That was the title of a one-day well attended symposium held in May 2012 at the Nobel Forum of the Karolinska Institute in Stockholm. Scientists, therapists and parents met and listened to a number of highly interesting lectures describing the multi-faceted picture of ASD and the challenges as well as the encouraging results of ongoing research in the field. The collection of extended abstract pertaining to this symposium is now published in Microbial Ecology in Health and Disease.
Throughout the day the autistic child was in focus – first presented in a documentary from Canada, and then followed by a successful never-give-up story from the mother of three autistic children Citation1. The two following lectures focused on the complexity of phenotypic and genotypic aspects of autism Citation2Citation3, which was further underlined by Heijtz Citation4 in his lecture describing animal experiments in which both environmental factors and prenatal stress were seen to impact on the development of social and motor functions in off-springs. To study deviations and alterations in autistic children, Hugdahl Citation5 then showed how he and his group by combining advanced nuclear magnetic imaging with functional spectroscopy could quantify regional concentrations of substances acting as neurotransmitters.
The possibility that it is the gut that triggers the production of neurotransmitters as well as other bioactive compounds was underlined in the lecture by myself Citation6, which was followed by an exciting lecture by Bienenstock Citation7 focusing on the communicative side of that possibility, i.e. that Nervus vagus may act as a highway from gut to brain. Altered intestinal metabolic functions in autism, exemplified by quantitative differences in urinary excretion from many compounds, was the scope of the lecture by Nicholson Citation8 who focused on the hypothesis that some sulfur-containing compounds may act as neurotransmitters.
In his lecture, Reichelt Citation9 showed that dietary derived, bioactive peptides are present in urine from autistic children, most often deriving from intestinal degradation of casein. The role of the gut microflora in mitochondrial dysfunctions was highlighted in an exciting lecture by MacFabe Citation10, and Christophersen Citation11, in the final lecture of the day, posed the interesting question: Should autism be considered a canary bird telling that Homo sapiens may be on its way to extinction?
In the ensuing plenary discussion the focus was on the mechanism(s) underlying the increased incidence of autism. Two major scenarios were presented. If the increased incidence is real, it might reflect either that the average mutation rate in large populations, such as e.g. the United States, has increased, or that so far unknown environmental factors act on already existing metabolic pathways. Whatever the mechanisms, the urgent need for further research was underlined. On an individual level – and based on the experience of the participants in the panel – an encouraging message was given to the parents of an autistic child: Autism is treatable-symptoms can be reduced and behavior can be changed.
Tore Midtvedt
Editor-in-Chief
References
- Walker HB. A true case story. Microbial Ecol Health Dis. 2012; 23. doi: 10.3402/mehd.v23i0.18984.
- Boelte S. The phenotype and etiology of ASD – where do we stand?.
- Falck-Ytter T. Longitudinal high-risk sibling studies of autism spectrum disorder. Microbial Ecol Health Dis. 2012; 23. doi: 10.3402/mehd.v23i0.18984.
- Heijtz RD. Perinatal factors influencing brain development and behavior: implication for ASD.
- Hugdahl K, Beyer MK, Brix M, Ersland L. Autism spectrum disorder, functional MRI and MR spectroscopy: possibilities and challenges. Microbial Ecol Health Dis. 2012; 23. doi: 10.3402/mehd.v23i0.18984.
- Midtvedt T. The gut: a triggering place for autism – possibilities and challenges. Microbial Ecol Health Dis. 2012; 23. doi: 10.3402/mehd.v23i0.18984.
- Bienenstock J. Commensal communication to the brain: pathways and behavioral consequences. doi: 10.3402/mehd.v23i0.18984.
- Nicholson J. Microbial host metabolic signaling and potential interactions in autism.
- Reichelt KL, Tveiten D, Knivsberg A-M, Brønstad G. Peptides’ role in autism with emphasis on exorphins. Microbial Ecol Health Dis. 2012; 23. doi: 10.3402/mehd.v23i0.18984.
- MacFabe DF. The role of enteric bacterial metabolites in mitochondrial dysfunction in autism – from animal models to human populations. doi: 10.3402/mehd.v23i0.18984.
- Christophersen OA. Should autism be considered a canary bird telling that Homo sapiens may be on its way to extinction?. Microbial Ecol Health Dis. 2012; 23. doi: 10.3402/mehd.v23i0.18984.