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126 results on '"Hori, Etsuro"'

104. Place-related neuronal activity in the monkey parahippocampal gyrus and hippocampal formation during virtual navigation.

Author

Furuya, Yoichi, Matsumoto, Jumpei, Hori, Etsuro, Boas, Cyrus Villas, Tran, Anh Hai, Shimada, Yutaka, Ono, Taketoshi, and Nishijo, Hisao

Abstract

ABSTRACT Neuropsychological data in primates demonstrated a pivotal role of the hippocampal formation (HF) and parahippocampal gyrus (PH) in navigation and episodic memory. To investigate the role of HF and PH neurons in environmental scaling in primates, we recorded neuronal activities in the monkey HF and PH during virtual navigation (VN) and pointer translocation (PT) tasks. The monkeys had to navigate within three differently sized virtual spaces with the same spatial cues (VN task) or move a pointer on a screen (PT task) by manipulating a joystick to receive a reward. Of the 234 recorded neurons, 170 and 61 neurons displayed place-related activities in the VN and PT tasks, respectively. Significant differences were observed between the HF and PH neurons. The spatial similarity of place fields between the two different virtual spaces was lower in PH than in HF, while specificities of the neuronal responses to distal spatial cues were higher in PH than in HF. Spatial view information was predominately processed in posterior PH. The spatial scales (place field sizes) of the HF and PH neurons were reduced in the reduced virtual space, as shown in rodent place cells. These results suggest the complementary roles of HF (allocentric representation of landmarks) and PH (representation of the spatial layout of landmarks) in the recognition of a location during navigation. © 2013 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published
2014
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106. Pulvinar neurons reveal neurobiological evidence of past selection for rapid detection of snakes.

Author

Quan Van Le, Isbell, Lynne A., Matsumoto, Jumpei, Nguyen, Minh, Hori, Etsuro, Maior, Rafael S., Tomaz, Carlos, Anh Hai Tran, Ono, Taketoshi, and Nishijo, Hisao

Subjects
SNAKES, NEURON analysis, PRIMATE behavior, PRIMATE evolution, JAPANESE macaque, ANALYSIS of variance
Abstract

Snakes and their relationships with humans and other primates have attracted broad attention from multiple fields of study, but not, surprisingly, from neuroscience, despite the involvement of the visual system and strong behavioral and physiological evidence that humans and other primates can detect snakes faster than innocuous objects. Here, we report the existence of neurons in the primate medial and dorsolateral pulvinar that respond selectively to visual images of snakes. Compared with three other categories of stimuli (monkey faces, monkey hands, and geometrical shapes), snakes elicited the strongest, fastest responses, and the responses were not reduced by low spatial filtering. These findings integrate neuroscience with evolutionary biology, anthropology, psychology, herpetology, and primatology by identifying a neurobiological basis for primates' heightened visual sensitivity to snakes, and adding a crucial component to the growing evolutionary perspective that snakes have long shaped our primate lineage. [ABSTRACT FROM AUTHOR]

Published
2013
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107. Thermotherapy to the facial region in and around the eyelids altered prefrontal hemodynamic responses and autonomic nervous activity during mental arithmetic.

Author

Takamoto, Kouich, Hori, Etsuro, Urakawa, Susumu, Katayama, Miho, Nagashima, Yoshinao, Yada, Yukihiro, Ono, Taketoshi, and Nishijo, Hisao

Subjects
*THERMOTHERAPY, *EYELIDS, *HEMODYNAMICS, *PREFRONTAL cortex, *AUTONOMIC nervous system, *MENTAL arithmetic, *FACE, *MENTAL fatigue
Abstract

To investigate neural mechanisms of local thermotherapy to reduce mental stress, participants were required to perform mental arithmetic after treatment by a heat- and steam-generating sheet on the facial eyelid region while hemodynamic activity and ECGs were monitored. The results indicated that thermotherapy decreased hemodynamic activity in the anterior dorsomedial prefrontal cortex ( aDMPFC) involved in sympathetic activity. Consistently, thermotherapy increased parasympathetic activity while it decreased sympathetic activity. Furthermore, thermotherapy increased hemodynamic activity in the dorsolateral prefrontal cortex ( DLPFC) during mental arithmetic. These hemodynamic responses in the DLPFC during mental arithmetic were negatively correlated with that in the aDMPFC during thermotherapy. The results suggest that thermotherapy in the facial eyelid region is useful to ameliorate mental fatigue through its effects on the prefrontal cortex. [ABSTRACT FROM AUTHOR]

Published
2013
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110. Neuronal Responses in the Nucleus Accumbens Shell during Sexual Behavior in Male Rats.

Author

Matsumoto, Jumpei, Urakawa, Susumu, Hori, Etsuro, de Araujo, Mariana F. P., Sakuma, Yasuo, Ono, Taketoshi, and Nishijo, Hisao

Subjects
NUCLEUS accumbens, ANIMAL sexual behavior, EJACULATION, GAMMA rays, INTERNEURONS, NEURAL transmission, LABORATORY rats
Abstract

Previous behavioral studies have indicated that the nucleus accumbens (NAc) shell of a male rat is involved in its sexual behavior; however, no previous studies have investigated neuronal activities in the male rat NAc shell during sexual behavior. To investigate this issue, we recorded single unit activities in the NAc shell of male rats during sexual behavior. Of 123 NAc shell neurons studied, 53, 47, and 40 neurons exhibited significantly changed firing rates at various times during intromission, genital auto-grooming, and sniffing of females, respectively. The two types of NAc shell neurons [putative fast spiking interneurons (pFSIs) and medium spiny neurons (pMSNs)] responded differently during sexual behavior. First, more pFSIs than pMSNs exhibited inhibitory responses to thrusting with intromission and genital grooming, while pFSIs and pMSNs responded similarly to sniffing of females. Second, both pFSIs and pMSNs responded differently to thrusting with and without intromission. Furthermore, NAc shell neuronal activity was significantly different across the different phases of sexual behavior, and the number of NAc shell neurons with delta oscillation, which is related to behavioral inhibition, and high gamma oscillation, which is related to reward perception, increased after ejaculation. Together, our results suggest that the NAc shell is deeply involved in sexual behavior, and changes in NAc shell neuronal activity are related to performance of sexual behavior, encoding cues or contexts related to sexual behavior, reward-related processing, and the inhibition of sexual behavior after ejaculation. [ABSTRACT FROM AUTHOR]

Published
2012
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111. Dopamine D1 Receptor Modulates Hippocampal Representation Plasticity to Spatial Novelty.

Author

Anh Hai Tran, Uwano, Teruko, Kimura, Tatsuo, Hori, Etsuro, Katsuki, Motoya, Nishijo, Hisao, and Ono, Taketoshi

Subjects
HIPPOCAMPUS (Brain), NEUROPLASTICITY, NEURONS, LEARNING, MEMORY, LABORATORY mice
Abstract

The human hippocampus is critical for learning and memory. In rodents, hippocampal pyramidal neurons fire in a location-specific manner, forming relational representations of environmental cues. The importance of glutamatergic systems in learning and in hippocampal neural synaptic plasticity has been shown. However, the role of dopaminergic systems in the response of hippocampal neural plasticity to novel and familiar spatial stimuli remains unclear. To clarify this important issue, we recorded hippocampal neurons from dopamine D1 receptor knock-out (D1R-KO) mice and their wild-type (WT) littermates under the manipulation of distinct spatial cues in a familiar and a novel environment. Here we report that in WT mice, the majority of place cells quickly responded to the manipulations of distal and proximal cues in both familiar and novel environments. In contrast, the influence of distal cues on spatial firing in D1R-KO mice was abolished. In the D1R-KO mice, the influence of proximal cues was facilitated in a familiar environment, and in a novel environment most of the place cells were less likely to respond to changes of spatial cues. Our results demonstrate that hippocampal neurons in mice can rapidly and flexibly encode information about space from both distal and proximal cues to cipher a novel environment. This ability is necessary for many types of learning, and lacking D1R can radically alter this learning-related neural activity. We propose that D1R is crucially implicated in encoding spatial information in novel environments, and influences the plasticity of hippocampal representations, which is important in spatial learning and memory. [ABSTRACT FROM AUTHOR]

Published
2008
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112. Rearing in enriched environment increases parvalbumin-positive small neurons in the amygdala and decreases anxiety-like behavior of male rats

Author

Urakawa, Susumu, Takamoto, Kouich, Hori, Etsuro, Sakai, Natsuko, Ono, Taketoshi, Nishijo, Hisao, Urakawa, Susumu, Takamoto, Kouich, Hori, Etsuro, Sakai, Natsuko, Ono, Taketoshi, and Nishijo, Hisao

Abstract

Background: Early life experiences including physical exercise, sensory stimulation, and social interaction can modulate development of the inhibitory neuronal network and modify various behaviors. In particular, alteration of parvalbumin-expressing neurons, a gamma-aminobutyric acid (GABA)ergic neuronal subpopulation, has been suggested to be associated with psychiatric disorders. Here we investigated whether rearing in enriched environment could modify the expression of parvalbumin-positive neurons in the basolateral amygdala and anxiety-like behavior. Results: Three-week-old male rats were divided into two groups: those reared in an enriched environment (EE rats) and those reared in standard cages (SE rats). After 5 weeks of rearing, the EE rats showed decreased anxiety-like behavior in an open field than the SE rats. Under another anxiogenic situation, in a beam walking test, the EE rats more quickly traversed an elevated narrow beam. Anxiety-like behavior in the open field was significantly and negatively correlated with walking time in the beam-walking test. Immunohistochemical tests revealed that the number of parvalbumin-positive neurons significantly increased in the basolateral amygdala of the EE rats than that of the SE rats, while the number of calbindin-D28k-positive neurons did not change. These parvalbumin-positive neurons had small, rounded soma and co-expressed the glutamate decarboxylase (GAD67). Furthermore, the number of parvalbumin-positive small cells in the basolateral amygdala tended to positively correlate with emergence in the center arena of the open field and negatively correlated with walking time in the beam walking test. Conclusion: Rearing in the enriched environment augmented the number of parvalbumin-containing specific inhibitory neuron in the basolateral amygdala, but not that of calbindin-containing neuronal phenotype. Furthermore, the number of parvalbumin-positive small neurons in the basolateral amygdala was negatively correla, This work was supported partly by JSPS (Japan Society for the Promotion of Science) Asian Core Program, and the Ministry of Education, Science, Sports and Culture, Grant-in-Aid for Scientific Research (A) (22240051).

115. Trigger-Point Pressure Relieves Pain, Fatigue.

Author

Takamoto, Kohichi, Sakai, Shigekazu, Hori, Etsuro, Urakawa, Susumu, Umeno, Katsumi, Ono, Taketoshi, and Nishijo, Hisao

Subjects
MASSAGE therapy, COMPRESSION therapy, THERAPEUTICS, PARASYMPATHETIC nervous system, PHYSIOLOGICAL therapeutics, MEDICAL care
Abstract

The article highlights a study which found that applying pressure on the trigger points in the leg muscles decreases heart rate, systolic blood pressure, and diastolic blood pressure and increased parasympathetic activity. Experts suggest that compression elevates the activity of the parasympathetic nervous system and through the application of pressure, the defective spots can be determined. It is indicated that the findings provides insight into the physiological mechanism of pain relief.

Published
2009

116. Hippocampal place cell responses to distal and proximal cue manipulations in dopamine D2 receptor-knockout mice.

Author

Nguyen, Chien Le, Tran, Anh Hai, Matsumoto, Jumpei, Hori, Etsuro, Uwano, Teruko, Ono, Taketoshi, and Nishijo, Hisao

Subjects
*NEURONS, *DOPAMINE receptors, *KNOCKOUT mice, *HIPPOCAMPUS physiology, *LEARNING, *NEUROPLASTICITY, *MEMORY
Abstract

Abstract: The human hippocampus is critical for learning and memory. In rodents, hippocampal pyramidal neurons fire in a location-specific manner and form relational representations of environmental cues. The important roles of dopaminergic D1 receptors in learning and in hippocampal neural synaptic plasticity in novel environments have been previously shown. However, the roles of D2 receptors in hippocampal neural plasticity in response to novel and familiar spatial stimuli remain unclear. In order to clarify this issue, we recorded from hippocampal neurons in dopamine D2 receptor-knockout (D2R-KO) mice and their wild-type (WT) littermates during manipulations of distinct spatial cues in familiar and novel environments. Here, we report that D2R-KO mice showed substantial deficits in place-cell properties (number of place cells, intra-field firing rates, spatial tuning, and spatial coherence). Furthermore, although place cells in D2R-KO mice responded to manipulations of distal and proximal cues in both familiar and novel environments in a manner that was similar to place cells in WT mice, place fields were less stable in the D . The axes represent the differences between the peak and the valley of each waveform of EL2 and EL3.2R-KO mice in the familiar environment, but not in the novel environment. The present results suggested that D2 receptors in the hippocampus are important for place response stability. The place-cell properties of D2R-KO mice were similar to aged animals, suggesting that the alterations of place-cell properties in aged animals might be ascribed partly to alterations in the D2R in the HF of aged animals. [Copyright &y& Elsevier]

Published
2014
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117. Subcutaneous edema as a potential cause of catheter failure in older inpatients receiving peripheral parenteral nutrition.

Author

Kitada M, Yamamura S, and Hori E

Subjects
Humans, Male, Aged, Female, Aged, 80 and over, Catheterization, Peripheral adverse effects, Equipment Failure statistics & numerical data, Ultrasonography, Inpatients, Subcutaneous Tissue, Retrospective Studies, Edema etiology, Parenteral Nutrition adverse effects
Abstract

Malnutrition is a common problem among hospitalized older patients. Peripheral parenteral nutrition (PN) can improve patient outcomes but can also lead to complications that affect future treatment. Older inpatients, in particular, are expected to be prone to these catheter-related complications. However, the impact of peripheral PN on older inpatients has been rarely investigated. In the current study, the impact of PN on short peripheral catheters (SPCs) was evaluated by comparing signs and symptoms at the time of catheter removal between 22 patients with PN and 27 without. In addition to external clinical assessment, sonographic investigations of the SPC site were performed. The prevalence of external signs and symptoms of complications was similar between the patients (all P > 0.05). However, subcutaneous edema was found by ultrasound in > 80% of patients with PN, compared with 55.6% of those without PN (P = 0.051). Unlike cases without PN, all patients with PN who presented with external signs and symptoms developed subcutaneous edema (P = 0.022). Multivariate analysis demonstrated that administration of PN was independently associated with subcutaneous edema (adjusted odds ratio = 6.88, 95% confidence interval = 1.083-75.486, P = 0.040). For several decades, phlebitis has been the primary focus of complications related to peripheral PN in clinical settings. However, our results imply that peripheral PN causes subcutaneous edema, which can lead to catheter failure in older inpatients. This study contributes to understanding the etiology of catheter failure during peripheral PN in this population.

Published
2024
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118. Superior Neuronal Detection of Snakes and Conspecific Faces in the Macaque Medial Prefrontal Cortex.

Author

Dinh HT, Nishimaru H, Matsumoto J, Takamura Y, Le QV, Hori E, Maior RS, Tomaz C, Tran AH, Ono T, and Nishijo H

Subjects
Animals, Face, Female, Male, Macaca physiology, Pattern Recognition, Visual physiology, Prefrontal Cortex physiology, Snakes
Abstract

Snakes and conspecific faces are quickly and efficiently detected in primates. Because the medial prefrontal cortex (mPFC) has been implicated in attentional allocation to biologically relevant stimuli, we hypothesized that it might also be highly responsive to snakes and conspecific faces. In this study, neuronal responses in the monkey mPFC were recorded, while monkeys discriminated 8 categories of visual stimuli. Here, we show that the monkey mPFC neuronal responses to snakes and conspecific faces were unique. First, the ratios of the neurons that responded strongly to snakes and monkey faces were greater than those of the neurons that responded strongly to the other stimuli. Second, mPFC neurons responded stronger and faster to snakes and monkey faces than the other categories of stimuli. Third, neuronal responses to snakes were unaffected by low-pass filtering of the images. Finally, activity patterns of responsive mPFC neurons discriminated snakes from the other stimuli in the second 50 ms period and monkey faces in the third period after stimulus onset. These response features indicate that the mPFC processes fast and coarse visual information of snakes and monkey faces, and support the hypothesis that snakes and social environments have shaped the primate visual system over evolutionary time.

Published
2018
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119. [The role of a molecule associated with drug dependence, shati/nat8l].

Author

Miyamoto Y, Saika E, Hori E, Iegaki N, Sumi K, Nabeshima T, Muramatsu S, Nishijo H, Uno K, and Nitta A

Subjects
Animals, Aspartic Acid analogs & derivatives, Aspartic Acid metabolism, Behavior, Animal drug effects, Brain metabolism, Brain physiopathology, Humans, Methamphetamine pharmacology, Substance-Related Disorders drug therapy, Substance-Related Disorders physiopathology, Acetyltransferases metabolism, Substance-Related Disorders metabolism
Abstract

Various molecules are involved in drug addiction induced by drugs of abuse. Therefore, the mechanism of drug addiction is still not clear, and it has been a difficulty in the development of preventive and curative drugs for drug dependence. We tried to identify the molecules associated with drug dependence, and found three molecules including shati/nat81. Recently, it has been demonstrated that the substrate for shati/nat81 is aspaltate and shati/nat8l biosynthesizes N-acetylaspartate, which exists abundantly in the mammalian brain. In this study, we investigated the physiological function of shati/nat81 and the role of shati/nat81 in drug dependence. The overexpression of shati/nat81 in the dorsal striatum of mice led to social abnormality and depression-like behavior, and worsened a part of the motor dysfunction induced by Ca2+ channel agonist BAY-K 8644. The overexpression of shati/nat81 in the nucleus accumbens of mice inhibited methamphetamine-induced behavioral and biochemical abnormalities. These findings suggest that the shati/nat81-associated system could play a role in the regulation of mental activity and motor action, and be a new target in the development of therapeutic drugs for drug dependence.

Published
2013

120. Dopamine D1 receptor modulates hippocampal representation plasticity to spatial novelty.

Author

Tran AH, Uwano T, Kimura T, Hori E, Katsuki M, Nishijo H, and Ono T

Subjects
Animals, Blotting, Western, Learning physiology, Male, Memory physiology, Mice, Mice, Knockout, Receptors, Dopamine D1 genetics, Hippocampus metabolism, Neuronal Plasticity physiology, Neurons metabolism, Receptors, Dopamine D1 metabolism, Spatial Behavior physiology
Abstract

The human hippocampus is critical for learning and memory. In rodents, hippocampal pyramidal neurons fire in a location-specific manner, forming relational representations of environmental cues. The importance of glutamatergic systems in learning and in hippocampal neural synaptic plasticity has been shown. However, the role of dopaminergic systems in the response of hippocampal neural plasticity to novel and familiar spatial stimuli remains unclear. To clarify this important issue, we recorded hippocampal neurons from dopamine D(1) receptor knock-out (D1R-KO) mice and their wild-type (WT) littermates under the manipulation of distinct spatial cues in a familiar and a novel environment. Here we report that in WT mice, the majority of place cells quickly responded to the manipulations of distal and proximal cues in both familiar and novel environments. In contrast, the influence of distal cues on spatial firing in D1R-KO mice was abolished. In the D1R-KO mice, the influence of proximal cues was facilitated in a familiar environment, and in a novel environment most of the place cells were less likely to respond to changes of spatial cues. Our results demonstrate that hippocampal neurons in mice can rapidly and flexibly encode information about space from both distal and proximal cues to cipher a novel environment. This ability is necessary for many types of learning, and lacking D1R can radically alter this learning-related neural activity. We propose that D1R is crucially implicated in encoding spatial information in novel environments, and influences the plasticity of hippocampal representations, which is important in spatial learning and memory.

Published
2008
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121. A primate model of schizophrenia using chronic PCP treatment.

Author

Mao CV, Hori E, Maior RS, Ono T, and Nishijo H

Subjects
Amphetamine toxicity, Animals, Behavior, Animal drug effects, Dopamine Uptake Inhibitors toxicity, Drug Administration Schedule, Drug Synergism, Female, Interpersonal Relations, Macaca fascicularis, Male, Schizophrenia chemically induced, Social Behavior, Disease Models, Animal, Hallucinogens toxicity, Phencyclidine toxicity, Schizophrenia physiopathology
Abstract

To establish a primate animal model of schizophrenia with negative symptoms, the behavioral effects of chronic phencyclidine (PCP) and additional acute methamphetamine (MAP) administration were investigated in six monkeys. The results indicate that chronic PCP treatment induced a significant decrease in all categories of social behaviors, and that the chronic PCP monkeys also spent less time in proximity to other monkeys than the control monkeys. Acute MAP injection to the chronic PCP monkeys exacerbated the behavioral effects of PCP. The results suggest that these monkeys can be used as a primate model of schizophrenia with negative symptoms.

Published
2008
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124. Protective effects of Choto-san and hooks and stems of Uncaria sinensis against delayed neuronal death after transient forebrain ischemia in gerbil.

Author

Yokoyama K, Shimada Y, Hori E, Sekiya N, Goto H, Sakakibara I, Nishijo H, and Terasawa K

Subjects
Animals, Free Radical Scavengers administration & dosage, Free Radical Scavengers therapeutic use, Gerbillinae, Hippocampus blood supply, Hippocampus drug effects, Ischemic Attack, Transient physiopathology, Male, Neuroprotective Agents administration & dosage, Neuroprotective Agents therapeutic use, Plant Extracts administration & dosage, Plant Extracts therapeutic use, Plant Stems, Drugs, Chinese Herbal, Free Radical Scavengers pharmacology, Ischemic Attack, Transient prevention & control, Neurons drug effects, Neuroprotective Agents pharmacology, Phytotherapy, Plant Extracts pharmacology, Uncaria
Abstract

Previously, we revealed that Choto-san (Diao-teng-san in Chinese), a Kampo formula, is effective on vascular dementia clinically, and the hooks and stems of Uncaria sinensis (Oliv.) Havil., a medicinal plant comprising Chotosan, has a neuroprotective effect in vitro. In the present study, for the purpose of clarifying their effects in vivo, we investigated whether the oral administration of Choto-san extract (CSE) or U. sinensis extract (USE) reduces delayed neuronal death following ischemia/reperfusion (i/rp) in gerbils. Transient forebrain ischemia was induced by bilateral carotid artery occlusion for 4 min, and two doses (1.0% and 3.0%) of CSE or USE were dissolved in drinking water and provided to the gerbils ad libitum from 7 days prior to i/rp until 7 days after i/rp. It was found that 1.0% and 3.0% CSE treatments significantly reduced pyramidal cell death in the hippocampal CA1 region at 7 days post i/rp. Three percent USE treatment also inhibited pyramidal cell death significantly at 7 days after i/rp. Superoxide anion and hydroxyl radical scavenging activities of the homogenized hippocampus at 7 days after i/rp in the 1.0% CSE- and 3.0% USE-treated groups were significantly enhanced compared to those of control. Further, lipid peroxide and NO2-/NO3- levels of the homogenized hippocampus at 48h after i/rp in the 1.0% CSE- and 3.0% USE-treated groups were significantly lower than those of control. These results suggest that the oral administration of CSE or USE provides a protective effect against transient ischemia-induced delayed neuronal death by reducing oxidative damage to neurons.

Published
2004
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125. [A role of the amygdala and frontal lobe in social cognition and emotion].

Author

Hori E, Nishijo H, and Ono T

Subjects
Adult, Amygdala anatomy & histology, Animals, Child, Frontal Lobe anatomy & histology, Humans, Magnetic Resonance Imaging, Neural Pathways, Neuropsychological Tests, Pattern Recognition, Automated, Amygdala physiology, Emotions, Frontal Lobe physiology, Social Perception
Published
2004

126. Effects of a novel arginine-vasopressin derivative, NC-1900, on the spatial memory impairment of rats with transient forebrain ischemia.

Author

Hori E, Uwano T, Tamura R, Miyake N, Nishijo H, and Ono T

Subjects
Amnesia drug therapy, Animals, Disease Models, Animal, Hippocampus physiology, Learning drug effects, Learning physiology, Male, Memory Disorders etiology, Memory Disorders physiopathology, Oligopeptides therapeutic use, Pyrrolidonecarboxylic Acid analogs & derivatives, Rats, Rats, Wistar, Vasopressins therapeutic use, Brain Ischemia complications, Hippocampus drug effects, Memory Disorders drug therapy, Oligopeptides pharmacology, Prosencephalon blood supply, Vasopressins pharmacology
Abstract

NC-1900, an arginine-vasopressin derivative, has been reported to enhance memory for avoidance behavior. Specifically, NC-1900 ameliorated cycloheximide-induced learning impairments in a passive avoidance test in rats. In the present study, we investigated that effects of NC-1900 on place learning in rats with selective lesions in the CA1 subfield of the hippocampal formation produced by transient forebrain ischemia. NC-1900 was administered daily (1 microg/kg, p.o.) 1 h before the place learning task. A rat was required to alternate between 2 small circular areas located diametrically opposite each other on the circumference of an open field in order to obtain intracranial electrical stimulation reward (the spatial navigation task). Rats with hippocampal lesions showed severe place learning impairments both in task performance (indicated by number of rewards obtained per a session) and in navigation performance (forming efficient trails) over the 30-day test period. Treatment with NC-1900 ameliorated deficits in the place learning exhibited by rats with the same hippocampal lesions, such that their performance reached normal levels. There were no significant differences in the ischemic hippocampal lesions, spontaneous locomotor activity, and stimulation current intensity between the treated and untreated rats. The results demonstrated that NC-1900 reduced place learning impairments produced by hippocampal lesions.

Published
2002
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