2008
DOI: 10.1038/sj.mp.4002120
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SLC25A12 expression is associated with neurite outgrowth and is upregulated in the prefrontal cortex of autistic subjects

Abstract: Autism is a neurodevelopmental disorder with a strong genetic component, probably involving several genes. Genome screens have provided evidence of linkage to chromosome 2q31-q33, which includes the SLC25A12 gene. Association between autism and single-nucleotide polymorphisms in SLC25A12 has been reported in various studies. SLC25A12 encodes the mitochondrial aspartate/glutamate carrier functionally important in neurons with highmetabolic activity. Neuropathological findings and functional abnormalities in aut… Show more

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Cited by 87 publications
(72 citation statements)
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“…55 Also overexpression of AGC1 in cell culture has been recently found associated with a biphasic response, characterized initially by enhanced neurite outgrowth, which subsequently slows down and ends in early cell death. 56 This response is seemingly compatible with an initial overproduction of ATP paralleled by a progressive build up of oxidative stress leading to cell damage. Oxidative stress, in addition to lipid and protein oxidation, 55 can also produce genomic instability and stimulate cell cycle progression, pathophysiological events likely to be important in autism pathogenesis 9,57,58 In this regard, the interindividual variability in oxidative damage reported in our study is not at all surprising, as the balance between ROS production and antioxidant agents leaves ample room for genetic and environmental influences.…”
Section: à1688mentioning
confidence: 86%
“…55 Also overexpression of AGC1 in cell culture has been recently found associated with a biphasic response, characterized initially by enhanced neurite outgrowth, which subsequently slows down and ends in early cell death. 56 This response is seemingly compatible with an initial overproduction of ATP paralleled by a progressive build up of oxidative stress leading to cell damage. Oxidative stress, in addition to lipid and protein oxidation, 55 can also produce genomic instability and stimulate cell cycle progression, pathophysiological events likely to be important in autism pathogenesis 9,57,58 In this regard, the interindividual variability in oxidative damage reported in our study is not at all surprising, as the balance between ROS production and antioxidant agents leaves ample room for genetic and environmental influences.…”
Section: à1688mentioning
confidence: 86%
“…We shall now briefly summarize our findings and examine how they can serve as a paradigm to disclose possible mechanisms underlying mitochondrial dysfunction in ASD. The involvement of AGC1 in neurodevelopmental disorders is not entirely surprising since the modulation of SLC25A12 gene expression has prominent effects on neurodevelopment: an overexpression of SLC25A12 boosting AGC1 transport activity yields enhanced neurite growth in vitro [59]; instead, SLC25A12 disruption alters myelination and neurofilaments [60], further underscoring the critical role played by AGC1 in myelin formation. In our study, we have examined AGC transport rates, AGC1 expression levels, and SLC25A12 genomic DNA and cDNA sequences in post-mortem temporocortical gray matter (Brodmann area 41/42 or 22) of six pairs of nonsyndromic ASD patients and sex-, age-, and post-mortem interval (PMI)-matched controls [58].…”
Section: Calcium Regulation Of Agc1 Activitymentioning
confidence: 98%
“…Alterations in control of neuritogenesis are always complex, and they may be associated with manifestation of certain symptoms of neurodevelopmental diseases. Postmortem studies of brains of autistic subjects have linked neurite outgrowth to the pathophysiology of autism (Lepagnol-Bestel et al 2008). Moreover, in experimental models, autism-related behavioral deficits were identified in knockout mice lacking the genes coding for neurexins, a family of cell adhesion molecules (Peñagarikano et al 2011).…”
Section: Alterations In Neuritogenesis In Autismmentioning
confidence: 99%