Abstract
Brain-derived neurotrophic factor (BDNF) is critical for neuronal differentiation and synaptic development. BDNF is also implicated in the development of psychological disorders including depression, bipolar disorder and schizophrenia. Previously, elevated BDNF levels were observed in neonatal blood samples from infants who were later diagnosed with autism when compared with children who developed normally, suggesting that BDNF may be involved in the development of autism. BDNF is produced by activated brain microglial cells, a cellular phenotype that shares several features with peripheral macrophages, suggesting an important role for the immune system in BDNF production. We hypothesized that under mitogenic stimulation, peripheral blood mononuclear cells obtained from children with autism may have altered BDNF production compared with age-matched typically developing control subjects. In addition, we examined the differences between the production of BDNF in classic/early-onset autism and children who had a regressive form of autism. We show here that plasma levels of BDNF levels are increased in children with autism, especially in early onset autism subjects. Furthermore, under mitogenic stimulation with PHA and LPS, BDNF production is significantly increased in children with autism compared with typically developing subjects. However, stimulation with tetanus toxoid results in a decreased response in children with autism. This data suggest that immune cell-derived production of BDNF could be an important source for the increased BDNF that is detected in some subjects with autism. As a neurotrophic factor produced by immune cells, BDNF could help elucidate the role of the immune system in neurodevelopment and neuronal maintenance, which may be dysregulated in autism.
Highlights
Autism is a complex neurodevelopmental disorder that appears within the first three years of life and is characterized by significant impairments in social interaction and communicative skills
Changes in Brain-derived neurotrophic factor (BDNF) levels have been linked to a immune responses can influence neurodevelopment and number of neurologic disorders, including autism, that significant alterations in the immune system may play a key role in some individuals with autism[13]
No statistically significant differences in BDNF production were seen between cases and controls following stimulation with LPS or Plasma BDNF levels: Initially we examined BDNF
Summary
Autism is a complex neurodevelopmental disorder that appears within the first three years of life and is characterized by significant impairments in social interaction and communicative skills. Changes in BDNF levels have been linked to a immune responses can influence neurodevelopment and number of neurologic disorders, including autism, that significant alterations in the immune system may play a key role in some individuals with autism[13]. Serum concentrations correlate directly to brain Despite previous evidence of increased BDNF levels in concentrations; plasma studies of BDNF are individuals with autism, differential BDNF production thought to accurately reflect CNS concentrations[27,28]. In addition, we examined whether various immune mitogens could differentially diagnosed with autism spectrum disorder compared induce BDNF production by immune cells in children with typically developing children[25].
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