GABAergic Excitation Promotes Neuronal Differentiation in Adult Hippocampal Progenitor Cells

Tozuka, Yusuke; Fukuda, Seisuke; Namba, Tsuneo; Seki, Tatsunori; Hisatsune, Tatsuhiro

doi:10.1016/j.neuron.2005.08.023

Cited by 657 publications

(717 citation statements)

References 78 publications

(73 reference statements)

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“…At early stages, GABA depolarizes neurons because of high concentrations of intracellular Cl − (30). Although glutamatergic inputs from entorhinal cortex to newborn neurons are not detected at very early stages (31,32), cortical afferent activity may still be able to depolarize new neurons through the feed-forward mechanism mediated by interneurons such as MOPP cells. Such a mechanism might allow external cortical inputs to regulate neurogenesis, including neural stem cell proliferation, survival, and differentiation as well as the subsequent integration of the new neurons into the existing neural circuit.…”

Section: Discussionmentioning

confidence: 99%

Molecular layer perforant path-associated cells contribute to feed-forward inhibition in the adult dentate gyrus

Li¹,

Stam²,

Aimone³

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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New neurons, which have been implicated in pattern separation, are continually generated in the dentate gyrus in the adult hippocampus. Using a genetically modified rabies virus, we demonstrated that molecular layer perforant pathway (MOPP) cells innervated newborn granule neurons in adult mouse brain. Stimulating the perforant pathway resulted in the activation of MOPP cells before the activation of dentate granule neurons. Moreover, activation of MOPP cells by focal uncaging of glutamate induced strong inhibition of granule cells. Together, these results indicate that MOPP cells located in the molecular layer of the dentate gyrus contribute to feed-forward inhibition of granule cells via perforant pathway activation.adult neurogenesis | interneuron

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Section: Discussionmentioning

confidence: 99%

Molecular layer perforant path-associated cells contribute to feed-forward inhibition in the adult dentate gyrus

Li¹,

Stam²,

Aimone³

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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“…59 Finally, there is evidence that in adult mouse hippocampal slices, GABAergic synaptic inputs depolarize proliferating progenitor cells, contributing to their later differentiation and functional incorporation into the dentate gyrus. 60,61 Thus, improper regulation of GAD 67 , either during development or adulthood, has the potential to produce a variety of phenotypic results, some of which may increase the risk of schizophrenia.…”

Section: Introductionmentioning

confidence: 99%

Allelic variation in GAD1 (GAD67) is associated with schizophrenia and influences cortical function and gene expression

et al. 2007

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Cortical GABAergic dysfunction has been implicated as a key component of the pathophysiology of schizophrenia and decreased expression of the gamma-aminobutyric acid (GABA) synthetic enzyme glutamic acid decarboxylase 67 (GAD 67 ), encoded by GAD1, is found in schizophrenic post-mortem brain. We report evidence of distorted transmission of single-nucleotide polymorphism (SNP) alleles in two independent schizophrenia family-based samples. In both samples, allelic association was dependent on the gender of the affected offspring, and in the Clinical Brain Disorders Branch/National Institute of Mental Health (CBDB/NIMH) sample it was also dependent on catechol-O-methyltransferase (COMT) Val158Met genotype. Quantitative transmission disequilibrium test analyses revealed that variation in GAD1 influenced multiple domains of cognition, including declarative memory, attention and working memory. A 5 0 flanking SNP affecting cognition in the families was also associated in unrelated healthy individuals with inefficient BOLD functional magnetic resonance imaging activation of dorsal prefrontal cortex (PFC) during a working memory task, a physiologic phenotype associated with schizophrenia and altered cortical inhibition. In addition, a SNP in the 5 0 untranslated (and predicted promoter) region that also influenced cognition was associated with decreased expression of GAD1 mRNA in the PFC of schizophrenic brain. Finally, we observed evidence of statistical epistasis between two SNPs in COMT and SNPs in GAD1, suggesting a potential biological synergism leading to increased risk. These coincident results implicate GAD1 in the etiology of schizophrenia and suggest that the mechanism involves altered cortical GABA inhibitory activity, perhaps modulated by dopaminergic function.

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“…Functionally, the GABA-induced excitatory transmission acts as a developmental compensation for the largely absent glutamatergic transmission, especially AMPAR-mediated responses, in young neurons. GABAR activation promotes neuronal differentiation in the SGZ and neuroblast migration in the SVZ (Tozuka et al, 2005;Ge et al, 2006;Mejia-Gervacio et al, 2011). On the other hand, in the SVZ, the GABAergic transmission can delay the proliferation of NSCs (Liu et al, 2005).…”

Section: Factors Regulating Nsc Differentiationmentioning

confidence: 99%

Neural stem cells: mechanisms and modeling

Yao

Gage

2012

Protein Cell

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In the adult brain, neural stem cells have been found in two major niches: the hippocampus and the olfactory bulb. Neurons derived from these stem cells contribute to learning, memory, and the autonomous repair of the brain under pathological conditions. Hence, the physiology of adult neural stem cells has become a significant component of research on synaptic plasticity and neuronal disorders. In addition, the recently developed induced pluripotent stem cell technique provides a powerful tool for researchers engaged in the pathological and pharmacological study of neuronal disorders. In this review, we briefly summarize the research progress in neural stem cells in the adult brain and in the neuropathological application of the induced pluripotent stem cell technique.

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GABAergic Excitation Promotes Neuronal Differentiation in Adult Hippocampal Progenitor Cells

Cited by 657 publications

References 78 publications

Molecular layer perforant path-associated cells contribute to feed-forward inhibition in the adult dentate gyrus

Molecular layer perforant path-associated cells contribute to feed-forward inhibition in the adult dentate gyrus

Allelic variation in GAD1 (GAD67) is associated with schizophrenia and influences cortical function and gene expression

Neural stem cells: mechanisms and modeling

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