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2. Chemogenetic activation of target neurons expressing insect Ionotropic Receptors in the mammalian central nervous system by systemic administration of ligand precursors

Author

Iguchi, Y., Fukabori, R., Kato, S., Takahashi, K., Eifuku, S., Maejima, Y., Shimomura, K., Mizuma, H., Mawatari, A., Doi, H., Cui, Y., Onoe, H., Hikishima, K., Osanai, M., Nishijo, T., Momiyama, T., Benton, R., Kobayashi, K., Iguchi, Y., Fukabori, R., Kato, S., Takahashi, K., Eifuku, S., Maejima, Y., Shimomura, K., Mizuma, H., Mawatari, A., Doi, H., Cui, Y., Onoe, H., Hikishima, K., Osanai, M., Nishijo, T., Momiyama, T., Benton, R., and Kobayashi, K.

Published
2023

4. Charon's size and an upper limit on its atmosphere from a stellar occultation

Author

Sicardy, B., Bellucci, A., Gendron, E., Lacombe, F., Lacour, S., Lecacheux, J., Lellouch, E., Renner, S., Pau, S., Roques, F., Widemann, T., Colas, F., Vachier, F., Vieira Martins, R., Ageorges, N., Hainaut, O., Marco, O., Beisker, W., Hummel, E., Feinstein, C., Levato, H., Maury, A., Frappa, E., Gaillard, B., Lavayssière, M., Di Sora, M., Mallia, F., Masi, G., Behrend, R., Carrier, F., Mousis, O., Rousselot, P., Alvarez-Candal, A., Lazzaro, D., Veiga, C., Andrei, A. H., Assafin, M., da Silva Neto, D. N., Jacques, C., Pimentel, E., Weaver, D., Lecampion, J.-F., Doncel, F., Momiyama, T., and Tancredi, G.

Published
2006

7. NAVTOLAND and flying qualities

Author

Momiyama, T. S

Subjects
Aircraft Design, Testing And Performance
Abstract

The V/STOL operational capability is reviewed with emphasis on pilot workload and all-weather landing guidance systems. A research and development program to correlate and integrate the development of all systems and techniques involved in enabling the pilot to fly V/STOL aircraft onto ships and tactical sites is described. Aircraft design parameters that affect its control in the vertical takeoff and landing flight regimes are emphasized. Topics considered include: (1) integrated flight controls and displays; (2) low speed sensor; (3) air traffic control appraoch and landing guidance systems; (4) visual landing aids; (5) ground effect induced thrust variation problems; and (6) handling qualities.

Published
1977

12. scolopacinus

Author

Momiyama, T., Momiyama, T., Momiyama, T., and Momiyama, T.

Abstract

nymph, http://name.umdl.umich.edu/IC-INSECT2IC-X-UMMZI-174912%5DUMMZ-INS-174912, https://quod.lib.umich.edu/cgi/i/image/api/thumb/insect2ic/UMMZI-174912/UMMZ-INS-174912/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be under copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, contact the Collections Manager: insect-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

13. scolopacinus

Author

Momiyama, T., Momiyama, T., Momiyama, T., and Momiyama, T.

Abstract

nymph, http://name.umdl.umich.edu/IC-INSECT2IC-X-UMMZI-174910%5DUMMZ-INS-174910, https://quod.lib.umich.edu/cgi/i/image/api/thumb/insect2ic/UMMZI-174910/UMMZ-INS-174910/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be under copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, contact the Collections Manager: insect-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

14. scolopacinus

Author

Momiyama, T., Momiyama, T., Momiyama, T., and Momiyama, T.

Abstract

nymph, http://name.umdl.umich.edu/IC-INSECT2IC-X-UMMZI-174909%5DUMMZ-INS-174909, https://quod.lib.umich.edu/cgi/i/image/api/thumb/insect2ic/UMMZI-174909/UMMZ-INS-174909/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be under copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, contact the Collections Manager: insect-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

15. scolopacinus

Author

Momiyama, T., Momiyama, T., Momiyama, T., and Momiyama, T.

Abstract

?, http://name.umdl.umich.edu/IC-INSECT2IC-X-UMMZI-174911%5DUMMZ-INS-174911, https://quod.lib.umich.edu/cgi/i/image/api/thumb/insect2ic/UMMZI-174911/UMMZ-INS-174911/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be under copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, contact the Collections Manager: insect-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

16. scolopacinus

Author

Momiyama, T., Momiyama, T., Momiyama, T., and Momiyama, T.

Abstract

nymph, http://name.umdl.umich.edu/IC-INSECT2IC-X-UMMZI-174912%5DUMMZ-INS-174912, https://quod.lib.umich.edu/cgi/i/image/api/thumb/insect2ic/UMMZI-174912/UMMZ-INS-174912/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be under copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, contact the Collections Manager: insect-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

17. scolopacinus

Author

Momiyama, T., Momiyama, T., Momiyama, T., and Momiyama, T.

Abstract

?, http://name.umdl.umich.edu/IC-INSECT2IC-X-UMMZI-174911%5DUMMZ-INS-174911, https://quod.lib.umich.edu/cgi/i/image/api/thumb/insect2ic/UMMZI-174911/UMMZ-INS-174911/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be under copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, contact the Collections Manager: insect-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

18. scolopacinus

Author

Momiyama, T., Momiyama, T., Momiyama, T., and Momiyama, T.

Abstract

nymph, http://name.umdl.umich.edu/IC-INSECT2IC-X-UMMZI-174910%5DUMMZ-INS-174910, https://quod.lib.umich.edu/cgi/i/image/api/thumb/insect2ic/UMMZI-174910/UMMZ-INS-174910/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be under copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, contact the Collections Manager: insect-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

19. scolopacinus

Author

Momiyama, T., Momiyama, T., Momiyama, T., and Momiyama, T.

Abstract

nymph, http://name.umdl.umich.edu/IC-INSECT2IC-X-UMMZI-174909%5DUMMZ-INS-174909, https://quod.lib.umich.edu/cgi/i/image/api/thumb/insect2ic/UMMZI-174909/UMMZ-INS-174909/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be under copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, contact the Collections Manager: insect-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

20. Smooth muscle cell phenotype-dependent transcriptional regulation of the alpha1 integrin gene.

Author

Obata, H, Hayashi, K, Nishida, W, Momiyama, T, Uchida, A, Ochi, T, and Sobue, K

Abstract

The expressional regulation of chicken alpha1 integrin in smooth muscle cells was studied. The alpha1 integrin mRNA was expressed developmentally and was distributed dominantly in vascular and visceral smooth muscles in chick embryos. In a primary culture of smooth muscle cells, alpha1 integrin expression was dramatically down-regulated during serum-induced dedifferentiation. Promoter analyses revealed that the 5'-upstream region (-516 to +281) was sufficient for transcriptional activation in differentiated smooth muscle cells but not in dedifferentiated smooth muscle cells or chick embryo fibroblasts. Like other alpha integrin promoters, the promoter region of the alpha1 integrin gene lacks TATA and CCAAT boxes and contains binding sites for AP1 and AP2. The essential difference from other alpha integrin promoters is the presence of a CArG box-like motif. Deletion and site-directed mutation analyses revealed that the CArG box-like motif was an essential cis-element for transcriptional activation in differentiated smooth muscle cells, whereas the binding sites for AP1 and AP2 were not. Using specific antibodies, a nuclear protein factor specifically bound to the CArG box-like motif was identified as serum response factor. These results indicate that alpha1 integrin expression in smooth muscle cells is regulated transcriptionally in a phenotype-dependent manner and that serum response factor binding plays a crucial role in this regulation.

Published
1997

21. Transcriptional regulation of the chicken caldesmon gene. Activation of gizzard-type caldesmon promoter requires a CArG box-like motif.

Author

Yano, H, Hayashi, K, Momiyama, T, Saga, H, Haruna, M, and Sobue, K

Abstract

Caldesmon, which plays a vital role in the actomyosin system, is distributed in smooth muscle and non-muscle cells, and its isoformal interconversion between a high M(r) form and low M(r) form is a favorable molecular event for studying phenotypic modulation of smooth muscle cells. Genomic analysis reveals two promoters, of which the gizzard-type promoter displays much higher activity than the brain-type promoter. Here, we have characterized transcriptional regulation of the gizzard-type promoter. Transient transfection assays in chick gizzard smooth muscle cells, chick embryo fibroblasts, mouse skeletal muscle cell line (C2C12), and HeLa cells revealed that the promoter activity was high in smooth muscle cells and fibroblasts, but was extremely low in other cells. Cell type-specific promoter activity depended on an element, CArG1, containing a unique CArG box-like motif (CCAAAAAAGG) at -315, while multiple E boxes were not directly involved in this event. Gel shift assays showed the specific interaction between the CArG1 and nuclear protein factors in smooth muscle cells and fibroblasts. These results suggest that the CArG1 is an essential cis-element for cell type-specific expression of caldesmon and that the function of CArG1 might be controlled under phenotypic modulation of smooth muscle cells.

Published
1995

29. Serotonin-induced presynaptic inhibition of GABAergic transmission onto cholinergic neurons in the rat basal forebrain.

Author

Momiyama, T. and Nishijo, T.

Subjects
*PATCH-clamp techniques (Electrophysiology), *SEROTONIN, *CHOLINERGIC mechanisms
Abstract

A Whole-cell patch-clamp study was carried out to elucidate modulatory roles of serotonin (5-HT) in GABAergic transmission onto basal forebrain cholinergic neurons, using brain slice preparations obtained from P12-19 rat under deep anesthesia with halothane. Animal handling and all experimental procedures were done according to the Guiding Principles for the care and Use of Animals in the Field of Physiological Sciences of the Physiological Society of Japan (2009), the UK Animals (Scientific Procedures) Act 1986, and the guidelines of Jikei University School of Medicine. GABAA receptor-mediated inhibitory postsynaptic currents (IPSCs) were evoked by focal electrical stimulation in the presence of CNQX, D-AP5 and strychnine to block non-NMDA-, NMDA- and glycine receptor-mediated currents components, respectively. Bath application of 5-HT reduced the amplitude of the evoked GABAergic IPSCs in a concentration-dependent manner between 0.1-100 µM The inhibition of IPSCs by 0.1, 1, 10 and 100 µM 5-HT was 21.1 ± 9.17 % (n=6), 35.2 ± 5.52 % (n=5), 58.5 ± 2.36 % (n=41) and 64.1 ± 5.46 % (n=4), respectively. A 5-HT1B receptor agonist, CP93129 (10 µM) also suppressed the IPSCs by 59.8 ± 9.25 % (n=5), whereas a 5-HT1A receptor agonist, 8-OH-DPAT, had no effect. NAS-181, a 5-HT1B receptor antagonist antagonized the 5-HT-induced suppression of IPSCs, whereas NAN-190, a 5-HT1A receptor antagonist did not. 5-HT (1 µM) reduced the frequency of spontaneous miniature IPSCs (mIPSCs) by 52.0 ± 9.85 % (n=6) without changing their amplitude distribution. This effect remained unchanged when extracellular Ca2+ was replaced by Mg2+ (5 mM). In the presence of ω-Aga-TK, ω-CgTX, or SNX-482, an N-, P/Q- or R-type calcium channel blocker, respectively, 5-HT could still inhibit the IPSCs. These findings suggest that activation of presynaptic 5-HT1B receptors on the terminals of GABAergic afferents to basal forebrain cholinergic neurons inhibits GABA release in Ca2+-independent manner. [ABSTRACT FROM AUTHOR]

Published
2013

34. Synaptic and membrane properties of cholinergic interneurons in the striatum of aristaless-related homeobox gene mutant mice.

Author

Momiyama T, Nishijo T, Suzuki E, and Kitamura K

Subjects
Animals, Mice, Excitatory Postsynaptic Potentials physiology, Receptors, Dopamine D2 metabolism, Receptors, Dopamine D2 genetics, Synapses physiology, Synapses metabolism, Membrane Potentials physiology, Inhibitory Postsynaptic Potentials physiology, Action Potentials physiology, In Vitro Techniques, Genes, Homeobox genetics, Interneurons physiology, Interneurons metabolism, Corpus Striatum metabolism, Corpus Striatum physiology, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Patch-Clamp Techniques, Cholinergic Neurons metabolism, Cholinergic Neurons physiology
Abstract

A whole-cell patch-clamp study was carried out to investigate membrane and synaptic properties of cholinergic interneurons in the striatum of aristaless-related homeobox gene (ARX) mutant mice. Brain slices were prepared from mice knocked in two types of ARX, P355L (PL) and 333ins (GCG)7 (GCG). The input resistance of cholinergic interneurons in PL or GCG mice was significantly smaller than that in wild type (WT), whereas resting membrane potential, threshold of action potentials, spontaneous firing rate, sag ratio or afterhyperpolarization of the mutant mice were not significantly different from those of WT mice. In GCG mice, NMDA/AMPA ratio of excitatory postsynaptic currents (EPSCs) evoked in cholinergic interneurons was significantly smaller than that in WT and PL mice, whereas the ratio between PL and WT mice was not significantly different. Although inhibitory effects induced by dopamine D2-like receptor activation on the inhibitory postsynaptic currents (IPSCs) were not significantly different between WT and PL or GCG mice, increase in the paired pulse ratio of IPSCs by dopamine D2-like receptor activation was abolished in PL and GCG mice. The present results have found abnormalities of neuronal activities as well as its modulation in the basal ganglia in ARX mutant mice, clarifying basic mechanisms underlying related disorders., (© 2024 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published
2024
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35. Chemogenetic activation of mammalian brain neurons expressing insect Ionotropic Receptors by systemic ligand precursor administration.

Author

Iguchi Y, Fukabori R, Kato S, Takahashi K, Eifuku S, Maejima Y, Shimomura K, Mizuma H, Mawatari A, Doi H, Cui Y, Onoe H, Hikishima K, Osanai M, Nishijo T, Momiyama T, Benton R, and Kobayashi K

Subjects
Animals, Ligands, Mice, Phenylacetates pharmacology, Phenylacetates metabolism, Receptors, Ionotropic Glutamate metabolism, Receptors, Ionotropic Glutamate genetics, Male, Neurons metabolism, Brain metabolism
Abstract

Chemogenetic approaches employing ligand-gated ion channels are advantageous regarding manipulation of target neuronal population functions independently of endogenous second messenger pathways. Among them, Ionotropic Receptor (IR)-mediated neuronal activation (IRNA) allows stimulation of mammalian neurons that heterologously express members of the insect chemosensory IR repertoire in response to their cognate ligands. In the original protocol, phenylacetic acid, a ligand of the IR84a/IR8a complex, was locally injected into a brain region due to its low permeability of the blood-brain barrier. To circumvent this invasive injection, we sought to develop a strategy of peripheral administration with a precursor of phenylacetic acid, phenylacetic acid methyl ester, which is efficiently transferred into the brain and converted to the mature ligand by endogenous esterase activities. This strategy was validated by electrophysiological, biochemical, brain-imaging, and behavioral analyses, demonstrating high utility of systemic IRNA technology in the remote activation of target neurons in the brain., (© 2024. The Author(s).)

Published
2024
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36. Enhancement of Haloperidol-Induced Catalepsy by GPR143, an L-Dopa Receptor, in Striatal Cholinergic Interneurons.

Author

Arai M, Suzuki E, Kitamura S, Otaki M, Kanai K, Yamasaki M, Watanabe M, Kambe Y, Murata K, Takada Y, Arisawa T, Kobayashi K, Tajika R, Miyazaki T, Yamaguchi M, Lazarus M, Hayashi Y, Itohara S, de Kerchove d'Exaerde A, Nawa H, Kim R, Bito H, Momiyama T, Masukawa D, and Goshima Y

Subjects
Humans, Mice, Male, Animals, Cricetinae, Haloperidol pharmacology, Levodopa adverse effects, Catalepsy chemically induced, CHO Cells, Cricetulus, Interneurons metabolism, Cholinergic Agents pharmacology, Eye Proteins metabolism, Membrane Glycoproteins metabolism, Antipsychotic Agents adverse effects, Parkinsonian Disorders, Receptors, Neurotransmitter
Abstract

Dopamine neurons play crucial roles in pleasure, reward, memory, learning, and fine motor skills and their dysfunction is associated with various neuropsychiatric diseases. Dopamine receptors are the main target of treatment for neurologic and psychiatric disorders. Antipsychotics that antagonize the dopamine D2 receptor (DRD2) are used to alleviate the symptoms of these disorders but may also sometimes cause disabling side effects such as parkinsonism (catalepsy in rodents). Here we show that GPR143, a G-protein-coupled receptor for L-3,4-dihydroxyphenylalanine (L-DOPA), expressed in striatal cholinergic interneurons enhances the DRD2-mediated side effects of haloperidol, an antipsychotic agent. Haloperidol-induced catalepsy was attenuated in male Gpr143 gene -deficient ( Gpr143 -/y ) mice compared with wild-type (Wt) mice. Reducing the endogenous release of L-DOPA and preventing interactions between GPR143 and DRD2 suppressed the haloperidol-induced catalepsy in Wt mice but not Gpr143 -/y mice. The phenotypic defect in Gpr143 -/y mice was mimicked in cholinergic interneuron-specific Gpr143 -/y ( Chat-cre;Gpr143 flox/y ) mice. Administration of haloperidol increased the phosphorylation of ribosomal protein S6 at Ser 240/244 in the dorsolateral striatum of Wt mice but not Chat-cre;Gpr143 flox/y mice. In Chinese hamster ovary cells stably expressing DRD2, co-expression of GPR143 increased cell surface expression level of DRD2, and L-DOPA application further enhanced the DRD2 surface expression. Shorter pauses in cholinergic interneuron firing activity were observed after intrastriatal stimulation in striatal slice preparations from Chat-cre;Gpr143 flox/y mice compared with those from Wt mice. Together, these findings provide evidence that GPR143 regulates DRD2 function in cholinergic interneurons and may be involved in parkinsonism induced by antipsychotic drugs., Competing Interests: The authors declare no competing financial interests., (Copyright © 2024 the authors.)

Published
2024
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37. Identification of kynurenine and quinolinic acid as promising serum biomarkers for drug-induced interstitial lung diseases.

Author

Sun Y, Saito K, Ushiki A, Abe M, Saito Y, Kashiwada T, Horimasu Y, Gemma A, Tatsumi K, Hattori N, Tsushima K, Takemoto K, Ishikawa R, Momiyama T, Matsuyama SI, Arakawa N, Akane H, Toyoda T, Ogawa K, Sato M, Takamatsu K, Mori K, Nishiya T, Izumi T, Ohno Y, Saito Y, and Hanaoka M

Subjects
Humans, Kynurenine metabolism, Tryptophan metabolism, Tryptophan pharmacology, Quinolinic Acid metabolism, Endothelial Cells metabolism, Biomarkers, Lung Injury, Lung Diseases, Interstitial chemically induced, Lung Diseases, Interstitial diagnosis
Abstract

Background: Drug-induced interstitial lung disease (DILD) is a lung injury caused by various types of drugs and is a serious problem in both clinical practice and drug development. Clinical management of the condition would be improved if there were DILD-specific biomarkers available; this study aimed to meet that need., Methods: Biomarker candidates were identified by non-targeted metabolomics focusing on hydrophilic molecules, and further validated by targeted approaches using the serum of acute DILD patients, DILD recovery patients, DILD-tolerant patients, patients with other related lung diseases, and healthy controls., Results: Serum levels of kynurenine and quinolinic acid (and kynurenine/tryptophan ratio) were elevated significantly and specifically in acute DILD patients. The diagnostic potentials of these biomarkers were superior to those of conventional lung injury biomarkers, Krebs von den Lungen-6 and surfactant protein-D, in discriminating between acute DILD patients and patients with other lung diseases, including idiopathic interstitial pneumonia and lung diseases associated with connective tissue diseases. In addition to identifying and evaluating the biomarkers, our data showed that kynurenine/tryptophan ratios (an indicator of kynurenine pathway activation) were positively correlated with serum C-reactive protein concentrations in patients with DILD, suggesting the potential association between the generation of these biomarkers and inflammation. Our in vitro experiments demonstrated that macrophage differentiation and inflammatory stimulations typified by interferon gamma could activate the kynurenine pathway, resulting in enhanced kynurenine levels in the extracellular space in macrophage-like cell lines or lung endothelial cells. Extracellular quinolinic acid levels were elevated only in macrophage-like cells but not endothelial cells owing to the lower expression levels of metabolic enzymes converting kynurenine to quinolinic acid. These findings provide clues about the molecular mechanisms behind their specific elevation in the serum of acute DILD patients., Conclusions: The serum concentrations of kynurenine and quinolinic acid as well as kynurenine/tryptophan ratios are promising and specific biomarkers for detecting and monitoring DILD and its recovery, which could facilitate accurate decisions for appropriate clinical management of patients with DILD., (© 2024. The Author(s).)

Published
2024
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38. Serotonin 5-HT 1A and 5-HT 1B receptor-mediated inhibition of glutamatergic transmission onto rat basal forebrain cholinergic neurones.

Author

Nishijo T, Suzuki E, and Momiyama T

Subjects
Animals, Cholinergic Agents pharmacology, Cholinergic Neurons, Glutamic Acid pharmacology, Rats, Receptor, Serotonin, 5-HT1A, Receptor, Serotonin, 5-HT1B, Serotonin Receptor Agonists pharmacology, Synaptic Transmission physiology, Basal Forebrain, Serotonin physiology
Abstract

Cholinergic neurones in the basal forebrain (BF) project into various brain regions and receive excitatory inputs from the cortex and brain stem. These cholinergic neurones receive serotonergic fibres from the dorsal raphe nuclei. This study was aimed to elucidate serotonin (5-HT)-induced modulation of glutamatergic transmission onto rat BF cholinergic neurones identified with Cy3-192IgG. Excitatory postsynaptic currents (EPSCs) were evoked by focal stimulation. Bath application of either 5-HT, the 5-HT 1A receptor agonist 8-OH-DPAT (DPAT), or the 5-HT 1B receptor agonist CP93129 (CP), inhibited the amplitude of EPSCs. In the presence of both 5-HT 1A and 5-HT 1B receptor antagonists, the 5-HT-induced effect disappeared. The paired-pulse ratio (PPR) and coefficient of variation (CV) of the EPSCs were increased by CP, whereas DPAT had no effect on PPR or CV. DPAT inhibited the inward currents induced by puff application of l-glutamate, which were unaffected by CP. DPAT suppressed the amplitude of miniature EPSCs (mEPSCs) without affecting their frequency. CP decreased the frequency of mEPSCs in more than half of the neurones examined, whereas the amplitude was unaffected. DPAT or CP alone inhibited the NMDA receptor-mediated currents. 5-HT-induced inhibition of EPSCs was reduced in the presence of ω-agatoxin TK (Aga). Furthermore, CP-induced inhibition of EPSCs was eliminated in the presence of Aga. DPAT-induced inhibition of EPSCs was unchanged in the presence of Aga. These results suggest that activation of 5-HT 1A receptors reduces the sensitivity of postsynaptic glutamate receptors to glutamate, whereas presynaptic activation of 5-HT 1B receptors inhibits glutamate release by blocking P/Q-type calcium channels. KEY POINTS: We performed a patch-clamp study to investigate serotonin (5-HT)-induced modulation of glutamatergic transmission onto cholinergic neurones in the rat basal forebrain slices. Excitatory postsynaptic currents (EPSCs) were inhibited by 5-HT as well as agonists of 5-HT 1A or 5-HT 1B receptors. 5-HT-induced inhibition was antagonized by co-application of 5-HT 1A and 5-HT 1B receptor antagonists. The effects of 5-HT receptor agonists on the paired-pulse ratio, coefficient of variation of EPSCs, inward currents induced by puff application of l-glutamate as well as miniature EPSCs suggest that activation of 5-HT 1A receptors decreases the sensitivity of postsynaptic glutamate receptors to glutamate, whereas 5-HT 1B receptors presynaptically inhibit glutamate release. The 5-HT 1B agonist-induced inhibition was eliminated in the presence of a P/Q-type calcium channel blocker, whereas the 5-HT 1A agonist still inhibited the EPSCs even in the presence of the blocker. The present study reveals different pre- and postsynaptic mechanisms underlying 5-HT 1A and 5-HT 1B receptor-mediated modulation of excitatory transmission., (© 2022 The Authors. The Journal of Physiology © 2022 The Physiological Society.)

Published
2022
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39. M1 muscarinic acetylcholine receptor-mediated inhibition of GABA release from striatal medium spiny neurons onto cholinergic interneurons.

Author

Suzuki E and Momiyama T

Subjects
Animals, Cholinergic Agents, Interneurons, Mice, Neurons, Synaptic Transmission, gamma-Aminobutyric Acid, Acetylcholine, Receptor, Muscarinic M1
Abstract

Acetylcholine (ACh) modulates neurotransmitter release in the central nervous system. Although GABAergic transmission onto the striatal cholinergic interneurons (ChIN) is modulated by dopamine receptors, cholinergic modulation of the same synapse is still unknown. In the present study, modulatory roles of ACh in the GABAergic transmission from striatal medium spiny neurons (MSNs) onto ChIN were investigated using optogenetics and whole-cell patch-clamp technique in juvenile and young-adult mice brain slices. GABA A receptor-mediated inhibitory postsynaptic currents (IPSCs) were evoked by focal electrical- or blue-light stimulation. Bath application of carbachol, a muscarinic ACh receptor agonist, suppressed the amplitude of IPSCs in a concentration-dependent manner in both age groups. A choline esterase inhibitor, physostigmine, also suppressed the amplitude of IPSCs. In the presence of a membrane permeable M1 muscarine receptor antagonist, pirenzepine, carbachol-induced suppression of IPSCs was antagonized, whereas a M2 muscarine receptor antagonist, a M4 receptor antagonist, or a membrane impermeable M1 receptor antagonist did not antagonize carbachol-induced suppression of IPSCs. Retrograde cannabinoid cascade via cannabinoid receptor 1 was not involved in carbachol-induced inhibition. Furthermore, carbachol did not affect amplitude of inward currents induced by puff application of GABA, whereas coefficient of variation of IPSCs was significantly increased by carbachol. These results suggest that activation of presynaptic M1 muscarine receptors located on the GABAergic terminals including intracellular organelle of MSNs inhibits GABA release onto ChIN., (© 2020 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published
2021
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40. Down syndrome cell adhesion molecule like-1 (DSCAML1) links the GABA system and seizure susceptibility.

Author

Hayase Y, Amano S, Hashizume K, Tominaga T, Miyamoto H, Kanno Y, Ueno-Inoue Y, Inoue T, Yamada M, Ogata S, Balan S, Hayashi K, Miura Y, Tokudome K, Ohno Y, Nishijo T, Momiyama T, Yanagawa Y, Takizawa A, Mashimo T, Serikawa T, Sekine A, Nakagawa E, Takeshita E, Yoshikawa T, Waga C, Inoue K, Goto YI, Nabeshima Y, Ihara N, Yamakawa K, Taya S, and Hoshino M

Subjects
Animals, Electroencephalography, Genetic Predisposition to Disease, Kindling, Neurologic genetics, Mice, Rats, Rats, Mutant Strains, Cell Adhesion Molecules genetics, Entorhinal Cortex pathology, GABAergic Neurons pathology, Seizures genetics
Abstract

The Ihara epileptic rat (IER) is a mutant model with limbic-like seizures whose pathology and causative gene remain elusive. In this report, via linkage analysis, we identified Down syndrome cell adhesion molecule-like 1(Dscaml1) as the responsible gene for IER. A single base mutation in Dscaml1 causes abnormal splicing, leading to lack of DSCAML1. IERs have enhanced seizure susceptibility and accelerated kindling establishment. Furthermore, GABAergic neurons are severely reduced in the entorhinal cortex (ECx) of these animals. Voltage-sensitive dye imaging that directly presents the excitation status of brain slices revealed abnormally persistent excitability in IER ECx. This suggests that reduced GABAergic neurons may cause weak sustained entorhinal cortex activations, leading to natural kindling via the perforant path that could cause dentate gyrus hypertrophy and epileptogenesis. Furthermore, we identified a single nucleotide substitution in a human epilepsy that would result in one amino acid change in DSCAML1 (A2105T mutation). The mutant DSCAML1 A2105T protein is not presented on the cell surface, losing its homophilic cell adhesion ability. We generated knock-in mice (Dscaml1 A2105T ) carrying the corresponding mutation and observed reduced GABAergic neurons in the ECx as well as spike-and-wave electrocorticogram. We conclude that DSCAML1 is required for GABAergic neuron placement in the ECx and suppression of seizure susceptibility in rodents. Our findings suggest that mutations in DSCAML1 may affect seizure susceptibility in humans.

Published
2020
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41. Enhanced Retrieval of Taste Associative Memory by Chemogenetic Activation of Locus Coeruleus Norepinephrine Neurons.

Author

Fukabori R, Iguchi Y, Kato S, Takahashi K, Eifuku S, Tsuji S, Hazama A, Uchigashima M, Watanabe M, Mizuma H, Cui Y, Onoe H, Hikishima K, Yasoshima Y, Osanai M, Inagaki R, Fukunaga K, Nishijo T, Momiyama T, Benton R, and Kobayashi K

Subjects
Animals, Arousal physiology, Drosophila melanogaster, Electrophysiological Phenomena, Humans, Locus Coeruleus cytology, Memory drug effects, Mental Recall physiology, Mice, Mice, Inbred C57BL, Mice, Transgenic, Motor Activity physiology, Phenylacetates pharmacology, Receptors, Adrenergic drug effects, Receptors, Odorant physiology, Sensory Receptor Cells drug effects, Taste drug effects, Taste genetics, Locus Coeruleus drug effects, Memory physiology, Norepinephrine physiology, Receptors, Adrenergic physiology, Sensory Receptor Cells physiology, Taste physiology
Abstract

The ability of animals to retrieve memories stored in response to the environment is essential for behavioral adaptation. Norepinephrine (NE)-containing neurons in the brain play a key role in the modulation of synaptic plasticity underlying various processes of memory formation. However, the role of the central NE system in memory retrieval remains unclear. Here, we developed a novel chemogenetic activation strategy exploiting insect olfactory ionotropic receptors (IRs), termed "IR-mediated neuronal activation," and used it for selective stimulation of NE neurons in the locus coeruleus (LC). Drosophila melanogaster IR84a and IR8a subunits were expressed in LC NE neurons in transgenic mice. Application of phenylacetic acid (a specific ligand for the IR84a/IR8a complex) at appropriate doses induced excitatory responses of NE neurons expressing the receptors in both slice preparations and in vivo electrophysiological conditions, resulting in a marked increase of NE release in the LC nerve terminal regions (male and female). Ligand-induced activation of LC NE neurons enhanced the retrieval process of conditioned taste aversion without affecting taste sensitivity, general arousal state, and locomotor activity. This enhancing effect on taste memory retrieval was mediated, in part, through α 1 - and β-adrenergic receptors in the basolateral nucleus of the amygdala (BLA; male). Pharmacological inhibition of LC NE neurons confirmed the facilitative role of these neurons in memory retrieval via adrenergic receptors in the BLA (male). Our findings indicate that the LC NE system, through projections to the BLA, controls the retrieval process of taste associative memory. SIGNIFICANCE STATEMENT Norepinephrine (NE)-containing neurons in the brain play a key role in the modulation of synaptic plasticity underlying various processes of memory formation, but the role of the NE system in memory retrieval remains unclear. We developed a chemogenetic activation system based on insect olfactory ionotropic receptors and used it for selective stimulation of NE neurons in the locus coeruleus (LC) in transgenic mice. Ligand-induced activation of LC NE neurons enhanced the retrieval of conditioned taste aversion, which was mediated, in part, through adrenoceptors in the basolateral amygdala. Pharmacological blockade of LC activity confirmed the facilitative role of these neurons in memory retrieval. Our findings indicate that the LC-amygdala pathway plays an important role in the recall of taste associative memory., (Copyright © 2020 the authors.)

Published
2020
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42. De novo PHACTR1 mutations in West syndrome and their pathophysiological effects.

Author

Hamada N, Ogaya S, Nakashima M, Nishijo T, Sugawara Y, Iwamoto I, Ito H, Maki Y, Shirai K, Baba S, Maruyama K, Saitsu H, Kato M, Matsumoto N, Momiyama T, and Nagata KI

Subjects
Animals, COS Cells, Cell Movement genetics, Cells, Cultured, Chlorocebus aethiops, Embryo, Mammalian, Excitatory Amino Acid Agonists pharmacology, Female, Humans, Infant, Male, Membrane Potentials drug effects, Membrane Potentials genetics, Mice, Mice, Inbred ICR, Mice, Transgenic, N-Methylaspartate pharmacology, Neuronal Plasticity genetics, Neurons cytology, Neurons drug effects, Neurons physiology, Urea administration & dosage, Urea analogs & derivatives, Family Health, Microfilament Proteins genetics, Mutation genetics, Spasms, Infantile genetics, Spasms, Infantile physiopathology
Abstract

Trio-based whole exome sequencing identified two de novo heterozygous missense mutations [c.1449T > C/p.(Leu500Pro) and c.1436A > T/p.(Asn479Ile)] in PHACTR1, encoding a molecule critical for the regulation of protein phosphatase 1 (PP1) and the actin cytoskeleton, in unrelated Japanese individuals with West syndrome (infantile spasms with intellectual disability). We then examined the role of Phactr1 in the development of mouse cerebral cortex and the pathophysiological significance of these two mutations and others [c.1561C > T/p.(Arg521Cys) and c.1553T > A/p.(Ile518Asn)], which had been reported in undiagnosed patients with intellectual disability. Immunoprecipitation analyses revealed that actin-binding activity of PHACTR1 was impaired by the p.Leu500Pro, p.Asn479Ile and p.Ile518Asn mutations while the p.Arg521Cys mutation exhibited impaired binding to PP1. Acute knockdown of mouse Phactr1 using in utero electroporation caused defects in cortical neuron migration during corticogenesis, which were rescued by an RNAi-resistant PHACTR1 but not by the four mutants. Experiments using knockdown combined with expression mutants, aimed to mimic the effects of the heterozygous mutations under conditions of haploinsufficiency, suggested a dominant negative effect of the mutant allele. As for dendritic development in vivo, only the p.Arg521Cys mutant was determined to have dominant negative effects, because the three other mutants appeared to be degraded with these experimental conditions. Electrophysiological analyses revealed abnormal synaptic properties in Phactr1-deficient excitatory cortical neurons. Our data show that the PHACTR1 mutations may cause morphological and functional defects in cortical neurons during brain development, which is likely to be related to the pathophysiology of West syndrome and other neurodevelopmental disorders.

Published
2018
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43. Grafted Miniature-Swine Neural Stem Cells of Early Embryonic Mesencephalic Neuroepithelial Origin can Repair the Damaged Neural Circuitry of Parkinson's Disease Model Rats.

Author

Mine Y, Momiyama T, Hayashi T, and Kawase T

Subjects
Animals, Female, Male, Parkinsonian Disorders therapy, Pregnancy, Rats, Rats, Sprague-Dawley, Rats, Transgenic, Rats, Wistar, Swine, Swine, Miniature, Transplantation, Heterologous methods, Fetal Tissue Transplantation methods, Mesencephalon transplantation, Nerve Net pathology, Neural Stem Cells transplantation, Neuroepithelial Cells transplantation, Parkinsonian Disorders pathology
Abstract

Although recent progress in the use of human iPS cell-derived midbrain dopaminergic progenitors is remarkable, alternatives are essential in the strategies of treatment of basal-ganglia-related diseases. Attention has been focused on neural stem cells (NSCs) as one of the possible candidates of donor material for neural transplantation, because of their multipotency and self-renewal characteristics. In the present study, miniature-swine (mini-swine) mesencephalic neuroepithelial stem cells (M-NESCs) of embryonic 17 and 18 days grafted in the parkinsonian rat striatum were assessed immunohistochemically, behaviorally and electrophysiologically to confirm their feasibility for the neural xenografting as a donor material. Grafted mini-swine M-NESCs survived in parkinsonian rat striatum at 8 weeks after transplantation and many of them differentiated into tyrosine hydroxylase (TH)-positive cells. The parkinsonian model rats grafted with mini-swine M-NESCs exhibited a functional recovery from their parkinsonian behavioral defects. The majority of donor-derived TH-positive cells exhibited a matured morphology at 8 weeks. Whole-cell recordings from donor-derived neurons in the host rat brain slices incorporating the graft revealed the presence of multiple types of neurons including dopaminergic. Glutamatergic and GABAergic post-synaptic currents were evoked in the donor-derived cells by stimulation of the host site, suggesting they receive both excitatory and inhibitory synaptic inputs from host area. The present study shows that non-rodent mammalian M-NESCs can differentiate into functionally active neurons in the diseased xenogeneic environment and could improve the parkinsonian behavioral defects over the species. Neuroepithelial stem cells could be an attractive candidate as a source of donor material for neural transplantation., (Copyright © 2018 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published
2018
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44. Dopamine and Serotonin-Induced Modulation of GABAergic and Glutamatergic Transmission in the Striatum and Basal Forebrain.

Author

Momiyama T and Nishijo T

Abstract

Catecholamine receptor-mediated modulation of glutamatergic or GABAergic transmission in the striatum as well as basal forebrain (BF) has been intensively studied during these two decades. In the striatum, activation of dopamine (DA) D2 receptors in GABAergic terminals inhibits GABA release onto cholinergic interneurons by selective blockade of N-type calcium channels. In the BF, glutamatergic transmission onto cholinergic projection neurons is inhibited via DA D1-like receptors by selective blockade of P/Q-type calcium channels. On the other hand, presynaptic inhibition of the GABA release onto cholinergic neurons mediated by D1-like receptors or 5-HT 1B receptors is independent of calcium influx. In addition, the DA receptor-mediated calcium influx dependent presynaptic inhibition mentioned above decreases with postnatal development, with selective coupling between DA receptors and each subtype of calcium channels being unchanged. Furthermore, the precise origin of these GABAergic or glutamatergic inputs to postsynaptic neurons can be identified by recent optogenetic approaches. Thus, modulatory mechanisms in specific synaptic connections between certain types of neurons in the striatum and BF are being identified.

Published
2017
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45. Neuronal circuits and physiological roles of the basal ganglia in terms of transmitters, receptors and related disorders.

Author

Yamada K, Takahashi S, Karube F, Fujiyama F, Kobayashi K, Nishi A, and Momiyama T

Subjects
Animals, Humans, Basal Ganglia cytology, Basal Ganglia physiology, Basal Ganglia Diseases metabolism, Neurons physiology, Neurotransmitter Agents physiology, Receptors, Neurotransmitter physiology
Abstract

The authors have reviewed recent research advances in basal ganglia circuitry and function, as well as in related disorders from multidisciplinary perspectives derived from the results of morphological, electrophysiological, behavioral, biochemical and molecular biological studies. Based on their expertise in their respective fields, as denoted in the text, the authors discuss five distinct research topics, as follows: (1) area-specific dopamine receptor expression of astrocytes in basal ganglia, (2) the role of physiologically released dopamine in the striatum, (3) control of behavioral flexibility by striatal cholinergic interneurons, (4) regulation of phosphorylation states of DARPP-32 by protein phosphatases and (5) physiological perspective on deep brain stimulation with optogenetics and closed-loop control for ameliorating parkinsonism., Competing Interests: The authors declare that they have no conflict of interest.

Published
2016
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46. Essential role of the nuclear isoform of RBFOX1, a candidate gene for autism spectrum disorders, in the brain development.

Author

Hamada N, Ito H, Nishijo T, Iwamoto I, Morishita R, Tabata H, Momiyama T, and Nagata K

Subjects
Animals, Autism Spectrum Disorder genetics, Autism Spectrum Disorder metabolism, Axons physiology, Brain abnormalities, Brain metabolism, Cell Movement, Cell Nucleus genetics, Cells, Cultured, Gene Knockout Techniques, Humans, Mice, Neurogenesis, Neuronal Plasticity, Neurons cytology, Neurons metabolism, Protein Isoforms metabolism, Brain growth & development, Cell Nucleus metabolism, RNA Splicing Factors genetics, RNA Splicing Factors metabolism
Abstract

Gene abnormalities in RBFOX1, encoding an mRNA-splicing factor, have been shown to cause autism spectrum disorder and other neurodevelopmental disorders. Since pathophysiological significance of the dominant nuclear isoform in neurons, RBFOX1-isoform1 (iso1), remains to be elucidated, we performed comprehensive analyses of Rbfox1-iso1 during mouse corticogenesis. Knockdown of Rbfox1-iso1 by in utero electroporation caused abnormal neuronal positioning during corticogenesis, which was attributed to impaired migration. The defects were found to occur during radial migration and terminal translocation, perhaps due to impaired nucleokinesis. Axon extension and dendritic arborization were also suppressed in vivo in Rbfox1-iso1-deficient cortical neurons. In addition, electrophysiology experiments revealed significant defects in the membrane and synaptic properties of the deficient neurons. Aberrant morphology was further confirmed by in vitro analyses; Rbfox1-iso1-konckdown in hippocampal neurons resulted in the reduction of primary axon length, total length of dendrites, spine density and mature spine number. Taken together, this study shows that Rbfox1-iso1 plays an important role in neuronal migration and synapse network formation during corticogenesis. Defects in these critical processes may induce structural and functional defects in cortical neurons, and consequently contribute to the pathophysiology of neurodevelopmental disorders with RBFOX1 abnormalities.

Published
2016
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47. Serotonin 5-HT1B receptor-mediated calcium influx-independent presynaptic inhibition of GABA release onto rat basal forebrain cholinergic neurons.

Author

Nishijo T and Momiyama T

Subjects
Action Potentials, Animals, Calcium metabolism, Calcium Channel Blockers pharmacology, Cholinergic Neurons physiology, Potassium Channel Blockers pharmacology, Presynaptic Terminals physiology, Prosencephalon cytology, Prosencephalon metabolism, Rats, Serotonin 5-HT1 Receptor Agonists pharmacology, Serotonin 5-HT1 Receptor Antagonists pharmacology, Cholinergic Neurons metabolism, Exocytosis, Inhibitory Postsynaptic Potentials, Presynaptic Terminals metabolism, Prosencephalon physiology, Receptor, Serotonin, 5-HT1B metabolism, gamma-Aminobutyric Acid metabolism
Abstract

Modulatory roles of serotonin (5-HT) in GABAergic transmission onto basal forebrain cholinergic neurons were investigated, using whole-cell patch-clamp technique in the rat brain slices. GABAA receptor-mediated inhibitory postsynaptic currents (IPSCs) were evoked by focal stimulation. Bath application of 5-HT (0.1-300 μm) reversibly suppressed the amplitude of evoked IPSCs in a concentration-dependent manner. Application of a 5-HT1B receptor agonist, CP93129, also suppressed the evoked IPSCs, whereas a 5-HT1A receptor agonist, 8-OH-DPAT had little effect on the evoked IPSCs amplitude. In the presence of NAS-181, a 5-HT1B receptor antagonist, 5-HT-induced suppression of evoked IPSCs was antagonised, whereas NAN-190, a 5-HT1A receptor antagonist did not antagonise the 5-HT-induced suppression of evoked IPSCs. Bath application of 5-HT reduced the frequency of spontaneous miniature IPSCs without changing their amplitude distribution. The effect of 5-HT on miniature IPSCs remained unchanged when extracellular Ca(2+) was replaced by Mg(2+) . The paired-pulse ratio was increased by CP93129. In the presence of ω-CgTX, the N-type Ca(2+) channel blocker, ω-Aga-TK, the P/Q-type Ca(2+) channel blocker, or SNX-482, the R-type Ca(2+) channel blocker, 5-HT could still inhibit the evoked IPSCs. 4-AP, a K(+) channel blocker, enhanced the evoked IPSCs, and CP93129 had no longer inhibitory effect in the presence of 4-AP. CP93129 increased the number of action potentials elicited by depolarising current pulses. These results suggest that activation of presynaptic 5-HT1B receptors on the terminals of GABAergic afferents to basal forebrain cholinergic neurons inhibits GABA release in Ca(2+) influx-independent manner by modulation of K(+) channels, leading to enhancement of neuronal activities., (© 2016 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published
2016
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48. Distinct motor impairments of dopamine D1 and D2 receptor knockout mice revealed by three types of motor behavior.

Author

Nakamura T, Sato A, Kitsukawa T, Momiyama T, Yamamori T, and Sasaoka T

Abstract

Both D1R and D2R knock out (KO) mice of the major dopamine receptors show significant motor impairments. However, there are some discrepant reports, which may be due to the differences in genetic background and experimental procedures. In addition, only few studies directly compared the motor performance of D1R and D2R KO mice. In this paper, we examined the behavioral difference among N10 congenic D1R and D2R KO, and wild type (WT) mice. First, we examined spontaneous motor activity in the home cage environment for consecutive 5 days. Second, we examined motor performance using the rota-rod task, a standard motor task in rodents. Third, we examined motor ability with the Step-Wheel task in which mice were trained to run in a motor-driven turning wheel adjusting their steps on foothold pegs to drink water. The results showed clear differences among the mice of three genotypes in three different types of behavior. In monitoring spontaneous motor activities, D1R and D2R KO mice showed higher and lower 24 h activities, respectively, than WT mice. In the rota-rod tasks, at a low speed, D1R KO mice showed poor performance but later improved, whereas D2R KO mice showed a good performance at early days without further improvement. When first subjected to a high speed task, the D2R KO mice showed poorer rota-rod performance at a low speed than the D1R KO mice. In the Step-Wheel task, across daily sessions, D2R KO mice increased the duration that mice run sufficiently close to the spout to drink water, and decreased time to touch the floor due to missing the peg steps and number of times the wheel was stopped, which performance was much better than that of D1R KO mice. These incongruent results between the two tasks for D1R and D2R KO mice may be due to the differences in the motivation for the rota-rod and Step-Wheel tasks, aversion- and reward-driven, respectively. The Step-Wheel system may become a useful tool for assessing the motor ability of WT and mutant mice.

Published
2014
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49. NCI-H295R, a human adrenal cortex-derived cell line, expresses purinergic receptors linked to Ca²⁺-mobilization/influx and cortisol secretion.

Author

Nishi H, Arai H, and Momiyama T

Subjects
Adenosine Triphosphate metabolism, Angiotensin II metabolism, Bucladesine metabolism, Calcium metabolism, Cell Line, Gene Expression, Glucocorticoids metabolism, Humans, Purinergic Agonists pharmacology, RNA Interference, RNA, Messenger genetics, Receptors, Purinergic genetics, Receptors, Purinergic metabolism, Receptors, Purinergic P2Y1 metabolism, Adrenal Cortex cytology, Calcium Signaling drug effects, Hydrocortisone metabolism, Receptors, Purinergic P2Y1 genetics
Abstract

Purinergic receptor expression and involvement in steroidogenesis were examined in NCI-H295R (H295R), a human adrenal cortex cell line which expresses all the key enzymes necessary for steroidogenesis. mRNA/protein for multiple P1 (A(2A) and A(2B)), P2X (P2X₅ and P2X₇), and P2Y (P2Y₁, P2Y₂, P2Y₆, P2Y₁₂, P2Y₁₃, and P2Y₁₄) purinergic receptors were detected in H295R. 2MeS-ATP (10-1000 µM), a P2Y₁ agonist, induced glucocorticoid (GC) secretion in a dose-dependent manner, while other extracellular purine/pyrimidine agonists (1-1000 µM) had no distinct effect on GC secretion. Extracellular purines, even non-steroidogenic ones, induced Ca²⁺-mobilization in the cells, independently of the extracellular Ca²⁺ concentration. Increases in intracellular Ca²⁺ concentration induced by extracellular purine agonists were transient, except when induced by ATP or 2MeS-ATP. Angiotensin II (AngII: 100 nM) and dibutyryl-cyclic AMP (db-cAMP: 500 µM) induced both GC secretion and Ca²⁺-mobilization in the presence of extracellular Ca²⁺ (1.2 mM). GC secretion by AngII was reduced by nifedipine (10-100 µM); whereas the Ca²⁺ channel blocker did not inhibit GC secretion by 2MeS-ATP. Thapsigargin followed by extracellular Ca²⁺ exposure induced Ca²⁺-influx in H295R, and the cells expressed mRNA/protein of the component molecules for store-operated calcium entry (SOCE): transient receptor C (TRPC) channels, calcium release-activated calcium channel protein 1 (Orai-1), and the stromal interaction molecule 1 (STIM1). In P2Y₁-knockdown, 2MeS-ATP-induced GC secretion was significantly inhibited. These results suggest that H295R expresses a functional P2Y₁ purinergic receptor for intracellular Ca²⁺-mobilization, and that P2Y₁ is linked to SOCE-activation, leading to Ca²⁺-influx which might be necessary for glucocorticoid secretion.

Published
2013
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50. Novel contribution of cell surface and intracellular M1-muscarinic acetylcholine receptors to synaptic plasticity in hippocampus.

Author

Anisuzzaman AS, Uwada J, Masuoka T, Yoshiki H, Nishio M, Ikegaya Y, Takahashi N, Matsuki N, Fujibayashi Y, Yonekura Y, Momiyama T, and Muramatsu I

Subjects
Aged, Aged, 80 and over, Animals, Blotting, Western, Cell Membrane chemistry, Cell Membrane metabolism, Cytoplasm chemistry, Cytoplasm metabolism, Female, Humans, Immunohistochemistry, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Middle Aged, Neurons metabolism, Patch-Clamp Techniques, Rats, Rats, Wistar, Synapses metabolism, Synaptic Transmission physiology, Hippocampus metabolism, Neuronal Plasticity physiology, Receptor, Muscarinic M1 metabolism
Abstract

Muscarinic acetylcholine receptors (mAChRs) are well known to transmit extracellular cholinergic signals into the cytoplasm from their position on the cell surface. However, we show here that M1-mAChRs are also highly expressed on intracellular membranes in neurons of the telencephalon and activate signaling cascades distinct from those of cell surface receptors, contributing uniquely to synaptic plasticity. Radioligand-binding experiments with cell-permeable and -impermeable ligands and immunohistochemical observations revealed intracellular and surface distributions of M1-mAChRs in the hippocampus and cortex of rats, mice, and humans, in contrast to the selective occurrence on the cell surface in other tissues. All intracellular muscarinic-binding sites were abolished in M1-mAChR-gene-knockout mice. Activation of cell surface M1-mAChRs in rat hippocampal neurons evoked phosphatidylinositol hydrolysis and network oscillations at theta rhythm, and transiently enhanced long-term potentiation. On the other hand, activation of intracellular M1-mAChRs phosphorylated extracellular-regulated kinase 1/2 and gradually enhanced long-term potentiation. Our data thus demonstrate that M1-mAChRs function at both surface and intracellular sites in telencephalon neurons including the hippocampus, suggesting a new mode of cholinergic transmission in the central nervous system., (© 2013 International Society for Neurochemistry.)

Published
2013
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