Classification and adaptive behavior prediction of children with autism spectrum disorder based upon multivariate data analysis of markers of oxidative stress and DNA methylation

Howsmon, Daniel P.; Krüger, Uwe; Melnyk, Stepan; James, S. Jill; Hahn, Juergen

doi:10.1371/journal.pcbi.1005385

Cited by 104 publications

(122 citation statements)

References 54 publications

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“…The FDA‐sub model had the best validation performance with a false positive rate of 19/154 at an expected false negative rate of 5%. As expected, these misclassification rates are higher than the false negative rate of 3.6% at a false positive rate of 2.6% found previously due in part to the absence of “% DNA methylation” and “8‐OHG” in the validation data, two of the most important variables for separating ASD and TD cohorts . CART and LR of a subset of metabolites produced results that were slightly worse than PCA with false positive rates of 38/154 and 32/154, respectively; both of these results are at an expected false negative rate of 5%.…”

Section: Discussionsupporting

confidence: 46%

“…The folate‐dependent one‐carbon metabolism (FOCM) and transsulfuration (TS) pathways comprise a promising source for a multivariate biomarker for ASD. These pathways incorporate both genetic and environmental factors linked to ASD liability . The authors have previously developed a multivariate biomarker, based upon Fisher Discriminant Analysis (FDA) for ASD that achieved a positive predictive value and negative predictive value of 97.6 and 96.1%, respectively .…”

Section: Introductionmentioning

confidence: 99%

“…These pathways incorporate both genetic and environmental factors linked to ASD liability . The authors have previously developed a multivariate biomarker, based upon Fisher Discriminant Analysis (FDA) for ASD that achieved a positive predictive value and negative predictive value of 97.6 and 96.1%, respectively . This investigation will be extended in this article in two different directions: (a) By comparing univariate analysis with four different multivariate methods on FOCM/TS data for ASD biomarker development to ensure that the identified results are not restricted to FDA and (b) to test and validate multivariate FOCM/TS biomarkers on data collected from a new cohort of ASD participants.…”

Section: Introductionmentioning

confidence: 99%

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Multivariate techniques enable a biochemical classification of children with autism spectrum disorder versus typically‐developing peers: A comparison and validation study

Howsmon

Vargason

Rubin

et al. 2018

Bioengineering & Transla Med

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Autism spectrum disorder (ASD) is a developmental disorder which is currently only diagnosed through behavioral testing. Impaired folate‐dependent one carbon metabolism (FOCM) and transsulfuration (TS) pathways have been implicated in ASD, and recently a study involving multivariate analysis based upon Fisher Discriminant Analysis returned very promising results for predicting an ASD diagnosis. This article takes another step toward the goal of developing a biochemical diagnostic for ASD by comparing five classification algorithms on existing data of FOCM/TS metabolites, and also validating the classification results with new data from an ASD cohort. The comparison results indicate a high sensitivity and specificity for the original data set and up to a 88% correct classification of the ASD cohort at an expected 5% misclassification rate for typically‐developing controls. These results form the foundation for the development of a biochemical test for ASD which promises to aid diagnosis of ASD and provide biochemical understanding of the disease, applicable to at least a subset of the ASD population.

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Section: Discussionsupporting

confidence: 46%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Multivariate techniques enable a biochemical classification of children with autism spectrum disorder versus typically‐developing peers: A comparison and validation study

Howsmon

Vargason

Rubin

et al. 2018

Bioengineering & Transla Med

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“…The folate pathways are connected to several other important pathways that are abnormal in ASD (Figure 2). Biomarkers in these pathways may also be useful in understanding ASD, detecting ASD early, diagnosing ASD, predicting treatment response and identifying ASD subtypes [62]. However, further research is needed.…”

Section: Resultsmentioning

confidence: 99%

Folate Metabolism Abnormalities in Autism: Potential Biomarkers

2017

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Autism spectrum disorder (ASD) has been linked to abnormalities in folate metabolism. Polymorphisms in folate genes may act in complex polygenic ways to increase the risk of developing ASD. Autoantibodies that block folate transport into the brain have been associated with ASD and children with ASD and these autoantibodies respond to high doses of a reduced form of folate known as folinic acid (leucovorin calcium). Some of the same abnormalities are also found in mothers of children with ASD and supplementing folate during preconception and gestational periods reduces the risk to the offspring from developing ASD. These data suggest that folate pathway abnormalities may be a major metabolic disturbance underlying ASD that can be leveraged as biomarkers to improve symptoms and prevent ASD. Autism spectrum disorder: an emerging disorder with unclear etiology Autism spectrum disorder (ASD) is a neurodevelopmental disorder that affects about 2% of children in the USA [1]. Although it is defined through observation of the presence of abnormal behavior and absence of typical developmental milestones, ASD is associated with a wide range of medical abnormalities such as sleep, immune and gastrointestinal disorders and epilepsy. In addition to medical comorbidities, many children with ASD have disruptions in body physiology such as abnormalities in folate, cobalamin, tetrahydrobiopterin (BH 4 ), neurotransmitter, carnitine, redox and mitochondrial metabolism [2]. The connection between underlying physiological abnormalities and behavior is an area of active research. In this review, we will provide evidence that abnormalities of one-carbon folate metabolism are particularly important in ASD.Although the etiology of ASD is not known, genetics has been the focus of ASD research for many decades [3]. A notion of a pure genetic etiology is tempered by the fact that single gene and chromosomal defects are found in a minority of ASD cases, accounting for only 15.8% of cases when both chromosomal microarray and whole exome sequencing were used in one recent large study [4]. ASD has also been associated with exposures to numerous environmental agents during the prenatal and postnatal period [5]. Studies that have examined the contribution of the environmental and genetic components highlight that ASD arises as a consequence of complicated interactions between genetic predisposition and environmental factors [6,7]. As we will outline in this review, abnormalities in folate metabolism provide an excellent model of how environment factors can interact with genetic predisposition to cause ASD.At this time, the standard of care for ASD treatment is applied behavioral analysis and other equivalent behavioral interventions along with educational, developmental, occupational and speech therapy. Optimal application of behavioral therapy requires full-time one-on-one therapist for many years; however, even when this optimal therapy is applied, suboptimal outcomes are common. In addition, controlled studies examining the efficacy of variou...

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“…Indeed, metabolic markers of oxidative stress were previously detected in plasma from autistic subjects(Frye and James, 2014; Howsmon et al , 2017; James et al , 2004; Melnyk et al , 2012; Rose et al , 2012b). It has been demonstrated that micronutrient supplementation targeting redox metabolism exerts beneficial effects on some children with autism, implicating the presence of oxidative stress in autistic brains(Blossom et al , 2012; Frye et al , 2013; Hamlin et al , 2013; Hendren et al , 2016).…”

Section: Discussionmentioning

confidence: 99%

Cellular stress and apoptosis contribute to the pathogenesis of autism spectrum disorder

et al. 2018

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Autism results in significant morbidity and mortality in children. The functional and molecular changes in the autistic brains are unclear. The present study utilized autistic brain tissues from the National Institute of Child Health and Human Development's Brain Tissue Bank for the analysis of cellular and molecular changes in autistic brains. Three key brain regions, the hippocampus, the cerebellum, and the frontal cortex, in six cases of autistic brains and six cases of non-autistic brains from 6 to 16 years old deceased children, were analyzed. The current study investigated the possible roles of endoplasmic reticulum (ER) stress, oxidative stress, and apoptosis as molecular mechanisms underlying autism. The activation of three signals of ER stress (protein kinase R-like endoplasmic reticulum kinase, activating transcription factor 6, inositol-requiring enzyme 1 alpha) varies in different regions. The occurrence of ER stress leads to apoptosis in autistic brains. ER stress may result from oxidative stress because of elevated levels of the oxidative stress markers: 4-Hydroxynonenal and nitrotyrosine-modified proteins in autistic brains. These findings suggest that cellular stress and apoptosis may contribute to the autistic phenotype. Pharmaceuticals and/or dietary supplements, which can alleviate ER stress, oxidative stress and apoptosis, may be effective in ameliorating adverse phenotypes associated with autism.

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Classification and adaptive behavior prediction of children with autism spectrum disorder based upon multivariate data analysis of markers of oxidative stress and DNA methylation

Cited by 104 publications

References 54 publications

Multivariate techniques enable a biochemical classification of children with autism spectrum disorder versus typically‐developing peers: A comparison and validation study

Multivariate techniques enable a biochemical classification of children with autism spectrum disorder versus typically‐developing peers: A comparison and validation study

Folate Metabolism Abnormalities in Autism: Potential Biomarkers

Cellular stress and apoptosis contribute to the pathogenesis of autism spectrum disorder

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