NKCC1 knockdown decreases neuron production through GABA(A)-regulated neural progenitor proliferation and delays dendrite development

NKCC1 knockdown decreases neuron production through GABA(A)-regulated neural progenitor proliferation and delays dendrite development

Signaling through GABA(A) receptors controls neural progenitor cell (NPC) development in vitro and is altered in schizophrenic and autistic individuals. However, the in vivo function of GABA(A) signaling on neural stem cell proliferation, and ultimately neurogenesis, remains unknown. To examine GABA...

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Published in:The Journal of neuroscience Vol. 32; no. 39; pp. 13630 - 13638
Main Authors: Young, Stephanie Z, Taylor, M Morgan, Wu, Sharon, Ikeda-Matsuo, Yuri, Kubera, Cathryn, Bordey, Angélique
Format: Journal Article
Language:English
Published: United States 26-09-2012
Subjects:
Age Factors
Analysis of Variance
Animals
Animals, Newborn
Calcium - metabolism
Cell Count
Cell Differentiation - drug effects
Cell Differentiation - physiology
Cell Proliferation - drug effects
Cells, Cultured
Cerebral Ventricles - cytology
Cerebral Ventricles - growth & development
Dendrites - drug effects
Dendrites - physiology
Egtazic Acid - analogs & derivatives
Egtazic Acid - metabolism
Electroporation
Female
GABA Modulators - pharmacology
GABA-A Receptor Agonists - pharmacology
Green Fluorescent Proteins - genetics
In Vitro Techniques
Ki-67 Antigen - metabolism
Luminescent Proteins - genetics
Luminescent Proteins - metabolism
Male
Mice
Muscimol - pharmacology
Neural Stem Cells
Neurons - cytology
Neurons - drug effects
Neurons - physiology
Olfactory Bulb - cytology
Patch-Clamp Techniques
Pentobarbital - pharmacology
Receptors, GABA-A - metabolism
Red Fluorescent Protein
RNA, Small Interfering - genetics
RNA, Small Interfering - metabolism
Sodium-Potassium-Chloride Symporters - deficiency
Solute Carrier Family 12, Member 2
SOXB1 Transcription Factors - metabolism
Transfection
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Summary:Signaling through GABA(A) receptors controls neural progenitor cell (NPC) development in vitro and is altered in schizophrenic and autistic individuals. However, the in vivo function of GABA(A) signaling on neural stem cell proliferation, and ultimately neurogenesis, remains unknown. To examine GABA(A) function in vivo, we electroporated plasmids encoding short-hairpin (sh) RNA against the Na-K-2Cl cotransporter NKCC1 (shNKCC1) in NPCs of the neonatal subventricular zone in mice to reduce GABA(A)-induced depolarization. Reduced GABA(A) depolarization identified by a loss of GABA(A)-induced calcium responses in most electroporated NPCs led to a 70% decrease in the number of proliferative Ki67(+) NPCs and a 60% reduction in newborn neuron density. Premature loss of GABA(A) depolarization in newborn neurons resulted in truncated dendritic arborization at the time of synaptic integration. However, by 6 weeks the dendritic tree had partially recovered and displayed a small, albeit significant, decrease in dendritic complexity but not total dendritic length. To further examine GABA(A) function on NPCs, we treated animals with a GABA(A) allosteric agonist, pentobarbital. Enhancement of GABA(A) activity in NPCs increased the number of proliferative NPCs by 60%. Combining shNKCC1 and pentobarbital prevented the shNKCC1 and the pentobarbital effects on NPC proliferation, suggesting that these manipulations affected NPCs through GABA(A) receptors. Thus, dysregulation in GABA(A) depolarizing activity delayed dendritic development and reduced NPC proliferation resulting in decreased neuronal density.
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ISSN:0270-6474
1529-2401
DOI:10.1523/JNEUROSCI.2864-12.2012