TY - JOUR
T1 - Dysregulation of Rho GTPases in the αPix/Arhgef6 mouse model of X-linked intellectual disability is paralleled by impaired structural and synaptic plasticity and cognitive deficits
AU - Ramakers, Ger J A
AU - Wolfer, David
AU - Rosenberger, Georg
AU - Kuchenbecker, Kerstin
AU - Kreienkamp, Hans Jürgen
AU - Prange-kiel, Janine
AU - Rune, Gabriele
AU - Richter, Karin
AU - Langnaese, Kristina
AU - Masneuf, Sophie
AU - Bösl, Michael R.
AU - Fischer, Klaus Dieter
AU - Krugers, Harm J.
AU - Lipp, Hans Peter
AU - van Galen, Elly
AU - Kutsche, Kerstin
N1 - Funding Information:
This work was supported by the Deutsche Forschungsge-meinschaft (FOR885/IRP5 to K.K. and G.R., FOR885/IRP2 to H.-J.K. and SFB854/TP11 to K.D.F.); the European Commission (QLG3-CT-2002-01810 to G.J.A.R.); the Netherlands Organisation for Scientific Research, NWO (051.04.090 to G.J.A.R.); the Swiss National Science Foundation and the National Competence Center for Research (NCCR) ‘Neural Plasticity and Repair’ (to H.P.L. and D.P.W.).
PY - 2012/1
Y1 - 2012/1
N2 - Mutations in the ARHGEF6 gene, encoding the guanine nucleotide exchange factor αPIX/Cool-2 for the Rho GTPases Rac1 and Cdc42, cause X-linked intellectual disability (ID) in humans. We show here that αPix/Arhgef6 is primarily expressed in neuropil regions of the hippocampus. To study the role of αPix/Arhgef6 in neuronal development and plasticity and gain insight into the pathogenic mechanisms underlying ID, we generated αPix/Arhgef6-deficient mice. Gross brain structure in these mice appeared to be normal; however, analysis of Golgi-Cox-stained pyramidal neurons revealed an increase in both dendritic length and spine density in the hippocampus, accompanied by an overall loss in spine synapses. Early-phase long-term potentiation was reduced and long-term depression was increased in the CA1 hippocampal area of αPix/Arhgef6-deficient animals. Knockout animals exhibited impaired spatial and complex learning and less behavioral control in mildly stressful situations, suggesting that this model mimics the human ID phenotype. The structural and electrophysiological alterations in the hippocampus were accompanied by a significant reduction in active Rac1 and Cdc42, but not RhoA. In conclusion, we suggest that imbalance in activity of different Rho GTPases may underlie altered neuronal connectivity and impaired synaptic function and cognition in αPix/Arhgef6 knockout mice. Published by Oxford University Press 2011.
AB - Mutations in the ARHGEF6 gene, encoding the guanine nucleotide exchange factor αPIX/Cool-2 for the Rho GTPases Rac1 and Cdc42, cause X-linked intellectual disability (ID) in humans. We show here that αPix/Arhgef6 is primarily expressed in neuropil regions of the hippocampus. To study the role of αPix/Arhgef6 in neuronal development and plasticity and gain insight into the pathogenic mechanisms underlying ID, we generated αPix/Arhgef6-deficient mice. Gross brain structure in these mice appeared to be normal; however, analysis of Golgi-Cox-stained pyramidal neurons revealed an increase in both dendritic length and spine density in the hippocampus, accompanied by an overall loss in spine synapses. Early-phase long-term potentiation was reduced and long-term depression was increased in the CA1 hippocampal area of αPix/Arhgef6-deficient animals. Knockout animals exhibited impaired spatial and complex learning and less behavioral control in mildly stressful situations, suggesting that this model mimics the human ID phenotype. The structural and electrophysiological alterations in the hippocampus were accompanied by a significant reduction in active Rac1 and Cdc42, but not RhoA. In conclusion, we suggest that imbalance in activity of different Rho GTPases may underlie altered neuronal connectivity and impaired synaptic function and cognition in αPix/Arhgef6 knockout mice. Published by Oxford University Press 2011.
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U2 - 10.1093/hmg/ddr457
DO - 10.1093/hmg/ddr457
M3 - Article
C2 - 21989057
AN - SCOPUS:84855374973
SN - 0964-6906
VL - 21
SP - 268
EP - 286
JO - Human molecular genetics
JF - Human molecular genetics
IS - 2
M1 - ddr457
ER -