Institute of Biomedical Technologies, National Research Council, Via Fratelli Cervi 93, 20090, Segrate, Italy.
Department of Molecular and Translational Medicine, Biology and Genetic Unit, University of Brescia, 25123, Brescia, Italy.
Sci Rep. 2020 May 8;10(1):7758. doi: 10.1038/s41598-020-64679-w.
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, differ 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 significant 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 (r) 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.
基因-环境相互作用,通过异常的大分子肠道吸附,是自闭症谱系障碍(ASD)的可能原因之一,主要发生在胃肠道疾病患者中。前触珠蛋白-2(紧密连接蛋白),由触珠蛋白(HP)等位基因-2 基因编码,通过调节细胞间紧密连接来增强肠道通透性。HP 的两个等位基因,HP1 和 HP2,在 HP2 中有 2 个额外的外显子不同,导致外显子重复,经典的全基因组关联研究无法检测到。为了评估 HP2 在 ASD 发病机制中的作用,并建立一种区分 HP 等位基因的方法,对意大利 ASD 患者(n=398)和健康对照(n=379)进行了 PCR 分析;随后,将 PCR 结果与微阵列基因型(Illumina Human Omni 1S-8)整合,使用相同受试者的一个子集获得微阵列基因型,然后我们开发了一种计算方法来预测 HP 等位基因。与我们的预期相反,HP2 与 ASD 之间没有关联(P>0.05),并且在有或没有胃肠道疾病的 ASD 患者中,等位基因也没有显著关联(P>0.05)。借助生物信息学分析,在包含 314 个 SNP 的约 2Mb 窗口框架内,我们获得了 0.4 到 0.9(中位数 0.7)之间的推断准确性(r)和 70%到 100%(中位数 90%)之间的正确预测。这些结论支持 ASD 患者的肠道通透性增强不应归因于 HP2,而应归因于紧密连接蛋白家族的其他成员和/或环境因素。
