Perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.

Perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.

Glufosinate ammonium (GLA) is one of the most widely used herbicides in agriculture. As is the case for most pesticides, potential adverse effects of GLA have not been studied from the perspective of developmental neurotoxicity. Early pesticides exposure may weaken the basic structure of the develop...

Full description

Bibliographic Details
Main Authors: Anthony eLaugeray, Ameziane eHerzine, Olivier ePerche, Betty eHébert, Olivier eRichard, Arnaud eMenuet, Séverine eMazaud, Laurianne eLesné, Sylvain eBriault, Bernard eJegou, Jacques ePichon, Céline eMontecot-Dubourg, Stéphane eMortaud
Format: Article
Language:English
Published: Frontiers Media S.A. 2014-11-01
Series:Frontiers in Behavioral Neuroscience
Subjects:
Mice
neurodevelopment
autistic spectrum disorders
perinatal exposure
Glufosinate ammonium
Online Access:http://journal.frontiersin.org/Journal/10.3389/fnbeh.2014.00390/full
id doaj-4ef9a483d52f4faaac45658c78f06c6e
record_format Article
spelling doaj-4ef9a483d52f4faaac45658c78f06c6e2020-11-24T22:26:23ZengFrontiers Media S.A.Frontiers in Behavioral Neuroscience1662-51532014-11-01810.3389/fnbeh.2014.00390119445Perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.Anthony eLaugeray0Ameziane eHerzine1Olivier ePerche2Olivier ePerche3Betty eHébert4Olivier eRichard5Olivier eRichard6Arnaud eMenuet7Arnaud eMenuet8Séverine eMazaud9Laurianne eLesné10Sylvain eBriault11Sylvain eBriault12Bernard eJegou13Jacques ePichon14Jacques ePichon15Céline eMontecot-Dubourg16Céline eMontecot-Dubourg17Stéphane eMortaud18Stéphane eMortaud19CNRSCNRSCNRSCentre Hospitalier Régional d'OrléansCNRSCNRSUniversité d'OrléansCNRSUniversité d'OrléansUniversité de Rennes IUniversité de Rennes ICNRSCentre Hospitalier Régional d'OrléansUniversité de Rennes ICNRSUniversité d'OrléansCNRSUniversité d'OrléansCNRSUniversité d'OrléansGlufosinate ammonium (GLA) is one of the most widely used herbicides in agriculture. As is the case for most pesticides, potential adverse effects of GLA have not been studied from the perspective of developmental neurotoxicity. Early pesticides exposure may weaken the basic structure of the developing brain and cause permanent changes leading to a wide range of lifelong effects on health and/or behavior. Here we addressed the developmental impact of GLA by exposing female mice to low dose GLA during both pre- and postnatal periods and analyzed potential developmental and behavioral changes of the offspring during infancy and adulthood. A neurobehavioral test battery revealed significant effects of GLA maternal exposure on early reflex development, pup communication, affiliative behaviors, and preference for social olfactory cues, but emotional reactivity and emotional memory remained unaltered. These behavioral alterations showed a striking resemblance to changes seen in animal models of Autistic Spectrum Disorders. At the brain level, GLA maternal exposure caused some increase in normalized brain weight of the offspring. In addition, reduced expression of Pten and Peg3 - two genes implicated in autism-like deficits – was observed in the brain of GLA-exposed pups at postnatal day 15. Our work thus provides new data on the link between perinatal exposure to the herbicide GLA and the onset of autism-like symptoms later in life. It also raises fundamental concerns about the ability of current safety testing to assess risks of pesticide exposure during critical developmental periods.http://journal.frontiersin.org/Journal/10.3389/fnbeh.2014.00390/fullMiceneurodevelopmentautistic spectrum disordersperinatal exposureGlufosinate ammonium
collection DOAJ
language English
format Article
sources DOAJ
author Anthony eLaugeray
Ameziane eHerzine
Olivier ePerche
Olivier ePerche
Betty eHébert
Olivier eRichard
Olivier eRichard
Arnaud eMenuet
Arnaud eMenuet
Séverine eMazaud
Laurianne eLesné
Sylvain eBriault
Sylvain eBriault
Bernard eJegou
Jacques ePichon
Jacques ePichon
Céline eMontecot-Dubourg
Céline eMontecot-Dubourg
Stéphane eMortaud
Stéphane eMortaud
spellingShingle Anthony eLaugeray
Ameziane eHerzine
Olivier ePerche
Olivier ePerche
Betty eHébert
Olivier eRichard
Olivier eRichard
Arnaud eMenuet
Arnaud eMenuet
Séverine eMazaud
Laurianne eLesné
Sylvain eBriault
Sylvain eBriault
Bernard eJegou
Jacques ePichon
Jacques ePichon
Céline eMontecot-Dubourg
Céline eMontecot-Dubourg
Stéphane eMortaud
Stéphane eMortaud
Perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.
Frontiers in Behavioral Neuroscience
Mice
neurodevelopment
autistic spectrum disorders
perinatal exposure
Glufosinate ammonium
author_facet Anthony eLaugeray
Ameziane eHerzine
Olivier ePerche
Olivier ePerche
Betty eHébert
Olivier eRichard
Olivier eRichard
Arnaud eMenuet
Arnaud eMenuet
Séverine eMazaud
Laurianne eLesné
Sylvain eBriault
Sylvain eBriault
Bernard eJegou
Jacques ePichon
Jacques ePichon
Céline eMontecot-Dubourg
Céline eMontecot-Dubourg
Stéphane eMortaud
Stéphane eMortaud
author_sort Anthony eLaugeray
title Perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.
title_short Perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.
title_full Perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.
title_fullStr Perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.
title_full_unstemmed Perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.
title_sort perinatal exposure to low dose glufosinate ammonium induces autism-like phenotypes in mice.
publisher Frontiers Media S.A.
series Frontiers in Behavioral Neuroscience
issn 1662-5153
publishDate 2014-11-01
description Glufosinate ammonium (GLA) is one of the most widely used herbicides in agriculture. As is the case for most pesticides, potential adverse effects of GLA have not been studied from the perspective of developmental neurotoxicity. Early pesticides exposure may weaken the basic structure of the developing brain and cause permanent changes leading to a wide range of lifelong effects on health and/or behavior. Here we addressed the developmental impact of GLA by exposing female mice to low dose GLA during both pre- and postnatal periods and analyzed potential developmental and behavioral changes of the offspring during infancy and adulthood. A neurobehavioral test battery revealed significant effects of GLA maternal exposure on early reflex development, pup communication, affiliative behaviors, and preference for social olfactory cues, but emotional reactivity and emotional memory remained unaltered. These behavioral alterations showed a striking resemblance to changes seen in animal models of Autistic Spectrum Disorders. At the brain level, GLA maternal exposure caused some increase in normalized brain weight of the offspring. In addition, reduced expression of Pten and Peg3 - two genes implicated in autism-like deficits – was observed in the brain of GLA-exposed pups at postnatal day 15. Our work thus provides new data on the link between perinatal exposure to the herbicide GLA and the onset of autism-like symptoms later in life. It also raises fundamental concerns about the ability of current safety testing to assess risks of pesticide exposure during critical developmental periods.
topic Mice
neurodevelopment
autistic spectrum disorders
perinatal exposure
Glufosinate ammonium
url http://journal.frontiersin.org/Journal/10.3389/fnbeh.2014.00390/full
work_keys_str_mv AT anthonyelaugeray perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT amezianeeherzine perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT oliviereperche perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT oliviereperche perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT bettyehebert perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT oliviererichard perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT oliviererichard perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT arnaudemenuet perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT arnaudemenuet perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT severineemazaud perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT laurianneelesne perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT sylvainebriault perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT sylvainebriault perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT bernardejegou perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT jacquesepichon perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT jacquesepichon perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT celineemontecotdubourg perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT celineemontecotdubourg perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT stephaneemortaud perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
AT stephaneemortaud perinatalexposuretolowdoseglufosinateammoniuminducesautismlikephenotypesinmice
_version_ 1725753875008323584

Similar Items