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1. Nicotine-mediated activation of α2 nAChR-expressing OLM cells in developing mouse brains disrupts OLM cell-mediated control of LTP in adolescence.

Author

Su, Hailing, Nakauchi, Sakura, and Sumikawa, Katumi

Subjects
Chemogenetics, LTP, Nicotine, OLM cells, Optogenetics, α2 nicotinic acetylcholine receptor, Animals, Female, Hippocampus, Long-Term Potentiation, Mice, Mice, Inbred C57BL, Mice, Knockout, Nicotine, Nicotinic Agonists, Pregnancy, Receptors, Nicotinic
Abstract

Early postnatal nicotine exposure, a rodent model of smoking during pregnancy, affects hippocampal synaptic plasticity and memory. Here, we investigated the role of α2 nAChR-expressing OLM (α2-OLM) cells in LTP in unexposed and postnatal nicotine-exposed mice. We found that reduced α2 nAChR-dependent activation of OLM cells in α2 heterozygous knockout mice prevented LTP, whereas enhanced α2 nAChR-dependent activation of OLM cells in heterozygous knockin mice expressing hypersensitive α2 nAChRs facilitated LTP. Both optogenetic and chemogenetic activation of α2-OLM cells facilitated LTP as nicotine did. However, in postnatal nicotine-exposed mice, expressing chemogenetic hM3Dq receptors in α2-OLM cells, LTP was facilitated and both nicotinic and chemogenetic activation of α2-OLM cells prevented rather than facilitated LTP. These results demonstrate a critical role of α2-OLM cell activation in LTP as well as altered α2-OLM cell function in postnatal nicotine-exposed mice. To determine whether nicotine-mediated α2 nAChR activation in developing brains causes facilitated LTP and altered nicotinic modulation of LTP in adolescence, we used homozygous knockin mice expressing hypersensitive α2 nAChRs as a way to selectively activate α2-OLM cells. In the knockin mice, postnatal exposure to a low dose of nicotine, which had no effect on LTP in wild-type mice, is sufficient to cause facilitated LTP and altered nicotinic modulation of LTP as found in wild-type mice exposed to a higher dose of nicotine. Thus, the nicotine-mediated activation of α2 nAChRs on OLM cells in developing brains disrupts the α2-OLM cell-mediated control of LTP in adolescence that might be linked to impaired memory.

Published
2022

3. Long-term effects of early postnatal nicotine exposure on cholinergic function in the mouse hippocampal CA1 region

Author

Nakauchi, Sakura, Su, Hailing, Trang, Ivan, and Sumikawa, Katumi

Subjects
Biological Psychology, Psychology, Tobacco Smoke and Health, Tobacco, Mental Health, Pediatric, Prevention, Neurosciences, Brain Disorders, Good Health and Well Being, Animals, Animals, Newborn, CA1 Region, Hippocampal, Cigarette Smoking, Excitatory Postsynaptic Potentials, Female, Lactation, Long-Term Synaptic Depression, Male, Maternal Exposure, Memory, Mice, Mice, Knockout, Nicotine, Nicotinic Agonists, Receptor, Muscarinic M1, Receptors, Metabotropic Glutamate, Receptors, Muscarinic, Receptors, N-Methyl-D-Aspartate, Receptors, Nicotinic, Nicotinic acetylcholine receptor, Muscarinic acetylcholine receptor, LTD, Development, Hippocampus, Medical and Health Sciences, Psychology and Cognitive Sciences, Behavioral Science & Comparative Psychology, Biological psychology, Cognitive and computational psychology
Abstract

In rodent models of smoking during pregnancy, early postnatal nicotine exposure results in impaired hippocampus-dependent memory, but the underlying mechanism remains elusive. Given that hippocampal cholinergic systems modulate memory and rapid development of hippocampal cholinergic systems occurs during nicotine exposure, here we investigated its impacts on cholinergic function. Both nicotinic and muscarinic activation produce transient or long-lasting depression of excitatory synaptic transmission in the hippocampal CA1 region. We found that postnatal nicotine exposure impairs both the induction and nicotinic modulation of NMDAR-dependent long-term depression (LTD). Activation of muscarinic receptors decreases excitatory synaptic transmission and CA1 network activity in both wild-type and α2 knockout mice. These muscarinic effects are still observed in nicotine-exposed mice. M1 muscarinic receptor activity is required for mGluR-dependent LTD. Early postnatal nicotine exposure has no effect on mGluR-dependent LTD induction, suggesting that it has no effect on the function of m1 muscarinic receptors involved in this form of LTD. Our results demonstrate that early postnatal nicotine exposure has more pronounced effects on nicotinic function than muscarinic function in the hippocampal CA1 region. Thus, impaired hippocampus-dependent memory may arise from the developmental disruption of nicotinic cholinergic systems in the hippocampal CA1 region.

Published
2021

4. Impaired function of α2-containing nicotinic acetylcholine receptors on oriens-lacunosum moleculare cells causes hippocampus-dependent memory impairments.

Author

Kleeman, Elise, Nakauchi, Sakura, Su, Hailing, Dang, Richard, Wood, Marcelo A, and Sumikawa, Katumi

Subjects
Interneurons, Animals, Mice, Inbred C57BL, Animals, Newborn, Mice, Knockout, Memory Disorders, Prenatal Exposure Delayed Effects, Disease Models, Animal, Nicotine, Receptors, Nicotinic, Nicotinic Agonists, Behavior, Animal, Pregnancy, Long-Term Potentiation, Female, CA1 Region, Hippocampal, Spatial Memory, Recognition, Psychology, Long-term potentiation, Nicotine exposure, Object location memory, Object recognition memory, Schaffer collateral pathway, Neurosciences, Basic Behavioral and Social Science, Pediatric, Tobacco Smoke and Health, Behavioral and Social Science, Tobacco, 2.1 Biological and endogenous factors, Aetiology, Mental health, Good Health and Well Being, Medical and Health Sciences, Psychology and Cognitive Sciences, Behavioral Science & Comparative Psychology
Abstract

Children of mothers who smoked during pregnancy are at significantly greater risk for cognitive impairments including memory deficits, but the mechanisms underlying this effect remain to be understood. In rodent models of smoking during pregnancy, early postnatal nicotine exposure results in impaired long-term hippocampus-dependent memory, functional loss of α2-containing nicotinic acetylcholine receptors (α2∗ nAChRs) in oriens-lacunosum moleculare (OLM) cells, increased CA1 network excitation, and unexpected facilitation of long-term potentiation (LTP) at Schaffer collateral-CA1 synapses. Here we demonstrate that α2 knockout mice show the same pattern of memory impairment as previously observed in wild-type mice exposed to early postnatal nicotine. However, α2 knockout mice and α2 knockout mice exposed to early postnatal nicotine did not share all of the anomalies in hippocampal function observed in wild-type mice treated with nicotine during development. Unlike nicotine-treated wild-type mice, α2 knockout mice and nicotine-exposed α2 knockout mice did not demonstrate increased CA1 network excitation following Schaffer collateral stimulation and facilitated LTP, indicating that the effects are likely adaptive changes caused by activation of α2∗ nAChRs during nicotine exposure and are unlikely related to the associated memory impairment. Thus, the functional loss of α2∗ nAChRs in OLM cells likely plays a critical role in mediating this developmental-nicotine-induced hippocampal memory deficit.

Published
2016

5. Early postnatal nicotine exposure disrupts the α2* nicotinic acetylcholine receptor-mediated control of oriens-lacunosum moleculare cells during adolescence in rats

Author

Chen, Kang, Nakauchi, Sakura, Su, Hailing, Tanimoto, Saki, and Sumikawa, Katumi

Subjects
Biological Psychology, Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Psychology, Tobacco Smoke and Health, Tobacco, Prevention, Drug Abuse (NIDA only), Neurosciences, Substance Misuse, Pediatric, Aetiology, 2.1 Biological and endogenous factors, Neurological, Good Health and Well Being, Age Factors, Animals, Animals, Newborn, Bicuculline, Excitatory Amino Acid Antagonists, Female, GABA-A Receptor Antagonists, Gene Expression Regulation, Developmental, Hippocampus, In Vitro Techniques, Interneurons, Long-Term Potentiation, Male, Nicotine, Nicotinic Agonists, Nicotinic Antagonists, Patch-Clamp Techniques, Pregnancy, Prenatal Exposure Delayed Effects, Quinoxalines, Rats, Rats, Sprague-Dawley, Valine, alpha 2 nicotinic acetylcholine receptor, OLM cells, LTP, Development, α2 nicotinic acetylcholine receptor, Neurology & Neurosurgery, Pharmacology and pharmaceutical sciences, Biological psychology
Abstract

Maternal cigarette smoking during pregnancy and maternal nicotine exposure in animal models are associated with cognitive impairments in offspring. However, the underlying mechanism remains unknown. Oriens-lacunosum moleculare (OLM) cells expressing α2* nicotinic acetylcholine receptors (nAChRs) are an important component of hippocampal circuitry, gating information flow and long-term potentiation (LTP) in the CA1 region. Here we investigated whether early postnatal nicotine exposure alters the normal role of α2*-nAChR-expressing OLM cells during adolescence in rats. We found that early postnatal nicotine exposure significantly decreased not only the number of α2-mRNA-expressing interneurons in the stratum oriens/alveus, but also α2*-nAChR-mediated responses in OLM cells. These effects of nicotine were prevented by co-administration with the nonselective nAChR antagonist mecamylamine, suggesting that nicotine-induced activation, but not desensitization, of nAChRs mediates the effects. α2*-nAChR-mediated depolarization of OLM cells normally triggers action potentials, causing an increase in spontaneous inhibitory postsynaptic currents in synaptically connected pyramidal cells. However, these α2*-nAChR-mediated effects were profoundly reduced after early postnatal nicotine exposure, suggesting altered control of CA1 circuits by α2*-nAChR-expressing OLM cells. Furthermore, these effects were associated with altered excitatory neural activity and LTP as well as the loss of normal α2*-nAChR-mediated control of excitatory neural activity and LTP. These findings suggest the altered function of α2*-nAChR-expressing OLM cells as an important target of further study for identifying the mechanisms underlying the cognitive impairment induced by maternal smoking during pregnancy.

Published
2016

6. Early postnatal nicotine exposure causes hippocampus-dependent memory impairments in adolescent mice: Association with altered nicotinic cholinergic modulation of LTP, but not impaired LTP.

Author

Nakauchi, Sakura, Malvaez, Melissa, Su, Hailing, Kleeman, Elise, Dang, Richard, Wood, Marcelo A, and Sumikawa, Katumi

Subjects
Hippocampus, Neurons, Animals, Mice, Inbred C57BL, Mice, Memory Disorders, Nicotine, Nicotinic Agonists, Nicotinic Antagonists, Anxiety, Recognition (Psychology), Age Factors, Long-Term Potentiation, Female, Male, Spatial Memory, CA1 region, Object location memory, Object recognition memory, Schaffer collateral pathway, Temporoammonic pathway, Recognition, Psychology, Inbred C57BL, Recognition, Psychology, Tobacco Smoke and Health, Behavioral and Social Science, Neurosciences, Basic Behavioral and Social Science, Pediatric, Tobacco, 2.1 Biological and endogenous factors, Behavioral Science & Comparative Psychology, Medical and Health Sciences, Psychology and Cognitive Sciences
Abstract

Fetal nicotine exposure from smoking during pregnancy causes long-lasting cognitive impairments in offspring, yet little is known about the mechanisms that underlie this effect. Here we demonstrate that early postnatal exposure of mouse pups to nicotine via maternal milk impairs long-term, but not short-term, hippocampus-dependent memory during adolescence. At the Schaffer collateral (SC) pathway, the most widely studied synapses for a cellular correlate of hippocampus-dependent memory, the induction of N-methyl-D-aspartate receptor-dependent transient long-term potentiation (LTP) and protein synthesis-dependent long-lasting LTP are not diminished by nicotine exposure, but rather unexpectedly the threshold for LTP induction becomes lower after nicotine treatment. Using voltage sensitive dye to visualize hippocampal activity, we found that early postnatal nicotine exposure also results in enhanced CA1 depolarization and hyperpolarization after SC stimulation. Furthermore, we show that postnatal nicotine exposure induces pervasive changes to the nicotinic modulation of CA1 activity: activation of nicotinic receptors no longer increases CA1 network depolarization, acute nicotine inhibits rather than facilitates the induction of LTP at the SC pathway by recruiting an additional nicotinic receptor subtype, and acute nicotine no longer blocks LTP induction at the temporoammonic pathway. These findings reflect the pervasive impact of nicotine exposure during hippocampal development, and demonstrate an association of hippocampal memory impairments with altered nicotinic cholinergic modulation of LTP, but not impaired LTP. The implication of our results is that nicotinic cholinergic-dependent plasticity is required for long-term memory formation and that postnatal nicotine exposure disrupts this form of plasticity.

Published
2015

7. Endogenous ACh suppresses LTD induction and nicotine relieves the suppression via different nicotinic ACh receptor subtypes in the mouse hippocampus

Author

Nakauchi, Sakura and Sumikawa, Katumi

Subjects
Brain Disorders, Acquired Cognitive Impairment, Alzheimer's Disease, Neurodegenerative, Substance Misuse, Dementia, Tobacco Smoke and Health, Aging, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Tobacco, 2.1 Biological and endogenous factors, Aetiology, Neurological, Good Health and Well Being, Acetylcholine, Animals, Hippocampus, Long-Term Potentiation, Mecamylamine, Mice, Mice, Inbred C57BL, Mice, Knockout, Nicotine, Nicotinic Antagonists, Receptors, Nicotinic, alpha7 Nicotinic Acetylcholine Receptor, Nicotinic acetylcholine receptors, Knockout mice, Long-term depression, Biochemistry and Cell Biology, Pharmacology and Pharmaceutical Sciences, Pharmacology & Pharmacy
Abstract

AimsStudying the normal role of nicotinic cholinergic systems in hippocampal synaptic plasticity is critical for understanding how cholinergic loss in Alzheimer's disease (AD) and tobacco use affect cognitive function. However, it is largely unknown how nicotinic cholinergic systems regulate the induction of long-term depression (LTD).Main methodsExtracellular field potential recordings were performed in hippocampal slices prepared from wild-type, α2, α7, and β2 knockout (KO) mice. Effects of nicotine and nicotinic antagonists on LTD induction in wild-type, α2, α7, and β2 KO mice were compared.Key findingsActivation of α7 nicotinic acetylcholine receptors (nAChRs) occurs during LTD-inducing stimulation to suppress LTD induction at CA3-CA1 synapses. Nicotine relieves this suppression, causing larger LTD. This nicotine effect was mediated by the activation of non-α7 nAChR subtypes, which were not activated by ACh released during LTD-inducing stimulation, and requires the presence of endogenous ACh-induced α7 nAChR activation. Furthermore, the effect of nicotine was prevented in the presence of mecamylamine, but not dihydro-β-erythroidine, and was still observed in both α2 KO and β2 KO mice.SignificanceThis is the first report to evaluate the involvement of different nAChR subtypes in LTD induction. Findings indicate the involvement of unique non-α7 nAChR subtypes, which have not been considered in the nicotinic modulation of hippocampal long-term potentiation, in the control of LTD induction. The implication of our results is that the loss of cholinergic projections to the hippocampus, which reduces ACh release as seen in AD patients, and nicotine from tobacco smoking can differentially affect LTD induction.

Published
2014

8. a2* Nicotinic Acetylcholine Receptors Influence Hippocampus-Dependent Learning and Memory in Adolescent Mice

Author

Lotfipour, Shahrdad, Mojica, Celina, Nakauchi, Sakura, Lipovsek, Marcela, Silverstein, Sarah, Cushman, Jesse, Tirtorahardjo, James, Poulos, Andrew, Elgoyhen, Ana Belén, Sumikawa, Katumi, Fanselow, Michael S., and Boulter, Jim

Abstract

The absence of a2* nicotinic acetylcholine receptors (nAChRs) in oriens lacunosum moleculare (OLM) GABAergic interneurons ablate the facilitation of nicotine-induced hippocampal CA1 long-term potentiation and impair memory. The current study delineated whether genetic mutations of a2* nAChRs ("Chrna2"[superscript L9'S/L9'S] and "Chrna2"[superscript KO]) influence hippocampus-dependent learning and memory and CA1 synaptic plasticity. We substituted a serine for a leucine (L9'S) in the a2 subunit (encoded by the "Chrna2" gene) to make a hypersensitive nAChR. Using a dorsal hippocampus-dependent task of preexposure-dependent contextual fear conditioning, adolescent hypersensitive "Chrna2" [superscript L9'S/L9'S] male mice exhibited impaired learning and memory. The deficit was rescued by low-dose nicotine exposure. Electrophysiological studies demonstrated that hypersensitive a2 nAChRs potentiate acetylcholine-induced ion channel flux in oocytes and acute nicotine-induced facilitation of dorsal/intermediate CA1 hippocampal long-term potentiation in "Chrna2"[superscript L9'S/L9'S] mice. Adolescent male mice null for the a2 nAChR subunit exhibited a baseline deficit in learning that was not reversed by an acute dose of nicotine. These effects were not influenced by locomotor, sensory or anxiety-related measures. Our results demonstrated that a2* nAChRs influenced hippocampus-dependent learning and memory, as well as nicotine-facilitated CA1 hippocampal synaptic plasticity.

Published
2017
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9. Rescue of Hereditary Form of Dilated Cardiomyopathy by rAAV-Mediated Somatic Gene Therapy: Amelioration of Morphological Findings, Sarcolemmal Permeability, Cardiac Performances, and the Prognosis of TO-2 Hamsters

Author

Kawada, Tomie, Nakazawa, Mikio, Nakauchi, Sakura, Yamazaki, Ken, Shimamoto, Ryoichi, Urabe, Masashi, Nakata, Jumi, Hemmi, Chieko, Masui, Fujiko, Nakajima, Toshiaki, Suzuki, Jun-Ichi, Monahan, John, Sato, Hiroshi, Masaki, Tomoh, Ozawa, Keiya, and Toyo-oka, Teruhiko

Published
2002

19. α2* Nicotinic acetylcholine receptors influence hippocampus-dependent learning and memory in adolescent mice

Author

Lotfipour, Shahrdad, primary, Mojica, Celina, additional, Nakauchi, Sakura, additional, Lipovsek, Marcela, additional, Silverstein, Sarah, additional, Cushman, Jesse, additional, Tirtorahardjo, James, additional, Poulos, Andrew, additional, Elgoyhen, Ana Belén, additional, Sumikawa, Katumi, additional, Fanselow, Michael S., additional, and Boulter, Jim, additional

Published
2017
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21. Phosphoproteomics of the Dopamine Pathway Enables Discovery of Rap1 Activation as a Reward Signal In Vivo

Author

Nagai, Taku, primary, Nakamuta, Shinichi, additional, Kuroda, Keisuke, additional, Nakauchi, Sakura, additional, Nishioka, Tomoki, additional, Takano, Tetsuya, additional, Zhang, Xinjian, additional, Tsuboi, Daisuke, additional, Funahashi, Yasuhiro, additional, Nakano, Takashi, additional, Yoshimoto, Junichiro, additional, Kobayashi, Kenta, additional, Uchigashima, Motokazu, additional, Watanabe, Masahiko, additional, Miura, Masami, additional, Nishi, Akinori, additional, Kobayashi, Kazuto, additional, Yamada, Kiyofumi, additional, Amano, Mutsuki, additional, and Kaibuchi, Kozo, additional

Published
2016
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27. Concurrent observations of astrocytic Ca2+ activity and multisite extracellular potentials from an intact cerebral cortex.

Author

Riera, Jorge, Ogawa, Takeshi, Hatanaka, Rieko, Goto, Takakuni, Sumiyoshi, Akira, Kadji, Herve Enjieu, Nakauchi, Sakura, and Kawashima, Ryuta

Abstract

In basic neuroscience, the attention has been recently focused on the role played by the protoplasmic astrocytes in modulating the activity of nearby neurons or else on assisting a long-term/sustained communication between these neurons and the surrounding microvasculature. However, to understand the physiological mechanisms underlying such a multiscale interactions in space and time, novel methodologies are required. This paper reports about an experimental setting and a procedure that was developed to obtain concurrently two-photon astrocytic Ca2+ imaging and multisite large-scale extracellular potentials as recorded by a silicon-based probe. Solutions to several technical drawbacks (e.g. removal of photoelectric artifacts, the establishment of safety ranges for microinjection) are provided which are intrinsic to the technology and procedure utilized. Through the use of SR101 to stain protoplasmic astrocytes, it was possible to combine functional information represented by the Ca2+ activity in individual astrocytes and the LFPs with geometrical descriptors of the astrocytic/vessel networks. (© 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [ABSTRACT FROM AUTHOR]

Published
2010
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28. Nicotine facilitates long-term potentiation induction in oriens-lacunosum moleculare cells via Ca2+ entry through non-α7 nicotinic acetylcholine receptors.

Author

Jia, Yousheng, Yamazaki, Yoshihiko, Nakauchi, Sakura, Ito, Ken‐Ichi, and Sumikawa, Katumi

Subjects
HYPOTHALAMIC hormones, INTERNEURONS, SYNAPSES, HIPPOCAMPUS (Brain), NICOTINE
Abstract

Hippocampal inhibitory interneurons have a central role in the control of network activity, and excitatory synapses that they receive express Hebbian and anti-Hebbian long-term potentiation (LTP). Because many interneurons in the hippocampus express nicotinic acetylcholine receptors (nAChRs), we explored whether exposure to nicotine promotes LTP induction in these interneurons. We focussed on a subset of interneurons in the stratum oriens/alveus that were continuously activated in the presence of nicotine due to the expression of non-desensitizing non-α7 nAChRs. We found that, in addition to α2 subunit mRNAs, these interneurons were consistently positive for somatostatin and neuropeptide Y mRNAs, and showed morphological characteristics of oriens-lacunosum moleculare cells. Activation of non-α7 nAChRs increased intracellular Ca2+ levels at least in part via Ca2+ entry through their channels. Presynaptic tetanic stimulation induced N-methyl-d-aspartate receptor-independent LTP in voltage-clamped interneurons at −70 mV when in the presence, but not absence, of nicotine. Intracellular application of a Ca2+ chelator blocked LTP induction, suggesting the requirement of Ca2+ signal for LTP induction. The induction of LTP was still observed in the presence of ryanodine, which inhibits Ca2+ -induced Ca2+ release from ryanodine-sensitive intracellular stores, and the L-type Ca2+ channel blocker nifedipine. These results suggest that Ca2+ entry through non-α7 nAChR channels is critical for LTP induction. Thus, nicotine affects hippocampal network activity by promoting LTP induction in oriens-lacunosum moleculare cells via continuous activation of non-α7 nAChRs. [ABSTRACT FROM AUTHOR]

Published
2010
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29. Modulation of hyperpolarization-activated cation current I h by volatile anesthetic sevoflurane in the mouse striatum during postnatal development.

Author

Sugasawa Y, Fukuda M, Ando N, Inoue R, Nakauchi S, Miura M, and Nishimura K

Subjects
Anesthetics pharmacology, Animals, Cerebral Cortex metabolism, Electric Stimulation methods, Interneurons drug effects, Male, Membrane Potentials drug effects, Mice, Inbred C57BL, Potassium Channels metabolism, Sevoflurane, Thalamus drug effects, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels drug effects, Methyl Ethers pharmacology
Abstract

Volatile anesthetics have been reported to inhibit hyperpolarization-activated cyclic-nucleotide gated channels underlying the hyperpolarization-activated cation current (I h ) that contributes to generation of synchronized oscillatory neural rhythms. Meanwhile, the developmental change of I h has been speculated to play a pivotal role during maturation. In this study, we examined the effect of the volatile anesthetic sevoflurane, which is widely used in pediatric surgery, on I h and on functional I h activation kinetics of cholinergic interneurons in developing striatum. Our analyses showed that the changes in I h of cholinergic interneurons occurred in conjunction with maturation. Sevoflurane application (1-4%) caused significant inhibition of I h in a dose-dependent manner, and apparently slowed I h activation. In current-clamp recordings, sevoflurane significantly decreased spike firing during the rebound activation, which is essential for responses to the sensory inputs from the cortex and thalamus. The sevoflurane-induced inhibition of I h in striatal cholinergic interneurons may lead to alterations of the acetylcholine-dopamine balance in the neural circuits during the early postnatal period., (Copyright © 2017 Elsevier Ireland Ltd and Japan Neuroscience Society. All rights reserved.)

Published
2018
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30. Concurrent observations of astrocytic Ca(2+) activity and multisite extracellular potentials from an intact cerebral cortex.

Author

Riera J, Ogawa T, Hatanaka R, Goto T, Sumiyoshi A, Kadji HE, Nakauchi S, and Kawashima R

Subjects
Animals, Astrocytes ultrastructure, Calcium Signaling, Cations, Divalent metabolism, Cerebral Cortex ultrastructure, Electrophysiology, Rats, Rats, Wistar, Action Potentials physiology, Astrocytes metabolism, Calcium metabolism, Cerebral Cortex metabolism, Extracellular Space metabolism, Microscopy, Fluorescence, Multiphoton
Abstract

In basic neuroscience, the attention has been recently focused on the role played by the protoplasmic astrocytes in modulating the activity of nearby neurons or else on assisting a long-term/sustained communication between these neurons and the surrounding microvasculature. However, to understand the physiological mechanisms underlying such a multiscale interactions in space and time, novel methodologies are required. This paper reports about an experimental setting and a procedure that was developed to obtain concurrently two-photon astrocytic Ca(2+) imaging and multisite large-scale extracellular potentials as recorded by a silicon-based probe. Solutions to several technical drawbacks (e.g. removal of photoelectric artifacts, the establishment of safety ranges for microinjection) are provided which are intrinsic to the technology and procedure utilized. Through the use of SR101 to stain protoplasmic astrocytes, it was possible to combine functional information represented by the Ca(2+) activity in individual astrocytes and the LFPs with geometrical descriptors of the astrocytic/vessel networks.

Published
2010
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31. Nicotine facilitates long-term potentiation induction in oriens-lacunosum moleculare cells via Ca2+ entry through non-alpha7 nicotinic acetylcholine receptors.

Author

Jia Y, Yamazaki Y, Nakauchi S, Ito K, and Sumikawa K

Subjects
Animals, Calcium Channel Blockers metabolism, Chelating Agents metabolism, Egtazic Acid analogs & derivatives, Egtazic Acid metabolism, Excitatory Postsynaptic Potentials drug effects, Excitatory Postsynaptic Potentials physiology, Nifedipine metabolism, Patch-Clamp Techniques, Protein Isoforms metabolism, Rats, Rats, Sprague-Dawley, Ryanodine metabolism, Synapses drug effects, Synapses metabolism, Calcium metabolism, Hippocampus cytology, Interneurons drug effects, Interneurons metabolism, Long-Term Potentiation drug effects, Nicotine pharmacology, Nicotinic Agonists pharmacology, Receptors, Nicotinic metabolism
Abstract

Hippocampal inhibitory interneurons have a central role in the control of network activity, and excitatory synapses that they receive express Hebbian and anti-Hebbian long-term potentiation (LTP). Because many interneurons in the hippocampus express nicotinic acetylcholine receptors (nAChRs), we explored whether exposure to nicotine promotes LTP induction in these interneurons. We focussed on a subset of interneurons in the stratum oriens/alveus that were continuously activated in the presence of nicotine due to the expression of non-desensitizing non-alpha7 nAChRs. We found that, in addition to alpha2 subunit mRNAs, these interneurons were consistently positive for somatostatin and neuropeptide Y mRNAs, and showed morphological characteristics of oriens-lacunosum moleculare cells. Activation of non-alpha7 nAChRs increased intracellular Ca(2+) levels at least in part via Ca(2+) entry through their channels. Presynaptic tetanic stimulation induced N-methyl-D-aspartate receptor-independent LTP in voltage-clamped interneurons at -70 mV when in the presence, but not absence, of nicotine. Intracellular application of a Ca(2+) chelator blocked LTP induction, suggesting the requirement of Ca(2+) signal for LTP induction. The induction of LTP was still observed in the presence of ryanodine, which inhibits Ca(2+) -induced Ca(2+) release from ryanodine-sensitive intracellular stores, and the L-type Ca(2+) channel blocker nifedipine. These results suggest that Ca(2+) entry through non-alpha7 nAChR channels is critical for LTP induction. Thus, nicotine affects hippocampal network activity by promoting LTP induction in oriens-lacunosum moleculare cells via continuous activation of non-alpha7 nAChRs.

Published
2010
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32. Alpha2 nicotine receptors function as a molecular switch to continuously excite a subset of interneurons in rat hippocampal circuits.

Author

Jia Y, Yamazaki Y, Nakauchi S, and Sumikawa K

Subjects
Animals, Azetidines metabolism, Azetidines pharmacology, Hippocampus metabolism, Inhibitory Postsynaptic Potentials physiology, Interneurons cytology, Interneurons drug effects, Neural Pathways drug effects, Neural Pathways physiology, Nicotine metabolism, Nicotine pharmacology, Patch-Clamp Techniques, Protein Isoforms genetics, Protein Subunits genetics, Rats, Rats, Sprague-Dawley, Receptors, Nicotinic genetics, Hippocampus cytology, Interneurons metabolism, Protein Isoforms metabolism, Protein Subunits metabolism, Receptors, Nicotinic metabolism
Abstract

Rapid activation of nicotinic acetylcholine receptors (nAChRs) at various anatomical and cellular locations in the hippocampus differentially modulates the operation of hippocampal circuits. However, it is largely unknown how the continued presence of nicotine affects the normal operation of hippocampal circuits. Here, we used single and dual whole-cell recordings to address this question. We found that horizontally oriented interneurons in the stratum oriens/alveus continuously discharged action potentials in the presence of nicotine. In these interneurons, bath application of nicotine produced slow inward currents that were well maintained and inhibited by the non-alpha 7 antagonist dihydro-beta-erythroidine. Single-cell reverse transcription-polymerase chain reaction analysis showed that nicotine-responding interneurons were consistently positive for the alpha2 subunit mRNA. These observations suggest that in the presence of nicotine, a subset of interneurons in the stratum oriens/alveus are continuously excited due to the sustained activation of alpha2* nAChRs. These interneurons were synaptically connected to pyramidal cells, and nicotine increased inhibitory baseline currents at the synapses and suppressed phasic inhibition at the same synapses. Nicotine-induced inhibitory activity increased background noise and masked small phasic inhibition in pyramidal cells, originating from other interneurons in the stratum radiatum. Thus, the continued presence of nicotine alters the normal operation of hippocampal circuits by gating inhibitory circuits through activating a non-desensitizing alpha2 nAChR subtype on a distinct population of interneurons.

Published
2009
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33. Nicotine gates long-term potentiation in the hippocampal CA1 region via the activation of alpha2* nicotinic ACh receptors.

Author

Nakauchi S, Brennan RJ, Boulter J, and Sumikawa K

Subjects
Animals, Down-Regulation drug effects, Down-Regulation genetics, Hippocampus metabolism, Long-Term Potentiation genetics, Membrane Potentials drug effects, Membrane Potentials genetics, Mice, Mice, Inbred C57BL, Mice, Knockout, Neural Inhibition drug effects, Neural Inhibition genetics, Neural Pathways metabolism, Nicotinic Agonists pharmacology, Organ Culture Techniques, Pyramidal Cells metabolism, Receptors, Nicotinic genetics, Receptors, Nicotinic metabolism, Synaptic Transmission drug effects, Synaptic Transmission genetics, Hippocampus drug effects, Long-Term Potentiation drug effects, Neural Pathways drug effects, Nicotine pharmacology, Pyramidal Cells drug effects, Receptors, Nicotinic drug effects
Abstract

Hippocampal CA1 pyramidal cells receive two major excitatory synaptic inputs via the Schaffer collateral (SC) and temporoammonic (TA) pathways. Nicotine promotes induction of long-term potentiation (LTP) in the SC path; however, it is not known whether the modulatory effect of nicotine on LTP induction is pathway-specific. Here we show that nicotine suppresses LTP induction in the TA path. Interestingly, these opposing effects of nicotine were absent or greatly reduced in alpha2 nicotinic acetylcholine receptor (nAChR)-knockout (KO) mice, suggesting that an alpha2-containing nAChR subtype mediates these effects. Optical imaging with a voltage-sensitive dye revealed significantly stronger membrane depolarization in the presence of nicotine in the SC path, facilitating spread of excitatory neural activity along both the somatodendritic and the CA1 proximodistal axes. These effects of nicotine were also absent in alpha2 nAChR-KO mice, suggesting that the enhanced optical signal is related to the nicotine-induced facilitation of LTP induction. In contrast, in the TA path nicotine terminated depolarization more quickly and increased the delayed hyperpolarization in the termination zone of the TA path input. These inhibitory effects of nicotine were absent in alpha2 nAChR-KO mice and, thus, most probably underlie the nicotine-induced suppression of LTP induction. Our results suggest that nicotine influences the local balance between excitation and inhibition, gates LTP, and directs information flow through the hippocampal circuits via the activation of alpha2* nAChRs. These effects of nicotine may represent the cellular basis of nicotine-mediated cognitive enhancement.

Published
2007
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