Normal formation of the postsynaptic elements of GABAergic synapses in the reeler cerebellum

Takayama, Chitoshi; Inoue, Yoshiro

doi:10.1016/j.devbrainres.2003.08.003

Cited by 16 publications

(16 citation statements)

References 66 publications

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“…In a previous study, we examined expression of the GABA A receptor α subunits under aberrant conditions of the reeler cerebellum [57]. Although neuronal maturation of malpositioned Purkinje cells was assumed to be arrested due to lack of excitatory input from parallel fibers and the presence of climbing fibers' multiple innervation, expression of the α3 subunit was almost as negative as that in the normal cerebellum, and malpositioned Purkinje cells abundantly expressed the α1 subunit [13,57]. These results indicated that formation of excitatory synapses with parallel fibers is independent of decreasing expression of the α3 subunits, and that formation of …”

Section: Regulatory Mechanism Underlying the Changes In Gaba A Recementioning

confidence: 99%

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Transient expression of GABAA receptor α2 and α3 subunits in differentiating cerebellar neurons

Takayama

Inoue

2004

Developmental Brain Research

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In the adult mammalian brain, synaptic transmission mediated by γ-amino butyric acid (GABA) plays a role in inhibition of excitatory synaptic transmission. During brain development, GABA is involved in brain morphogenesis. To clarify how GABA exerts its effect on immature neurons, we examined the expression of the GABA A receptor α2 and α3 subunits, which are abundantly expressed before α1 and α6 subunits appear, in the developing mouse cerebellum using in situ hybridization. Proliferating neuronal precursors in the ventricular zone and external granular layer expressed neither α2 nor α3 subunits.Hybridization signals for the α2 and α3 subunit mRNAs first appeared in the differentiating zone at embryonic day 13 (E13). The α2 subunit was detected in the migrating and differentiating granule cells and cerebellar nucleus neurons until postnatal day 14 (P14).Hybridization signals for the α3 subunit mRNA, on the other hand, were localized in the developing Purkinje cells and cerebellar nucleus neurons, and disappeared from Purkinje cells by the end of first postnatal week. Taken together, this indicated that the α2 and α3 subunits were abundantly expressed in distinct types of cerebellar neurons after completing cell proliferation while forming the neural network. These results suggest that GABA might extrasynaptically activate the GABA A receptors containing α2 and/or α3 subunits on the differentiating neurons before finishing the formation of synapses and networks, and could be involved in neuronal differentiation and maturation in the cerebellum. Classification TermsTheme A: Development and Regeneration Topic: Neurotransmitter systems and channels

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Section: Regulatory Mechanism Underlying the Changes In Gaba A Recementioning

confidence: 99%

“…In situ hybridization histochemistry was performed as described in a previous paper [57]. Under deep ether anesthesia, embryonic mice were taken from the uteri of the mother mice and brains were removed from the skulls of postnatal mice.…”

Section: In Situ Hybridizationmentioning

confidence: 99%

Transient expression of GABAA receptor α2 and α3 subunits in differentiating cerebellar neurons

Takayama

Inoue

2004

Developmental Brain Research

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“…Moreover, the majority of both α1 and α6 subunit proteins accumulated adjacent to the Golgi cell axon terminals. These results demonstrated that (1) GAD-positive growth cones and varicosities probably undergo a change to GABAergic terminals [26,48], (2) GABAergic synapses were massively formed during the second postnatal week [2,28,31,37], and (3) GABAergic innervation might initiate the expression of the GABA A receptor α1 and α6 subunit genes, as well as trafficking and clustering of proteins to the synaptic site [1,8,12,13,16,17,20,24,46,48,61].…”

Section: Formation and Maturation Of Gabaergic Synapses In The Cerebementioning

confidence: 96%

“…The specificity of these probes was verified in a previous report [61]. In situ hybridization histochemistry was performed as described in a previous paper [61].…”

Section: In Situ Hybridizationmentioning

confidence: 99%

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Morphological development and maturation of the GABAergic synapses in the mouse cerebellar granular layer

Takayama

2004

Developmental Brain Research

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In the adult central nervous system (CNS), γ-amino butyric acid (GABA) is a predominant inhibitory neurotransmitter, which regulates glutamatergic activity. Recent studies have revealed that GABA serves as an excitatory transmitter in the immature CNS, and is involved in brain morphogenesis. To elucidate how GABA exerts its effect on immature neurons and how GABAergic synapses are formed, we examined both development of pre-and post-synaptic elements of the GABAergic synapses formed between granule and Golgi cells in the mouse cerebellar granular layer. Immunohistochemistry for glutamic acid decarboxylase (GAD) demonstrated that GABA was localized throughout the Golgi cells before postnatal day 7 (P7), and became confined to the axon terminals during the second postnatal week. Electron microscopic analysis demonstrated that GABAergic synapses were clearly detected at P10. In situ hybridization and immunohistochemistry for the GABA A receptor α1 and α6 subunits, which are mainly involved in inhibitory synaptic transmission, demonstrated that both subunits appeared at P7. Distribution of both subunits expanded in the granular layer with special reference to the development of GABAergic synapses.Furthermore, the majority of the subunits accumulated adjacent to the GABAergic terminals.These results suggested that in the granular layer, GABA might be non-synaptically secreted from Golgi cell axons and dendrites during the first postnatal week. From the second postnatal week, GABA is synaptically released and begins to mediate inhibitory transmission.Furthermore, it was suggested that GABAergic innervation could initiate expression and trafficking of the GABA A receptors containing the α1 and α6 subunits.

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GABA/glycine signaling during degeneration and regeneration of mouse hypoglossal nerves

et al. 2012

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Normal formation of the postsynaptic elements of GABAergic synapses in the reeler cerebellum

Cited by 16 publications

References 66 publications

Transient expression of GABAA receptor α2 and α3 subunits in differentiating cerebellar neurons

Transient expression of GABAA receptor α2 and α3 subunits in differentiating cerebellar neurons

Morphological development and maturation of the GABAergic synapses in the mouse cerebellar granular layer

GABA/glycine signaling during degeneration and regeneration of mouse hypoglossal nerves

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