47 Host genetic factors appear to play a key role, with a large British study reporting a significantly higher concordance rate of certain phenotypic characteristics among monozygotic compared with dizygotic twins (60% to 92% versus 0% to 10%).48 MAPK Inhibitor Library supplier Genome-wide association studies have revealed a number of loci strongly associated with ASDs, including those involved in synaptogenesis and synaptic function (eg, neurexins and the neuroligins that bind them49,50). Although heritability in the British twin study was calculated to be >90%, environmental influences may be still considerable. Inhibitors,research,lifescience,medical A “gut-brain” linkage for ASDs has been proposed, based in part on reports
that children with ASDs often experience a range of gastrointestinal disorders. 51,52 A few reports indicate that children with ASDs have a greater representation of members of the bacterial family Clostridiales51-53 in their fecal microbiota, although as noted below, comprehensive analyses of gut microbial ecology in Inhibitors,research,lifescience,medical affected and reference control populations have not yet appeared in the literature. Microbial metabolism may have an impact on disease pathogenesis in ASD. Initial evidence for Inhibitors,research,lifescience,medical this came from a small study of
autistic children treated with the minimally absorbed glycopeptide antibiotic vancomycin; short-term improvement was reported,54 leading to the suggestion that autistic symptoms may be related to the production of neurotoxic metabolites by the gut microbiota. Two subsequent studies of metabolites in urine Inhibitors,research,lifescience,medical have supported that microbial metabolism results in altered metabolite profiles in children with ASD. The application of pattern recognition analysis to compare 1H-NMR spectra from the urine of
children with ASD to their relatives and age-matched controls indicated that among the metabolites that changed in concentration with autism were mammalian-microbial cometabolites, including dimethylamine, hippurate, and phenyacetylglutamine.45 Another study showed that urinary levels of 3-(3-hydroxyphenyl)-3-hydroxypropionic Inhibitors,research,lifescience,medical acid (HPHPA) are higher in children with autism compared with neurotypical controls.44 One potential source of this compound is the conversion of phenylalanine from the diet to m-tyrosine and then to 3-hydroxyphenyl-propionic acid by microbial enzymes, followed by conversion to HPHPA by human enzymes.44 m-Tyrosine induces a characteristic behavioral symptom in rats that includes stereotypical Astemizole behavior, hyperactivity, and hyper-reactivity,55 indicating that this compound may be specifically contributing towards autistic behaviors. A microbial origin for HPHPA is supported by its decrease in urine after patients were treated for Clostridial infections with metronidazole, an antibacterial agent with specificity toward anaerobic bacteria.44 Some species within the Clostridiales are known to produce phenylpropionic acid and/or monohydroxyphenylpropionic acid, which are very closely related biochemically to m-tyrosine and HPHPA.