Evidence for alterations in stimulatory G proteins and oxytocin levels in children with autism Journal Article


Authors: Jacobson, Jill D; Ellerbeck, Kathryn A; Kelly, Kelsie A; Fleming, Kandace K.; Jamison, T Rene; Coffey, Charles W; Smith, Catherine M; Reese, R Matthew; Sands, Scott A.
Article Title: Evidence for alterations in stimulatory G proteins and oxytocin levels in children with autism
Abstract: The neurotransmitter oxytocin plays an important role in social affiliation. Low oxytocin levels and defects in the oxytocin receptor have been reported in childhood autism. However, little is known about oxytocin's post-receptor signaling pathways in autism. Oxytocin signals via stimulatory and inhibitory G proteins. c-fos mRNA expression has been used as a marker of OT signaling as well as of G protein signaling. Herein, we hypothesized that oxytocin and its signaling pathways would be altered in children with autism. We measured plasma oxytocin levels by ELISA, G-protein and c-fos mRNA by PCR, and G proteins by immunoblot in cultured peripheral blood mononuclear cells (PBMCs) in children with autism and in age-matched controls. Males with autism displayed elevated oxytocin levels compared to controls (p<0.05). Children with autism displayed significantly higher mRNA for stimulatory G proteins compared to controls (p<0.05). Oxytocin levels correlated strongly positively with c-fos mRNA levels, but only in control participants (p<0.01). Oxytocin, G-protein, and c-fos mRNA levels correlated inversely with measures of social and emotional behaviors, but only in control participants. These data suggest that children with autism may exhibit a dysregulation in oxytocin and/or its signaling pathways.
Journal Title: Psychoneuroendocrinology
Volume: 40
ISSN: 1873-3360
Publisher: Unknown  
Publication Place: England
Date Published: 2014-02
Start Page: 159
End Page: 69
Language: eng
Copyright Statement: Copyright (c) 2013. Published by Elsevier Ltd.
DOI/URL:
Identifier: 24485488
Notes: In-Data-Review
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  1. Matt Reese
    28 Reese
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