Gene-environment interactions, by means of abnormal macromolecular intestinal adsorption, is one of the possible causes of autism spectrum disorders (ASD) predominantly in patients with gastrointestinal disorders. Pre-haptoglobin-2 (zonulin), encoded by the Haptoglobin (HP) allele-2 gene, enhances the intestinal permeability by modulation of intercellular tight junctions. the two alleles of HP, HP1 and HP2, di er for 2 extra exons in HP2 that result in exon duplication undetectable by classic genome- wide association studies. to evaluate the role of HP2 in ASD pathogenesis and to set up a method to discriminate HP alleles, italian subjects with ASD (n = 398) and healthy controls (n = 379) were genotyped by pcR analysis; subsequently, the pcR results were integrated with microarray genotypes (Illumina Human Omni 1S-8), obtained using a subset from the same subjects, and then we developed a computational method to predict HP alleles. On the contrary to our expectations, there was no association between HP2 and ASD (p > 0.05), and there was no signi cant allele association in subjects with ASD with or without gastrointestinal disorders (p > 0.05). With the aid of bioinformatics analysis, from a window frame of ~2 Mb containing 314 SNPs, we obtain imputation accuracy (r2) between 0.4 and 0.9 (median 0.7) and correct predictions were between 70% and 100% (median 90%). The conclusions endorse that enhanced intestinal permeability in subjects with ASD should not be imputed to HP2 but to other members of the zonulin family and/or to environmental factors.

Assessment of haptoglobin alleles in autism spectrum disorders

Francesca Anna Cupaioli;Ettore Mosca;Marco Moscatelli;Alessandra Mezzelani
2020

Abstract

Gene-environment interactions, by means of abnormal macromolecular intestinal adsorption, is one of the possible causes of autism spectrum disorders (ASD) predominantly in patients with gastrointestinal disorders. Pre-haptoglobin-2 (zonulin), encoded by the Haptoglobin (HP) allele-2 gene, enhances the intestinal permeability by modulation of intercellular tight junctions. the two alleles of HP, HP1 and HP2, di er for 2 extra exons in HP2 that result in exon duplication undetectable by classic genome- wide association studies. to evaluate the role of HP2 in ASD pathogenesis and to set up a method to discriminate HP alleles, italian subjects with ASD (n = 398) and healthy controls (n = 379) were genotyped by pcR analysis; subsequently, the pcR results were integrated with microarray genotypes (Illumina Human Omni 1S-8), obtained using a subset from the same subjects, and then we developed a computational method to predict HP alleles. On the contrary to our expectations, there was no association between HP2 and ASD (p > 0.05), and there was no signi cant allele association in subjects with ASD with or without gastrointestinal disorders (p > 0.05). With the aid of bioinformatics analysis, from a window frame of ~2 Mb containing 314 SNPs, we obtain imputation accuracy (r2) between 0.4 and 0.9 (median 0.7) and correct predictions were between 70% and 100% (median 90%). The conclusions endorse that enhanced intestinal permeability in subjects with ASD should not be imputed to HP2 but to other members of the zonulin family and/or to environmental factors.
2020
Istituto di Tecnologie Biomediche - ITB
autism
haptoglobin
risk factor
intestinal permeability
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/408215
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