The Mitochondrial Aspartate/Glutamate Carrier AGC1 and Calcium Homeostasis: Physiological Links and Abnormalities in Autism

Napolioni, Valerio; Persico, Antonio M.; Porcelli, Vito; Palmieri, Luigi

doi:10.1007/s12035-011-8192-2

Cited by 62 publications

(41 citation statements)

References 91 publications

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“…Mutations in the aspartate/glutamate mitochondrial transporter, SLC25A12, have been previously associated with ASD [47]. This transporter is an important component of the malate/aspartate shuttle, a crucial system supporting oxidative phosphorylation, adenosine triphosphate production, and key metabolites for the urea cycle [47].…”

Section: Discussionmentioning

confidence: 99%

Metabolomics as a Tool for Discovery of Biomarkers of Autism Spectrum Disorder in the Blood Plasma of Children

et al. 2014

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BackgroundThe diagnosis of autism spectrum disorder (ASD) at the earliest age possible is important for initiating optimally effective intervention. In the United States the average age of diagnosis is 4 years. Identifying metabolic biomarker signatures of ASD from blood samples offers an opportunity for development of diagnostic tests for detection of ASD at an early age.ObjectivesTo discover metabolic features present in plasma samples that can discriminate children with ASD from typically developing (TD) children. The ultimate goal is to identify and develop blood-based ASD biomarkers that can be validated in larger clinical trials and deployed to guide individualized therapy and treatment.MethodsBlood plasma was obtained from children aged 4 to 6, 52 with ASD and 30 age-matched TD children. Samples were analyzed using 5 mass spectrometry-based methods designed to orthogonally measure a broad range of metabolites. Univariate, multivariate and machine learning methods were used to develop models to rank the importance of features that could distinguish ASD from TD.ResultsA set of 179 statistically significant features resulting from univariate analysis were used for multivariate modeling. Subsets of these features properly classified the ASD and TD samples in the 61-sample training set with average accuracies of 84% and 86%, and with a maximum accuracy of 81% in an independent 21-sample validation set.ConclusionsThis analysis of blood plasma metabolites resulted in the discovery of biomarkers that may be valuable in the diagnosis of young children with ASD. The results will form the basis for additional discovery and validation research for 1) determining biomarkers to develop diagnostic tests to detect ASD earlier and improve patient outcomes, 2) gaining new insight into the biochemical mechanisms of various subtypes of ASD 3) identifying biomolecular targets for new modes of therapy, and 4) providing the basis for individualized treatment recommendations.

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Section: Discussionmentioning

confidence: 99%

Metabolomics as a Tool for Discovery of Biomarkers of Autism Spectrum Disorder in the Blood Plasma of Children

et al. 2014

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“…In 2004 (102)(103)(104). In contrast, they detected hints of an abnormal functioning of mitochondria due to a permanent activation by excessive elevated Ca 2þ levels.…”

Section: Aralar and Diseasesmentioning

confidence: 98%

“…In contrast, they detected hints of an abnormal functioning of mitochondria due to a permanent activation by excessive elevated Ca 2þ levels. This led them to the conclusion that mutations in other proteins are probably responsible for the primary Ca 2þ -related dysfunctions resulting in permanently increased Ca 2þ cyt and this secondarily causes a permanent over-energization of mitochondria (102).…”

Section: Aralar and Diseasesmentioning

confidence: 99%

The control of brain mitochondrial energization by cytosolic calcium: The mitochondrial gas pedal

et al. 2013

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This review focuses on problems of the intracellular regulation of mitochondrial function in the brain via the (i) supply of mitochondria with ADP by means of ADP shuttles and channels and (ii) the Ca 21 control of mitochondrial substrate supply. The permeability of the mitochondrial outer membrane for adenine nucleotides is low. Therefore rate dependent concentration gradients exist between the mitochondrial intermembrane space and the cytosol. The existence of dynamic ADP gradients is an important precondition for the functioning of ADP shuttles, for example CrP-shuttle. Cr at mM concentrations instead of ADP diffuses from the cytosol through the porin pores into the intermembrane space.

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“…Furthermore, the maintenance of calcium homeostasis is crucially important in the functioning of immune cells, 3 and recent studies have revealed evidence of altered Ca 2? homeostasis in ASD (Palmieri et al 2008;Napolioni et al 2011). Together, these studies point towards a causal link from channel-mediated intracellular calcium imbalance in autism and the disturbed neurodevelopment of autistic subjects.…”

Section: Model Of Channelopathymentioning

confidence: 99%

“…Dysregulated calcium homeostasis has been observed at the macro level by Palmieri et al (2008). This finding of dysregulated homeostasis was later linked with calcium signalling defects by Napolioni et al (2011). It is known that voltage-gated calcium channels are essential to neuronal maturation and differentiation, in addition to their central function in neural information processing (McEnery et al 1998).…”

Section: Model Of Channelopathymentioning

confidence: 99%

Neural network modelling of the influence of channelopathies on reflex visual attention

et al. 2015

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This paper introduces a model of Emergent Visual Attention in presence of calcium channelopathy (EVAC). By modelling channelopathy, EVAC constitutes an effort towards identifying the possible causes of autism. The network structure embodies the dual pathways model of cortical processing of visual input, with reflex attention as an emergent property of neural interactions. EVAC extends existing work by introducing attention shift in a larger-scale network and applying a phenomenological model of channelopathy. In presence of a distractor, the channelopathic network's rate of failure to shift attention is lower than the control network's, but overall, the control network exhibits a lower classification error rate. The simulation results also show differences in task-relative reaction times between control and channelopathic networks. The attention shift timings inferred from the model are consistent with studies of attention shift in autistic children.

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The Mitochondrial Aspartate/Glutamate Carrier AGC1 and Calcium Homeostasis: Physiological Links and Abnormalities in Autism

Cited by 62 publications

References 91 publications

Metabolomics as a Tool for Discovery of Biomarkers of Autism Spectrum Disorder in the Blood Plasma of Children

Metabolomics as a Tool for Discovery of Biomarkers of Autism Spectrum Disorder in the Blood Plasma of Children

The control of brain mitochondrial energization by cytosolic calcium: The mitochondrial gas pedal

Neural network modelling of the influence of channelopathies on reflex visual attention

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