TY - JOUR
T1 - Excessive activation of AhR signaling disrupts neuronal migration in the hippocampal CA1 region in the developing mouse
AU - Kimura, Eiki
AU - Kubo, Ken Ichiro
AU - Endo, Toshihiro
AU - Nakajima, Kazunori
AU - Kakeyama, Masaki
AU - Tohyama, Chiharu
N1 - Funding Information:
This work was supported in part by grants from the JSPS Kakenhi (JP24221003 to C.T.; JP26241016 to M.K.; JP16H06482 and JP15H02355 to K.N.; JP15H01293, JP26430075 to K. K.) and MEXT SRPBS (10036021 to C.T.; 10036057 to K.N.). The authors thank Enago for English language editing.
Publisher Copyright:
© 2017, Japanese Society of Toxicology. All rights reserved.
PY - 2017
Y1 - 2017
N2 - The aryl hydrocarbon receptor (AhR) avidly binds dioxin, a ubiquitous environmental contaminant. Disruption of downstream AhR signaling has been reported to alter neuronal development, and rodent offspring exposed to dioxin during gestation and lactation showed abnormalities in learning and memory, emotion, and social behavior. However, the mechanism behind the disrupted AhR signaling and developmental neurotoxicity induced by xenobiotic ligands remains elusive. Therefore, we studied how excessive AhR activation affects neuronal migration in the hippocampal CA1 region of the developing mouse brain. We transfected constitutively active (CA)-AhR, AhR, or control vector plasmids into neurons via in utero electroporation on gestational day 14 and analyzed neuronal positioning in the hippocampal CA1 region of offspring on postnatal day 14. CA-AhR transfection affected neuronal positioning, whereas no change was observed in AhR-transfected or control hippocampus. These results suggest that constitutively activated AhR signaling disrupts neuronal migration during hippocampal development. Further studies are needed to investigate whether such developmental disruption in the hippocampus leads to the abnormal cognition and behavior of rodent offspring upon maternal exposure to AhR xenobiotic ligands.
AB - The aryl hydrocarbon receptor (AhR) avidly binds dioxin, a ubiquitous environmental contaminant. Disruption of downstream AhR signaling has been reported to alter neuronal development, and rodent offspring exposed to dioxin during gestation and lactation showed abnormalities in learning and memory, emotion, and social behavior. However, the mechanism behind the disrupted AhR signaling and developmental neurotoxicity induced by xenobiotic ligands remains elusive. Therefore, we studied how excessive AhR activation affects neuronal migration in the hippocampal CA1 region of the developing mouse brain. We transfected constitutively active (CA)-AhR, AhR, or control vector plasmids into neurons via in utero electroporation on gestational day 14 and analyzed neuronal positioning in the hippocampal CA1 region of offspring on postnatal day 14. CA-AhR transfection affected neuronal positioning, whereas no change was observed in AhR-transfected or control hippocampus. These results suggest that constitutively activated AhR signaling disrupts neuronal migration during hippocampal development. Further studies are needed to investigate whether such developmental disruption in the hippocampus leads to the abnormal cognition and behavior of rodent offspring upon maternal exposure to AhR xenobiotic ligands.
KW - Aryl hydrocarbon receptor
KW - Developmental neurotoxicity
KW - Hippocampus
KW - In utero electroporation
KW - Neuronal migration
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U2 - 10.2131/jts.42.25
DO - 10.2131/jts.42.25
M3 - Letter
C2 - 28070106
AN - SCOPUS:85009386833
SN - 1880-3989
VL - 42
SP - 25
EP - 30
JO - Journal of Toxicological Sciences
JF - Journal of Toxicological Sciences
IS - 1
ER -