmacotherapy
Psychiatry
Siblings
Transcriptome
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Summary:Notwithstanding several research efforts in the past years, robust and replicable molecular signatures for autism spectrum disorders from peripheral blood remain elusive. The available literature on blood transcriptome in ASD suggests that through accurate experimental design it is possible to extract important information on the disease pathophysiology at the peripheral level. Here we exploit the availability of a resource for molecular biomarkers in ASD, the Italian Autism Network (ITAN) collection, for the investigation of transcriptomic signatures in ASD based on a discordant sibling pair design. Whole blood samples from 75 discordant sibling pairs selected from the ITAN network where submitted to RNASeq analysis and data analyzed by complementary approaches. Overall, differences in gene expression between affected and unaffected siblings were small. In order to assess the contribution of differences in the relative proportion of blood cells between discordant siblings, we have applied two different cell deconvolution algorithms, showing that the observed molecular signatures mainly reflect changes in peripheral blood immune cell composition, in particular NK cells. The results obtained by the cell deconvolution approach are supported by the analysis performed by WGCNA. Our report describes the largest differential gene expression profiling in peripheral blood of ASD subjects and controls conducted by RNASeq. The observed signatures are consistent with the hypothesis of immune alterations in autism and an increased risk of developing autism in subjects exposed to prenatal infections or stress. Our study also points to a potential role of NMUR1, HMGB3, and PTPRN2 in ASD.
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ISSN:2158-3188
2158-3188
DOI:10.1038/s41398-020-0778-x