Hikaru Shinohara scite author profile

Hikaru Shinohara

4Publications

12Citation Statements Received

73Citation Statements Given

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148

Affiliations

Tottori University

Publications

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Analysis of GABA-induced inhibition of spontaneous firing in chick accessory lobe neurons

et al. 2011

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It has been hypothesized that chick accessory lobes (ALs) contain functional neurons and act as a sensory organ of equilibrium. It was reported that neurons located in an outer layer of ALs showed γ-aminobutyric acid (GABA)- and glutamic acid decarboxylase (GAD)-like immunoreactivity more strongly than centrally located neurons, which were surrounded by the GAD-immunoreactive terminals. We investigated effects of GABA on the electrical activity of AL neurons. About 50% of embryonic AL neurons exhibited spontaneous firing. In the on-cell recording, GABA, muscimol, and GABA in combination with CGP35348 inhibited this firing. In whole-cell voltage clamp recordings, GABA and muscimol evoked a transient current. The mean reversal potential of GABA-evoked currents was close to the theoretical reversal potential of Cl⁻. These results indicate that GABA exerts the inhibitory effect on the firing through the activation of GABA(A) receptors. In addition, the intracellular concentration of Cl⁻ was estimated to be about 16 mM in measurements with the gramicidin-perforated configuration, indicating the physiological reversal potential of the GABA current was about -60 mV. In conclusion, AL neurons have an intrinsic mechanism to evoke the spontaneous firing, which can be arrested by the inhibitory mechanism through the activation of the GABA(A) receptors.

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Glutamate evokes firing through activation of kainate receptors in chick accessory lobe neurons

et al. 2012

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Ten pairs of protrusions, called accessory lobes (ALs), exist at the lateral sides of avian lumbosacral spinal cords. Histological and behavioral evidence suggests that neurons are present in ALs and the AL acts as a sensory organ of equilibrium during walking. Neurons in the outer layer of the AL consistently show glutamate-like immunoreactivity and neurons in the central region of the AL show glutamate receptor-like immunoreactivity. However, it is unknown how glutamate acts on the functional activity of AL neurons. In this study, we examined the effects of glutamate on the electrical activities of AL neurons using the patch clamp technique. There are two types of neurons among isolated AL neurons: spontaneously firing and silent neurons. Among silent neurons, 42 % of neurons responded to glutamate and generated repetitive firing. Kainate and glutamate in combination with the NMDA receptor antagonist, MK-801, also induced firing and evoked an inward current. On the other hand, the application of AMPA, NMDA or glutamate in combination with the non-NMDA receptor antagonist, CNQX, did not. These results indicate that chick AL neurons express functional kainate receptors to respond to glutamate and suggest that the glutamatergic transmission plays a role in excitatory regulation of AL neurons of the chick.

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Dispersal process driving subtropical forest reassembly: evidence from functional and phylogenetic analysis

Kusumoto

Baba

Fujii

et al. 2016

Ecological Research

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Understanding the mechanisms of secondary succession related to forest management practices is receiving increasing attention in community ecology and biodiversity conservation. Abiotic and biotic filtering are deterministic processes driving community reassembly. A functional trait or phylogeny‐based approach predicts that environmental filtering induced by clearcut‐logging results in functional/phylogenetic clustering in younger forests, while biotic filtering (competitive exclusion) promotes functional/phylogenetic overdispersion in old‐growth forests. From this perspective, we examined the patterns of functional/phylogenetic structures using tree community data (147 species × 170 plots). These data were chronosequenced from clearcut secondary forests to old‐growth subtropical forests in the Ryukyu Archipelago, with species’ trait data (leaf and stem) and species level phylogeny. To detect clustering or overdispersion in the functional and phylogenetic structures, we calculated the standardized effect size of mean nearest trait distance and mean nearest phylogenetic distance within the plots. Functional or phylogenetic clustering was relatively weak in secondary forests, and their directional change with increasing forest age was not generally detected. Mean nearest trait/phylogenetic distance for most plots fell within the range of random expectation. The results suggest that abiotic/biotic filtering related to functional traits or phylogenetic relatedness plays a diminished role in shaping species assembly during secondary succession in the subtropical forest. Our findings of functional and phylogenetic properties might shed light on the importance of dispersal (stochastic) processes in the regional species pool during community reassembly after anthropogenic disturbance. It will also contribute to the development of coordinated schemes that maintain potential species assembly processes in the subtropical forest.

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Activation of muscarinic acetylcholine receptors elevates intracellular Ca2+ concentrations in accessory lobe neurons of the chick

et al. 2014

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Accessory lobes are protrusions located at the lateral sides of the spinal cord of chicks and it has been proposed that they play a role as a sensory organ for equilibrium during walking. We have reported that functional neurons exist in the accessory lobe. As there is histological evidence that synaptic terminals of cholinergic nerves exist near the somata of accessory lobe neurons, we examined the effects of acetylcholine on changes in intracellular Ca2+ concentrations ([Ca2+]i), as an index of cellular activities. Acetylcholine (0.1-100 µM) caused a transient rise in the [Ca2+]i. Acetylcholine-evoked [Ca2+]i rises were observed in the absence of extracellular Ca2+, and they were abolished in the presence of cyclopiazonic acid, an inhibitor of Ca2+-ATPase of intracellular Ca2+ stores or atropine, a muscarinic receptor antagonist. mRNAs coding M3 and M5 isoforms of the muscarinic receptors were detected in accessory lobes by the RT-PCR. These results indicate that chick accessory lobe neurons express functional muscarinic acetylcholine receptors, and that acetylcholine stimulates Ca2+ mobilization from intracellular Ca2+ stores, which elevates the [Ca2+]i in the somata of accessory lobe neurons, through activation of these receptors. Cholinergic synaptic transmission to the accessory lobe neurons may regulate some cellular functions through muscarinic receptors.

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