The brains of autistic individuals have abnormalities in both serotonin transporter and dopamine transporter binding. The present findings indicate that the gross abnormalities in these neurotransmitter systems may underpin the neurophysiologic mechanism of autism. Our sample was not characteristic or representative of a typical sample of adults with autism in the community.
34 These authors contributed equally to the work.Key Words: CD38, oxytocin, mutation, polymorphism, autism, high-functioning autism Author information Correspondence and requests for materials should be addressed to H. Higashida (haruhiro@med.kanazawa-u.ac.jp).
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ABSTRACTThe neurobiological basis of autism spectrum disorder (ASD) remains poorly understood.Given the role of CD38 in social recognition through oxytocin (OT) release, we hypothesized that CD38 may play a role in the etiology of ASD. Here, we first examined the immunohistochemical expression of CD38 in the hypothalamus of post-mortem brains of non-ASD subjects and found that CD38 was colocalized with OT in secretory neurons.In studies of the association between CD38 and autism, we analyzed 10 single nucleotide polymorphisms (SNPs) and mutations of CD38 by re-sequencing DNAs mainly from a case-control study in Japan, and Caucasian cases mainly recruited to the Autism Genetic Resource Exchange (AGRE). The SNPs of CD38, rs6449197 (p<0.040) and rs3796863 (p<0.005) showed significant associations with a subset of ASD (IQ>70; designated as high-functioning autism (HFA)) in the U.S. 104 AGRE family trios, but not with Japanese 188 HFA subjects. A mutation that caused tryptophan to replace arginine at amino acid residue 140 (R140W; (rs1800561, 4693C>T)) was found in 0.6%-4.6% of the Japanese population and was associated with ASD in the smaller case-control study. The SNP was clustered in pedigrees in which the fathers and brothers of T-allele-carrier probands had ASD or ASD traits. In this cohort OT plasma levels were lower in subjects with the T allele than in those without. One proband with the T allele who was taking nasal OT spray showed relief of symptoms. The two variant CD38 poloymorphysms tested may be of interest with regard of the pathophysiology of ASD.4
BackgroundAccumulating evidence suggests that dysregulation of the immune system is
involved in the pathophysiology of autism spectrum disorders (ASD). The aim
of the study was to explore immunological markers in peripheral plasma
samples from non-medicated subjects with high-functioning ASD.Methodology/Principal FindingsA multiplex assay for cytokines and chemokines was applied to plasma samples
from male subjects with high-functioning ASD (n = 28)
and matched controls (n = 28). Among a total of 48
analytes examined, the plasma concentrations of IL-1β, IL-1RA, IL-5,
IL-8, IL-12(p70), IL-13, IL-17 and GRO-α were significantly higher in
subjects with ASD compared with the corresponding values of matched controls
after correction for multiple comparisons.Conclusion/SignificanceThe results suggest that abnormal immune responses as assessed by multiplex
analysis of cytokines may serve as one of the biological
trait markers for ASD.
Recent studies have established important roles of de novo mutations (DNMs) in autism spectrum disorders (ASDs). Here, we analyze DNMs in 262 ASD probands of Japanese origin and confirm the "de novo paradigm" of ASDs across ethnicities. Based on this consistency, we combine the lists of damaging DNMs in our and published ASD cohorts (total number of trios, 4,244) and perform integrative bioinformatics analyses. Besides replicating the findings of previous studies, our analyses highlight ATP-binding genes and fetal cerebellar/striatal circuits. Analysis of individual genes identified 61 genes enriched for damaging DNMs, including ten genes for which our dataset now contributes to statistical significance. Screening of compounds altering the expression of genes hit by damaging DNMs reveals a global downregulating effect of valproic acid, a known risk factor for ASDs, whereas cardiac glycosides upregulate these genes. Collectively, our integrative approach provides deeper biological and potential medical insights into ASDs.
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