Gene × Environment interactions in autism spectrum disorders: role of epigenetic mechanisms

Gene × Environment interactions in autism spectrum disorders: role of epigenetic mechanisms

Several studies support currently the hypothesis that autism etiology is based on a polygenic and epistatic model. However, despite advances in epidemiological, molecular and clinical genetics, the genetic risk factors remain difficult to identify, with the exception of a few chromosomal disorders a...

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Veröffentlicht in:Frontiers in psychiatry 2014, Vol.5, p.53
Hauptverfasser: Tordjman, Sylvie, Somogyi, Eszter, Coulon, Nathalie, Kermarrec, Solenn, Cohen, David, Bronsard, Guillaume, Bonnot, Olivier, Weismann-Arcache, Catherine, Botbol, Michel, Lauth, Bertrand, Ginchat, Vincent, Roubertoux, Pierre, Barburoth, Marianne, Kovess, Viviane, Geoffray, Marie-Maude, Xavier, Jean
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container_start_page 53
container_title Frontiers in psychiatry
container_volume 5
creator Tordjman, Sylvie
Somogyi, Eszter
Coulon, Nathalie
Kermarrec, Solenn
Cohen, David
Bronsard, Guillaume
Bonnot, Olivier
Weismann-Arcache, Catherine
Botbol, Michel
Lauth, Bertrand
Ginchat, Vincent
Roubertoux, Pierre
Barburoth, Marianne
Kovess, Viviane
Geoffray, Marie-Maude
Xavier, Jean
description Several studies support currently the hypothesis that autism etiology is based on a polygenic and epistatic model. However, despite advances in epidemiological, molecular and clinical genetics, the genetic risk factors remain difficult to identify, with the exception of a few chromosomal disorders and several single gene disorders associated with an increased risk for autism. Furthermore, several studies suggest a role of environmental factors in autism spectrum disorders (ASD). First, arguments for a genetic contribution to autism, based on updated family and twin studies, are examined. Second, a review of possible prenatal, perinatal, and postnatal environmental risk factors for ASD are presented. Then, the hypotheses are discussed concerning the underlying mechanisms related to a role of environmental factors in the development of ASD in association with genetic factors. In particular, epigenetics as a candidate biological mechanism for gene × environment interactions is considered and the possible role of epigenetic mechanisms reported in genetic disorders associated with ASD is discussed. Furthermore, the example of in utero exposure to valproate provides a good illustration of epigenetic mechanisms involved in ASD and innovative therapeutic strategies. Epigenetic remodeling by environmental factors opens new perspectives for a better understanding, prevention, and early therapeutic intervention of ASD.
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subjects Psychiatry
title Gene × Environment interactions in autism spectrum disorders: role of epigenetic mechanisms
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