Your search keyword '"K. Okanoya"' showing total 242 results

1. Large-scale improvement work of subway stations in soft ground

Author

T. Murakami, R. Fukuda, S. Konishi, K. Okanoya, and T. Moriya

Subjects

Work (electrical), Scale (ratio), Environmental science, Civil engineering

Published

2022

2. Female Bengalese finches recognize their father’s song as sexually attractive

Author

K. Okanoya and Teruo Fujii

Subjects

animal structures, Future studies, Variation (linguistics), nervous system, Mate choice, behavior and behavior mechanisms, Psychology, psychological phenomena and processes, Preference, Developmental psychology

Abstract

Birdsong is an important communication signal used in mate choice. In some songbirds, only males produce songs while females do not. Female birds are sensitive to inter- and intra-species song variation. Some aspects of female song preference depend on developmental experiences. For example, in Bengalese finches and zebra finches, adult females prefer the song to which they were exposed early in life, such as the father’s song. However, it is unclear whether such song preference in females is sexually motivated. The purpose of our study is to test if female Bengalese finches recognize their father’s song as sexually attractive. We measured copulation solicitation displays during playbacks of the father’s song vs. unfamiliar conspecific songs and found that across individuals, the father’s song elicited more displays than other songs. In addition, we analyzed if a bird’s response to a given song could be predicted by the level of similarity of that song to the father’s song. The results suggest that preference for the father’s song in this species is actually relevant to mate choice. Although more precise control is necessary in future studies to elucidate the process of preference development, our results imply the significance of early-life experience in shaping female song preference.

Published

2021

3. Constructing ground struts by means of ground improvement underneath existing box elements in large-scale renovation of a subway station under operation constructed by the Caisson method

Author

K. Okanoya, S. Sakata, T. Kondou, M. Nishiaoki, and Y. Arai

Subjects

Line (geometry), Process (computing), Base (geometry), Caisson, Excavation, Diaphragm (mechanical device), Scale (map), Geology, Displacement (vector), Marine engineering

Abstract

This construction project involved renovating Minami-sunamachi station on the Tokyo Metro Tozai Line by converting it from a single island platform station with one set of tracks on each side into a two-platform station with three sets of tracks. Minami-sunamachi Station was constructed using the caisson method in what was a canal at the time of construction; even now, the ground surrounding the box elements is very soft. Thus, measures to minimize displacement of the surrounding ground and existing box elements were required for each process of renovating the station. As for the construction work, excavation was performed to a depth of 14 m using the cut-and-cover method. For earth retention, diaphragm walls were used in an effort to make use of existing structures. For reinforcement, ground struts were installed below the base of the excavation area and performed ground improvement to improve the base.

Published

2020

4. Identification, localisation and functional implication of 26RFa orthologue peptide in the brain of zebra finch (Taeniopygia guttata)

Author

Y, Tobari, N, Iijima, K, Tsunekawa, T, Osugi, S, Haraguchi, T, Ubuka, K, Ukena, K, Okanoya, K, Tsutsui, and H, Ozawa

Subjects

Male, Base Sequence, Gene Expression Profiling, Molecular Sequence Data, Neuropeptides, Brain, Feeding Behavior, Receptors, G-Protein-Coupled, Eating, Animals, Homeostasis, Humans, Female, Amino Acid Sequence, Finches, Energy Metabolism, Food Deprivation, Chickens, Sequence Alignment

Abstract

Several neuropeptides with the C-terminal Arg-Phe-NH(2) (RFa) sequence have been identified in the hypothalamus of a variety of vertebrates. The present study was conducted to isolate novel RFa peptides from the zebra finch brain. Peptides were isolated by immunoaffinity purification using an antibody that recognises avian RFa peptides. The isolated peptide consisted of 25 amino acids with RFa at its C-terminus. The sequence was SGTLGNLAEEINGYNRRKGGFTFRFa. Alignment of the peptide with vertebrate 26RFa has revealed that the identified peptide is the zebra finch 26RFa. We also cloned the precursor cDNA encoding this peptide. Synteny analysis of the gene showed a high conservation of this gene among vertebrates. In addition, we cloned the cDNA encoding a putative 26RFa receptor, G protein-coupled receptor 103 (GPR103) in the zebra finch brain. GPR103 cDNA encoded a 432 amino acid protein that has seven transmembrane domains. In situ hybridisation analysis in the brain showed that the expression of 26RFa mRNA is confined to the anterior-medial hypothalamic area, ventromedial nucleus of the hypothalamus and the lateral hypothalamic area, the brain regions that are involved in the regulation of feeding behaviour, whereas GPR103 mRNA is distributed throughout the brain in addition to the hypothalamic nuclei. When administered centrally in free-feeding male zebra finches, 26RFa increased food intake 24 h after injection without body mass change. Diencephalic GPR103 mRNA expression was up-regulated by fasting for 10 h. Our data suggest that the hypothalamic 26RFa-its receptor system plays an important role in the central control of food intake and energy homeostasis in the zebra finch.

Published

2011

5. Oxytocin inhibits male sexual behavior in prairie voles

Author

K Okanoya, Diane M. Witt, K Mahalati, and C. S. Carter

Subjects

Male, medicine.medical_specialty, Social contact, Clinical Biochemistry, Toxicology, Oxytocin, Biochemistry, Behavioral Neuroscience, Sexual Behavior, Animal, Internal medicine, medicine, Animals, Microtus, Social Behavior, Biological Psychiatry, Injections, Intraventricular, Pharmacology, biology, Aggression, Arvicolinae, biology.organism_classification, Sleep in non-human animals, Endocrinology, Sexual behavior, Depression, Chemical, Oxytocin Injection, medicine.symptom, Psychology, hormones, hormone substitutes, and hormone antagonists, Social behavior, medicine.drug

Abstract

Intracerebroventricular (ICV) injection of oxytocin (300 ng) produced an immediate cessation in sexual behavior in sexually active male prairie voles (Microtus ochrogaster). Other social behaviors including social contact, aggression, and autogrooming were not significantly affected by oxytocin, but males that received oxytocin ICV, versus injections that missed the ventricles, showed more sleep postures. Sexual behavior remained inhibited for at least 24 hours and was not activated in tests with a novel receptive female. Sexual and social behavior were not significantly altered in animals in which the oxytocin injection missed the ventricles or in saline-treated males. These findings are consistent with the hypothesis that oxytocin plays a role in sexual satiety.

Published

1991

6. Differential allocation in relation to mate song quality in the Bengalese finch.

Author

M. Soma and K. Okanoya

Subjects

*SOCIETY finch, *SEXUAL selection, *QUALITY assurance, *BIRD eggs, *SEX ratio, *SONGBIRDS, *BIRD reproduction, *BIRDS

Abstract

Postulating sexual selection plays an important part in the evolution of secondary sexual characters. Based on differential allocation theory that predicts biased reproductive investment of females depending on the attractiveness of mates, a number of previous studies have shown that egg production is related in various ways to ornamental sexual traits of males, but evidence for behavioural sexual traits is less abundant. In this study we examine such maternal effects in relation to birdsong. Because the Bengalese finch is a monomorphic songbird, courtship song serves a key role in mate choice. To take into account individual female differences in egg production performance, we sequentially paired naïve, captive, female Bengalese finches to two different males, and investigated if their reproductive investment (clutch size, egg mass and hatchling sex ratio) was related to the song traits of their mates. We found that clutch size and egg mass were highly repeatable within individual females while sex ratio was not. Despite the inflexibility of egg mass within each female, egg mass increased when females were mated to males with longer songs. In addition, we found a non-significant weak tendency toward male-biased sex ratio in relation to longer song duration of mates. Our findings suggest that females mated to better mates adjusted their reproductive investment by producing heavier eggs and possibly offspring of the more costly sex. [ABSTRACT FROM AUTHOR]

Published

2013

7. Hearing in passerine and psittacine birds: a comparative study of absolute and masked auditory thresholds

Author

K, Okanoya and R J, Dooling

Subjects

Birds, Species Specificity, Reaction Time, Animals, Conditioning, Operant, Auditory Threshold, Pitch Perception, Perceptual Masking

Abstract

Operant conditioning and a psychophysical tracking procedure were used to measure auditory thresholds for pure tones in quiet and in noise for seven species of small birds--the budgerigar, canary, cockatiel, European starling, song sparrow, swamp sparrow, and the zebra finch. Audibility curves are roughly similar among the seven birds, with the maximum sensitivity between 2 and 5 kHz and poorer sensitivity outside this narrow region. Critical ratios (signal-to-noise ratio at masked threshold) were calculated from pure-tone thresholds in noise. Except for the budgerigar, the critical ratio functions of all birds increase at the rate of 3 dB/octave. This pattern is typical of that observed in most vertebrates. Critical ratios in the budgerigar, on the other hand, decrease gradually from 0.5 kHz to 2.8 kHz and increase dramatically above 2.8 kHz. The present research demonstrates that the critical ratio function for the budgerigar is not only different from other vertebrates but also different from other birds.

Published

1987

8. Strain differences in auditory thresholds in the canary (Serinus canarius)

Author

K, Okanoya and R J, Dooling

Subjects

Male, Aging, Canaries, Species Specificity, New York, Animals, Auditory Threshold, Female

Abstract

Canaries (Serinus canarius) of the Belgian waterslager strain from two different colonies were trained with operant techniques for audiometric testing. For both young and old birds, absolute thresholds in the middle- to high-frequency region of the audiogram were between 30 and 40 dB (SPL) higher than those of other song birds, including canaries of other strains. Thus the Belgian waterslager canary, selectively bred for loud, low-pitched song, has also developed poor high-frequency hearing.

Published

1987

9. Auditory sensitivity in the zebra finch (Poephila guttata castanotis)

Author

K. Okanoya and Eri Hashino

Subjects

Acoustics and Ultrasonics, Poephila guttata, Zoology, Sensitivity (control systems), Biology, Zebra finch

Published

1989

10. Spectral consistency in sound sequence affects perceptual accuracy in discriminating subdivided rhythmic patterns.

Author

Nitta J, Kondoh S, Okanoya K, and Tachibana RO

Subjects

Humans, Male, Female, Adult, Young Adult, Periodicity, Sound, Discrimination, Psychological physiology, Music, Auditory Perception physiology, Acoustic Stimulation

Abstract

Musical compositions are distinguished by their unique rhythmic patterns, determined by subtle differences in how regular beats are subdivided. Precise perception of these subdivisions is essential for discerning nuances in rhythmic patterns. While musical rhythm typically comprises sound elements with a variety of timbres or spectral cues, the impact of such spectral variations on the perception of rhythmic patterns remains unclear. Here, we show that consistency in spectral cues affects perceptual accuracy in discriminating subdivided rhythmic patterns. We conducted online experiments using rhythmic sound sequences consisting of band-passed noise bursts to measure discrimination accuracy. Participants were asked to discriminate between a swing-like rhythm sequence, characterized by a 2:1 interval ratio, and its more or less exaggerated version. This task was also performed under two additional rhythm conditions: inversed-swing rhythm (1:2 ratio) and regular subdivision (1:1 ratio). The center frequency of the band noises was either held constant or alternated between two values. Our results revealed a significant decrease in discrimination accuracy when the center frequency was alternated, irrespective of the rhythm ratio condition. This suggests that rhythm perception is shaped by temporal structure and affected by spectral properties., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Nitta et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

11. Effective modulation from the ventral medial to the dorsal medial portion of the prefrontal cortex in memory confidence-based behavioral control.

Author

Yuki S, Nakatani H, Tachibana RO, and Okanoya K

Subjects

Humans, Male, Female, Young Adult, Adult, Magnetic Resonance Imaging, Brain Mapping, Behavior Control methods, Behavior Control psychology, Prefrontal Cortex physiology, Metacognition physiology, Memory physiology

Abstract

Metacognition includes the ability to refer to one's own cognitive states, such as confidence, and adaptively control behavior based on this information. This ability is thought to allow us to predictably control our behavior without external feedback, for example, even before we take action. Many studies have suggested that metacognition requires a brain-wide network of multiple brain regions. However, the modulation of effective connectivity within this network during metacognitive tasks remains unclear. This study focused on medial prefrontal regions, which have recently been suggested to be particularly involved in metacognition. We examined whether modulation of effective connectivity specific to metacognitive behavioral control is observed using model-based network analysis and dynamic causal modeling (DCM). The results showed that negative modulation from the ventral medial prefrontal cortex to the dorsal medial prefrontal cortex was observed in situations that required metacognitive behavioral control but not in situations that did not require such metacognitive control. Furthermore, this modulation was particularly pronounced in the group of participants who could better use metacognition for behavioral control. These results imply hierarchical properties of metacognition-related brain networks., (© 2024. The Author(s).)

Published

2024

12. Examination of the joint Simon effect in rats: Changes in task performance based on actions of the partner.

Author

Katsu N and Okanoya K

Subjects

Animals, Rats, Reaction Time, Cooperative Behavior, Psychomotor Performance, Task Performance and Analysis

Abstract

Nonhuman animals have demonstrated various cooperative behaviors; however, many examples can be interpreted as individual contributions to a task rather than true behavioral coordination. In this study, we used the joint Simon task in rats to determine whether the presence of and task sharing with a partner affected performance in a joint activity. Rats were trained to discriminate between two auditory stimuli (3 and 12 kHz tones) and individually performed an auditory Simon task. They were paired with another rat and tested to perform half of the task, while the other rat performed the other half (joint task condition). The Simon effect was confirmed when the two rats completed half of a joint task. In contrast, when they were placed side by side but only one rat completed half of the task, the Simon effect was not observed. Further analyses revealed that the Simon effect observed in the joint task could not be explained by the simple addition of the two half tasks. In conclusion, task sharing affected individual performance in rats., Competing Interests: Declaration of Competing Interest The authors declare no conflicts of interest., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

13. An exploratory study of behavioral traits and the establishment of social relationships in female laboratory rats.

Author

Hakataya S, Katsu N, Okanoya K, and Toya G

Subjects

Female, Rats, Animals, Interpersonal Relations, Individuality, Avoidance Learning, Behavior, Animal, Social Behavior

Abstract

There is growing evidence that social relationships influence individual fitness through various effects. Clarifying individual differences in social interaction patterns and determinants for such differences will lead to better understanding of sociality and its fitness consequences for animals. Behavioral traits are considered one of the determining factors of social interaction. The purpose of this study was to explore the effects of individual behavioral traits on social relationship building in laboratory rats (Rattus norvegicus), a highly social species. Initially, the following behavioral characteristics were measured in individuals: tameness (glove test), activity (open field test), exploration (novel object test), sociability (three-chamber test), and boldness (elevated plus maze test). We then used DeepLabCut to behaviorally track three groups of four individuals (12 total) and analyze social behaviors such as approach and avoidance behaviors. Principal component analysis based on behavioral test results detected behavioral traits interpreted as related to exploration, boldness, activity, and tameness, but not sociability. In addition, behavioral tracking results showed consistent individual differences in social behavior indices such as isolation time and partner preference. Furthermore, we found that different components were correlated with different phases of social behavior; exploration and boldness were associated with the early stages of group formation, whereas activity was associated with later stages of relationship building. From these results, we derived hypothesize that personality traits related to the physical and social environment have a larger influence in the relationship formation phase, and the behavioral trait of activity becomes important in the maintenance phase of relationships. Future studies should examine this hypothesis by testing larger group sizes and ensuring there is less bias introduced into group composition., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Hakataya et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

14. Dopaminergic neurons dynamically update sensory values during olfactory maneuver.

Author

Kato A, Ohta K, Okanoya K, and Kazama H

Subjects

Animals, Drosophila physiology, Odorants, Dopamine, Mushroom Bodies physiology, Drosophila melanogaster, Dopaminergic Neurons physiology, Smell physiology

Abstract

Dopaminergic neurons (DANs) drive associative learning to update the value of sensory cues, but their contribution to the assessment of sensory values outside the context of association remains largely unexplored. Here, we show in Drosophila that DANs in the mushroom body encode the innate value of odors and constantly update the current value by inducing plasticity during olfactory maneuver. Our connectome-based network model linking all the way from the olfactory neurons to DANs reproduces the characteristics of DAN responses, proposing a concrete circuit mechanism for computation. Downstream of DANs, odors alone induce value- and dopamine-dependent changes in the activity of mushroom body output neurons, which store the current value of odors. Consistent with this neural plasticity, specific sets of DANs bidirectionally modulate flies' steering in a virtual olfactory environment. Thus, the DAN circuit known for discrete, associative learning also continuously updates odor values in a nonassociative manner., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

15. Respective Involvement of the Right Cerebellar Crus I and II in Syntactic and Semantic Processing for Comprehension of Language.

Author

Nakatani H, Nakamura Y, and Okanoya K

Subjects

Humans, Magnetic Resonance Imaging methods, Language, Cerebellum diagnostic imaging, Brain Mapping, Semantics, Comprehension

Abstract

The right posterolateral portions of the cerebellum (crus-I/II) are involved in language processing. However, their functional role in language remains unknown. The cerebellum is hypothesized to acquire an internal model that is a functional copy of mental representations in the cerebrum and to contribute to cognitive function. In this research, based on the cerebellar internal model hypothesis, we conducted task-based and resting-state functional magnetic resonance imaging (fMRI) experiments to investigate the role of the cerebellum in the syntactic and semantic aspects of comprehension of sentences. In a syntactic task, participants read sentences with center-embedded hierarchical structures. The hierarchical level-dependent activity was found in the right crus-I as well as Broca's area (p < 0.05, voxel-based small volume correction (SVC)). In a semantic task, the participants read three types of sentences for investigation of sentence-level, phrase-level, and word-level semantic processing. The semantic level-dependent activity was found in the right crus-II as well as in the left anterior temporal lobe and the left angular gyrus (p < 0.05, voxel-based SVC). Moreover, the right crus-I/II showed significant activity when the cognitive load was high. Resting-state fMRI demonstrated intrinsic functional connectivity between the right crus-I/II and language-related regions in the left cerebrum (p < 0.05, voxel-based SVC). These findings suggest that the right crus-I and crus-II are involved, respectively, in the syntactic and semantic aspects of sentence processing. The cerebellum assists processing of language in the cerebrum when the cognitive load is high., (© 2022. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

16. Song-related brain auditory activity in Bengalese finches as examined by immediate early gene expressions: Comparison of arousal states and the correlational analyses between brain regions.

Author

Iizuka T, Mori C, and Okanoya K

Subjects

Animals, Genes, Immediate-Early, Vocalization, Animal physiology, Brain physiology, Arousal, Auditory Perception physiology, Acoustic Stimulation methods, Finches physiology

Abstract

Songbirds use auditory feedback to memorize a tutor song in juveniles and to maintain it in adults. In Bengalese finches, electrophysiological studies showed the auditory responses in the premotor area HVC remained active regardless of asleep/awake status, in contrast to auditory gating phenomenon identified in zebra finches. We investigated the correlations in auditory activity between the brain regions and differences in the activity during wakefulness and sleeping in Bengalese finches. We used the immediate early gene egr-1 as a marker of neural activity that can detect regions responding to auditory stimuli in the whole brain. Results showed that auditory response, as measured by egr-1 expression to the bird's own song while sleeping and awake, was similar in HVC and NCM. Higher activity during awake than sleep was found only in the lower auditory area MLd. Analyses showed egr-1 expressions between brain regions induced by the bird's own song playback in awake/sleep conditions, suggesting that auditory information correlated with the inter part, not the outer part, of MLd with the higher song-related regions. Furthermore, the sleep condition suppressed the spontaneous activity, but not the song-induced activity in Area X. Altogether, this study presents a new attempt to explore the auditory-motor network using a molecular tool to map neurons of the nearly whole brain., Competing Interests: Conflicts of Interest The authors declare they have no conflict of interest., (Copyright © 2023 Elsevier Ltd and Japan Neuroscience Society. All rights reserved.)

Published

2023

17. Algorithmic voice transformations reveal the phonological basis of language-familiarity effects in cross-cultural emotion judgments.

Author

Nakai T, Rachman L, Arias Sarah P, Okanoya K, and Aucouturier JJ

Subjects

Humans, Cross-Cultural Comparison, Judgment, Language, Emotions, Speech Perception, Voice

Abstract

People have a well-described advantage in identifying individuals and emotions in their own culture, a phenomenon also known as the other-race and language-familiarity effect. However, it is unclear whether native-language advantages arise from genuinely enhanced capacities to extract relevant cues in familiar speech or, more simply, from cultural differences in emotional expressions. Here, to rule out production differences, we use algorithmic voice transformations to create French and Japanese stimulus pairs that differed by exactly the same acoustical characteristics. In two cross-cultural experiments, participants performed better in their native language when categorizing vocal emotional cues and detecting non-emotional pitch changes. This advantage persisted over three types of stimulus degradation (jabberwocky, shuffled and reversed sentences), which disturbed semantics, syntax, and supra-segmental patterns, respectively. These results provide evidence that production differences are not the sole drivers of the language-familiarity effect in cross-cultural emotion perception. Listeners' unfamiliarity with the phonology of another language, rather than with its syntax or semantics, impairs the detection of pitch prosodic cues and, in turn, the recognition of expressive prosody., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Nakai et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

18. Synergistic effects of disgust and anger on amygdala activation while recalling memories of interpersonal stress: An fMRI study.

Author

Ozawa S, Nakatani H, Miyauchi CM, Hiraki K, and Okanoya K

Subjects

Humans, Magnetic Resonance Imaging methods, Mental Recall physiology, Amygdala diagnostic imaging, Anger, Emotions physiology, Memory, Episodic, Disgust

Abstract

Occurrence of an unpleasant interpersonal event in daily life may cause an individual to experience unpleasant emotions and recall memories regarding it. These emotions, manifesting in daily social interactions, are often complex and mixed. In the laboratory, autobiographical recall is frequently used to induce emotions; however, it often involves recalling memories associated with a specific discrete emotion (e.g., sadness). To examine the neural activity of emotions similar to real-life experiences, we examined neural activity while recalling memories of stressful interpersonal events in daily life, without specifying a discrete emotion. Of the 23 university students recruited, 21 were analyzed and asked to freely recall memories and answer a series of questions on a monitor concerning their recalled memories while their neural activity was measured with functional magnetic resonance imaging. Amygdala activity increased while receiving the instructions, followed by a decrease in activity. This indicates that the participants' arousal and vigilance initially increased in response to a novel stimulus, and then decreased by habituation. Disgust and anger, which frequently occur as negative interpersonal feelings, were most prominently produced with strong associations with each other. More importantly, activation of the right amygdala while responding to questions regarding the recalled memories was positively correlated with disgust or anger only when not controlling for anger or disgust, respectively. These results indicate that responding to questions facilitated the generation of a mixed emotional response compared to during free recall alone. Furthermore, disgust and anger as a mixed emotion can synergistically activate amygdala., Competing Interests: Conflict of interest The authors declare no conflict of interest with respect to authorship or the publication of this article., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

19. Nutrient infusion evoked magnetic resonance imaging signal in the human hypothalamus.

Author

Nakamura Y, Takahashi M, Inoue Y, Yanagimoto S, Okanoya K, and Koike S

Subjects

Male, Adult, Female, Humans, Young Adult, Emulsions, Magnetic Resonance Imaging methods, Nutrients, Hypothalamus metabolism, Glucose

Abstract

Background: The hypothalamus receives ingested nutrient information via ascending gut-related projections and plays a significant role in the regulation of food intake. Human neuroimaging studies have observed changes in the activity or connectivity of the hypothalamus in response to nutrient ingestion. However, previous neuroimaging studies have not yet assessed differences in temporal changes of hypothalamic responses to various nutrients in humans. Thus a repeated measures functional magnetic resonance imaging (fMRI) study using 30-min scans was designed to examine differences in hypothalamic responses to various nutrients., Methods: In this study, 18 healthy adults (mean age, 22.4 years; standard deviation, 4.8; age range, 19-39 years; 11 males and seven females) underwent fMRI sessions. On the day of each session, one of the four solutions (200 ml of monosodium glutamate, glucose, safflower oil emulsion, or saline) was administered to participants while fMRI scanning., Results: Infused amino acid and glucose, but not lipid emulsion, increased lateral hypothalamic responses as compared to a saline infusion ([ x , y , z ] = [4, -4, -10], z  = 2.96). In addition, only hypothalamic responses to saline, but not those to the infusion of other nutrients, elicited a subjective sensation of hunger., Conclusion: These findings suggest that lateral hypothalamic responses to ingested nutrients may mediate homeostatic sensations in humans.

Published

2022

20. Spontaneous variability predicts compensative motor response in vocal pitch control.

Author

Tachibana RO, Xu M, Hashimoto RI, Homae F, and Okanoya K

Subjects

Feedback, Acoustic Stimulation, Pitch Perception physiology, Feedback, Sensory physiology

Abstract

Our motor system uses sensory feedback to keep desired performance. From this view, motor fluctuation is not simply 'noise' inevitably caused in the nervous system but would play a role in generating variations to explore better outcomes via sensory feedback. Vocalization system offers a good model for studying such sensory-motor interactions since we regulate vocalization by hearing our own voice. This behavior is typically observed as compensatory responses in vocalized pitch, or fundamental frequency (f o ), when artificial f o shifts were induced in the auditory feedback. However, the relationship between adaptive regulation and motor exploration in vocalization has remained unclear. Here we investigated behavioral variability in spontaneous vocal f o and compensatory responses against f o shifts in the feedback, and demonstrated that larger spontaneous fluctuation correlates with greater compensation in vocal f o . This correlation was found in slow components (≤ 5 Hz) of the spontaneous fluctuation but not in fast components (between 6 and 30 Hz), and the slow one was amplified during the compensatory responses. Furthermore, the compensatory ratio was reduced when large f o shifts were applied to the auditory feedback, as if reflecting the range of motor exploration. All these findings consistently suggest the functional role of motor variability in the exploration of better vocal outcomes., (© 2022. The Author(s).)

Published

2022

21. Durations of preparatory motor activity in the avian basal ganglia for songs and calls in a species of songbirds.

Author

Umemoto S, Yanagihara S, and Okanoya K

Subjects

Animals, Basal Ganglia, Learning, Male, Motor Activity, Sparrows, Vocalization, Animal

Abstract

Male songbirds are highly motivated to sing undirected song (US) as juveniles during song learning, and as adults. Given that singing US is a self-driven, elaborated behavior, we would expect to see preparatory activity in the striatal area prior to vocalization, and this preparatory activity could have different characteristics compared to activity driven by calls. In general, songs are longer, complex and influenced by learning while calls are shorter, simpler, and less influenced by experience. The present study recorded neural activity in Area X, a nucleus of the basal ganglia, in male Java sparrows (Lonchura oryzivora) in a sound-proof box and analyzed differences in activity change before US and trill-calls. Trill-calls were often emitted in social arousal, but occasionally emitted when alone. We saw a gradual increase in firing rate for about 2.3 s prior to the onset of US, and a shorter increase of about 1.3 s in firing rate prior to the onset of trill-calls. The results reveal that initiating US may be influenced by a prolonged and specific activity increase in the extent that is not seen with trill-calls. Results suggest that direct or indirect projections to Area X, which may reflect motivational state, could be the cause of this activity change., (Copyright © 2022 Japan Neuroscience Society and Elsevier B.V. All rights reserved.)

Published

2022

22. The effect of acquisition duration on cerebral blood flow-based resting-state functional connectivity.

Author

Nakamura Y, Uematsu A, Okanoya K, and Koike S

Subjects

Brain physiology, Brain Mapping methods, Humans, Magnetic Resonance Imaging methods, Reproducibility of Results, Cerebrovascular Circulation physiology, Rest physiology

Abstract

Resting-state functional connectivity (rs-FC) is widely used to examine the functional architecture of the brain, and the blood-oxygenation-level-dependent (BOLD) signal is often utilized for determining rs-FC. However, the BOLD signal is susceptible to various factors that have less influence on the cerebral blood flow (CBF). Therefore, CBF could comprise an alternative for determining rs-FC. Since acquisition duration is one of the essential parameters for obtaining reliable rs-FC, we investigated the effect of acquisition duration on CBF-based rs-FC to examine the reliability of CBF-based rs-FC. Nineteen participants underwent CBF scanning for a total duration of 50 min. Variance of CBF-based rs-FC within the whole brain and 13 large-scale brain networks at various acquisition durations was compared to that with a 50-min duration using the Levene's test. Variance of CBF-based rs-FC at any durations did not differ from that at a 50-min duration (p > .05). Regarding variance of rs-FC within each large-scale brain network, the acquisition duration required to obtain reliable estimates of CBF-based rs-FC was shorter than 10 min and varied across large-scale brain networks. Altogether, an acquisition duration of at least 10 min is required to obtain reliable CBF-based rs-FC. These results indicate that CBF-based resting-state functional magnetic resonance imaging (rs-fMRI) with more than 10 min of total acquisition duration could be an alternative method to BOLD-based rs-fMRI to obtain reliable rs-FC., (© 2022 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published

2022

23. Application of a Machine Learning Algorithm for Structural Brain Images in Chronic Schizophrenia to Earlier Clinical Stages of Psychosis and Autism Spectrum Disorder: A Multiprotocol Imaging Dataset Study.

Author

Zhu Y, Nakatani H, Yassin W, Maikusa N, Okada N, Kunimatsu A, Abe O, Kuwabara H, Yamasue H, Kasai K, Okanoya K, and Koike S

Subjects

Brain diagnostic imaging, Brain pathology, Humans, Machine Learning, Magnetic Resonance Imaging, Autism Spectrum Disorder diagnostic imaging, Psychotic Disorders diagnostic imaging, Psychotic Disorders pathology, Schizophrenia diagnostic imaging, Schizophrenia pathology

Abstract

Background and Hypothesis: Machine learning approaches using structural magnetic resonance imaging (MRI) can be informative for disease classification; however, their applicability to earlier clinical stages of psychosis and other disease spectra is unknown. We evaluated whether a model differentiating patients with chronic schizophrenia (ChSZ) from healthy controls (HCs) could be applied to earlier clinical stages such as first-episode psychosis (FEP), ultra-high risk for psychosis (UHR), and autism spectrum disorders (ASDs)., Study Design: Total 359 T1-weighted MRI scans, including 154 individuals with schizophrenia spectrum (UHR, n = 37; FEP, n = 24; and ChSZ, n = 93), 64 with ASD, and 141 HCs, were obtained using three acquisition protocols. Of these, data regarding ChSZ (n = 75) and HC (n = 101) from two protocols were used to build a classifier (training dataset). The remainder was used to evaluate the classifier (test, independent confirmatory, and independent group datasets). Scanner and protocol effects were diminished using ComBat., Study Results: The accuracy of the classifier for the test and independent confirmatory datasets were 75% and 76%, respectively. The bilateral pallidum and inferior frontal gyrus pars triangularis strongly contributed to classifying ChSZ. Schizophrenia spectrum individuals were more likely to be classified as ChSZ compared to ASD (classification rate to ChSZ: UHR, 41%; FEP, 54%; ChSZ, 70%; ASD, 19%; HC, 21%)., Conclusion: We built a classifier from multiple protocol structural brain images applicable to independent samples from different clinical stages and spectra. The predictive information of the classifier could be useful for applying neuroimaging techniques to clinical differential diagnosis and predicting disease onset earlier., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Maryland Psychiatric Research Center.)

Published

2022

24. Song Preference in Female and Juvenile Songbirds: Proximate and Ultimate Questions.

Author

Fujii TG, Coulter A, Lawley KS, Prather JF, and Okanoya K

Abstract

Birdsong has long been a subject of extensive research in the fields of ethology as well as neuroscience. Neural and behavioral mechanisms underlying song acquisition and production in male songbirds are particularly well studied, mainly because birdsong shares some important features with human speech such as critical dependence on vocal learning. However, birdsong, like human speech, primarily functions as communication signals. The mechanisms of song perception and recognition should also be investigated to attain a deeper understanding of the nature of complex vocal signals. Although relatively less attention has been paid to song receivers compared to signalers, recent studies on female songbirds have begun to reveal the neural basis of song preference. Moreover, there are other studies of song preference in juvenile birds which suggest possible functions of preference in social context including the sensory phase of song learning. Understanding the behavioral and neural mechanisms underlying the formation, maintenance, expression, and alteration of such song preference in birds will potentially give insight into the mechanisms of speech communication in humans. To pursue this line of research, however, it is necessary to understand current methodological challenges in defining and measuring song preference. In addition, consideration of ultimate questions can also be important for laboratory researchers in designing experiments and interpreting results. Here we summarize the current understanding of song preference in female and juvenile songbirds in the context of Tinbergen's four questions, incorporating results ranging from ethological field research to the latest neuroscience findings. We also discuss problems and remaining questions in this field and suggest some possible solutions and future directions., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Fujii, Coulter, Lawley, Prather and Okanoya.)

Published

2022

25. Auditory and sexual preferences for a father's song can co-emerge in female Bengalese finches.

Author

Fujii TG and Okanoya K

Subjects

Animals, Fathers, Female, Humans, Male, Vocalization, Animal physiology, Finches physiology

Abstract

Birdsong is an important communication signal used in mate choice. In some songbird species, only the males produce songs. While the females of those species do not sing, they are sensitive to inter- and intra-species song variations, and the song preferences of females depend on their developmental experiences and/or genetic predispositions. For example, in Bengalese finches and zebra finches, adult females prefer the song to which they were exposed early in life, such as the father's song. In the current study, we aimed to test whether the preference for the father's song, as reported in previous Bengalese finch studies, can be interpreted as a mating preference. For this purpose, the subjects were raised exclusively with their family until they became sexually mature and then tested as adults. We measured copulation solicitation displays during playbacks of the father's song vs. unfamiliar conspecific songs and found that across individuals, the father's song elicited more displays than other songs. In addition, we analyzed if a bird's response to a given song could be predicted by the level of similarity of that song to the father's song. Although the birds expressed more displays to songs with greater similarity to the father's song, the effect was not statistically significant. These results suggest that female Bengalese finches can develop a strong mating preference for the father's song if they are exclusively exposed to the father's song early in life. However, it is not clear if such a preference generalizes to other cases in which birds are exposed to multiple male songs during development. In order to fully elucidate the possible contribution of experience and genetic factors in the development of female song preference in this species, future studies will need more detailed manipulation and control of the rearing conditions, including cross-fostering., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

26. Mismatch Responses Evoked by Sound Pattern Violation in the Songbird Forebrain Suggest Common Auditory Processing With Human.

Author

Mori C and Okanoya K

Abstract

Learning sound patterns in the natural auditory scene and detecting deviant patterns are adaptive behaviors that aid animals in predicting future events and behaving accordingly. Mismatch negativity (MMN) is a component of the event-related potential (ERP) that is reported in humans when they are exposed to unexpected or rare stimuli. MMN has been studied in several non-human animals using an oddball task by presenting deviant pure tones that were interspersed within a sequence of standard pure tones and comparing the neural responses. While accumulating evidence suggests the homology of non-human animal MMN-like responses (MMRs) and human MMN, it is still not clear whether the function and neural mechanisms of MMRs and MMN are comparable. The Java sparrow ( Lonchura oryzivora ) is a songbird that is a vocal learner, is highly social, and maintains communication with flock members using frequently repeated contact calls and song. We expect that the songbird is a potentially useful animal model that will broaden our understanding of the characterization of MMRs. Due to this, we chose this species to explore MMRs to the deviant sounds in the single sound oddball task using both pure tones and natural vocalizations. MMRs were measured in the caudomedial nidopallium (NCM), a higher-order auditory area. We recorded local field potentials under freely moving conditions. Significant differences were observed in the negative component between deviant and standard ERPs, both to pure tones and natural vocalizations in the oddball sequence. However, the subsequent experiments using the randomized standard sequence and regular pattern sequence suggest the possibility that MMR elicited in the oddball paradigm reflects the adaptation to a repeated standard sound but not the genuine deviance detection. Furthermore, we presented contact call triplet sequences and investigated MMR in the NCM in response to sound sequence order. We found a significant negative shift in response to a difference in sequence pattern. This demonstrates MMR elicited by violation of the pattern of the triplet sequence and the ability to extract sound sequence information in the songbird auditory forebrain. Our study sheds light on the electrophysiological properties of auditory sensory memory processing, expanding the scope of characterization of MMN-like responses beyond simple deviance detection, and provides a comparative perspective on syntax processing in human., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Mori and Okanoya.)

Published

2022

27. Oxytocin variation and brain region-specific gene expression in a domesticated avian species.

Author

Tobari Y, Theofanopoulou C, Mori C, Sato Y, Marutani M, Fujioka S, Konno N, Suzuki K, Furutani A, Hakataya S, Yao CT, Yang EY, Tsai CR, Tang PC, Chen CF, Boeckx C, Jarvis ED, and Okanoya K

Subjects

Animals, Brain, Gene Expression, Oxytocin genetics, Vocalization, Animal physiology, Finches genetics

Abstract

The Bengalese finch was domesticated more than 250 years ago from the wild white-rumped munia (WRM). Similar to other domesticated species, Bengalese finches show a reduced fear response and have lower corticosterone levels, compared to WRMs. Bengalese finches and munias also have different song types. Since oxytocin (OT) has been found to be involved in stress coping and auditory processing, we tested whether the OT sequence and brain expression pattern and content differ in wild munias and domesticated Bengalese finches. We sequenced the OT from 10 wild munias and 11 Bengalese finches and identified intra-strain variability in both the untranslated and protein-coding regions of the sequence, with all the latter giving rise to synonymous mutations. Several of these changes fall in specific transcription factor-binding sites, and show either a conserved or a relaxed evolutionary trend in the avian lineage, and in vertebrates in general. Although in situ hybridization in several hypothalamic nuclei did not reveal significant differences in the number of cells expressing OT between the two strains, real-time quantitative PCR showed a significantly higher OT mRNA expression in the cerebrum of the Bengalese finches relative to munias, but a significantly lower expression in their diencephalon. Our study thus points to a brain region-specific pattern of neurochemical expression in domesticated and wild avian strains, which could be linked to domestication and the behavioral changes associated with it., (© 2021 The Authors. Genes, Brain and Behavior published by International Behavioural and Neural Genetics Society and John Wiley & Sons Ltd.)

Published

2022

28. The naked truth: a comprehensive clarification and classification of current 'myths' in naked mole-rat biology.

Author

Buffenstein R, Amoroso V, Andziak B, Avdieiev S, Azpurua J, Barker AJ, Bennett NC, Brieño-Enríquez MA, Bronner GN, Coen C, Delaney MA, Dengler-Crish CM, Edrey YH, Faulkes CG, Frankel D, Friedlander G, Gibney PA, Gorbunova V, Hine C, Holmes MM, Jarvis JUM, Kawamura Y, Kutsukake N, Kenyon C, Khaled WT, Kikusui T, Kissil J, Lagestee S, Larson J, Lauer A, Lavrenchenko LA, Lee A, Levitt JB, Lewin GR, Lewis Hardell KN, Lin TD, Mason MJ, McCloskey D, McMahon M, Miura K, Mogi K, Narayan V, O'Connor TP, Okanoya K, O'Riain MJ, Park TJ, Place NJ, Podshivalova K, Pamenter ME, Pyott SJ, Reznick J, Ruby JG, Salmon AB, Santos-Sacchi J, Sarko DK, Seluanov A, Shepard A, Smith M, Storey KB, Tian X, Vice EN, Viltard M, Watarai A, Wywial E, Yamakawa M, Zemlemerova ED, Zions M, and Smith ESJ

Subjects

Animals, Biology, Longevity, Mole Rats

Abstract

The naked mole-rat (Heterocephalus glaber) has fascinated zoologists for at least half a century. It has also generated considerable biomedical interest not only because of its extraordinary longevity, but also because of unusual protective features (e.g. its tolerance of variable oxygen availability), which may be pertinent to several human disease states, including ischemia/reperfusion injury and neurodegeneration. A recent article entitled 'Surprisingly long survival of premature conclusions about naked mole-rat biology' described 28 'myths' which, those authors claimed, are a 'perpetuation of beautiful, but falsified, hypotheses' and impede our understanding of this enigmatic mammal. Here, we re-examine each of these 'myths' based on evidence published in the scientific literature. Following Braude et al., we argue that these 'myths' fall into four main categories: (i) 'myths' that would be better described as oversimplifications, some of which persist solely in the popular press; (ii) 'myths' that are based on incomplete understanding, where more evidence is clearly needed; (iii) 'myths' where the accumulation of evidence over the years has led to a revision in interpretation, but where there is no significant disagreement among scientists currently working in the field; (iv) 'myths' where there is a genuine difference in opinion among active researchers, based on alternative interpretations of the available evidence. The term 'myth' is particularly inappropriate when applied to competing, evidence-based hypotheses, which form part of the normal evolution of scientific knowledge. Here, we provide a comprehensive critical review of naked mole-rat biology and attempt to clarify some of these misconceptions., (© 2021 The Authors. Biological Reviews published by John Wiley & Sons Ltd on behalf of Cambridge Philosophical Society.)

Published

2022

29. Stimulus modality affects the accuracy of rhythm production in rats.

Author

Katsu N and Okanoya K

Subjects

Acoustic Stimulation, Animals, Photic Stimulation, Rats, Auditory Perception

Abstract

Vocal learning species such as humans and parrots show auditory dominance when they synchronize their actions to an external rhythm. However, whether non-vocal-learners show a specific modality dominance in a rhythmic task has scarcely been examined. We predicted that rats, who are nocturnal and known to rely on acoustic communication, would exhibit higher sensitivity to auditory rhythm compared to visual rhythm. We investigated whether performance of a synchronization task by rats differs based on stimulus modality. We trained five rats to press a lever in time to auditory-visual, isochronous stimuli presented at three different tempos. Rats showed a lower correct response rate when auditory stimuli were presented than when visual or auditory-visual stimuli were presented in the 0.5-s inter-onset interval condition. Neither the asynchrony with the stimulus onset, nor the variability of interval production differed significantly based on the stimulus modality. Therefore, contrary to the prediction, they did not show auditory dominance; rather, rats showed poor performance on the task when a visual stimulus was not present. These results are consistent with the gradual audio-motor evolution hypothesis, and suggest that rats share ability for rhythm production, but this might not necessarily depend on auditory modality., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2022

30. Measuring context dependency in birdsong using artificial neural networks.

Author

Morita T, Koda H, Okanoya K, and Tachibana RO

Subjects

Algorithms, Animals, Cluster Analysis, Computational Biology, Male, Memory physiology, Vocalization, Animal physiology, Finches physiology, Neural Networks, Computer, Vocalization, Animal classification

Abstract

Context dependency is a key feature in sequential structures of human language, which requires reference between words far apart in the produced sequence. Assessing how long the past context has an effect on the current status provides crucial information to understand the mechanism for complex sequential behaviors. Birdsongs serve as a representative model for studying the context dependency in sequential signals produced by non-human animals, while previous reports were upper-bounded by methodological limitations. Here, we newly estimated the context dependency in birdsongs in a more scalable way using a modern neural-network-based language model whose accessible context length is sufficiently long. The detected context dependency was beyond the order of traditional Markovian models of birdsong, but was consistent with previous experimental investigations. We also studied the relation between the assumed/auto-detected vocabulary size of birdsong (i.e., fine- vs. coarse-grained syllable classifications) and the context dependency. It turned out that the larger vocabulary (or the more fine-grained classification) is assumed, the shorter context dependency is detected., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

31. The structure of the superior and inferior parietal lobes predicts inter-individual suitability for virtual reality.

Author

Hosoda C, Futami K, Hosokawa K, Isogaya Y, Terada T, Maruya K, and Okanoya K

Subjects

Adolescent, Algorithms, Female, Humans, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Magnetic Resonance Imaging, Male, Parietal Lobe diagnostic imaging, Young Adult, Parietal Lobe anatomy & histology, Virtual Reality

Abstract

The global virtual reality (VR) market is significantly expanding and being challenged with an increased demand owing to COVID-19. Unfortunately, VR is not useful for everyone due to large interindividual variability existing in VR suitability. To understand the neurobiological basis of this variability, we obtained neural structural and functional data from the participants using 3T magnetic resonance imaging. The participants completed one of two tasks (sports training or cognitive task) using VR, which differed in the time scale (months/minutes) and domain (motor learning/attention task). Behavioral results showed that some participants improved their motor skills in the real world after 1-month training in the virtual space or obtained high scores in the 3D attention task (high suitability for VR), whereas others did not (low suitability for VR). Brain structure analysis revealed that the structural properties of the superior and inferior parietal lobes contain information that can predict an individual's suitability for VR., (© 2021. The Author(s).)

Published

2021

32. Effects of domestication on neophobia: A comparison between the domesticated Bengalese finch (Lonchura striata var. domestica) and its wild ancestor, the white-rumped munia (Lonchura striata).

Author

Suzuki K, Ikebuchi M, Kagawa H, Koike T, and Okanoya K

Subjects

Animals, Biological Evolution, Domestication, Species Specificity, Finches, Vocalization, Animal

Abstract

Bengalese finches (Lonchura striata var. domestica) have more complex song traits than their wild ancestors, white-rumped munias (Lonchura striata). Domesticated finches are likely able to allocate more resources to reproduction (e.g. singing) rather than to mechanisms intended for coping with predation, which are no longer needed under domesticated conditions. Here, we aimed to examine the effects of changes in selection pressure due to domestication on the behaviour of Bengalese finches and to contemplate the possible evolutionary mechanisms underlying these changes. To do so, we compared neophobic responses to novel-object conditions as an assessment of reactions to potential predators. We studied groups of Bengalese finches and white-rumped munias and found that Bengalese finches were more likely to eat the food provided to them under novel-object conditions. Bengalese finches had a shorter latency time to eat, and this latency time was less affected by the novel object in the case of Bengalese finches compared to white-rumped munias. Therefore, Bengalese finches have reduced neophobic responses due to domestication. The behavioural strategies of white-rumped munias appear to be more suitable for natural environments, which include unpredictable risks, whereas Bengalese finches have likely adapted their behaviour to the conditions of artificial selection., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

33. Domestication effects on aggressiveness: Comparison of biting motivation and bite force between wild and domesticated finches.

Author

Suzuki K and Okanoya K

Subjects

Aggression, Animals, Bite Force, Domestication, Humans, Motivation, Vocalization, Animal, Finches

Abstract

Domesticated animals evolve unique traits, known as the domestication phenotypes or the domestication syndrome, due to their adaptation to a captive environment and changes in selection pressures. After being tamed, the Bengalese finch (Lonchura striata var. domestica) has undergone behavioural and physiological trait changes that differ from those of its wild ancestor, the white-rumped munia (Lonchura striata). The Bengalese finch has complex songs, lower fear response, and lower corticosterone levels than those in the white-rumped munia. We hypothesised that domesticated finches would exert less effort to maintain survival fitness for wild conditions because they are no longer subjected to natural selection pressures. Instead, they have been artificially selected by humans. Bite performance, denoting aggression affects survival rates, and is an indicator of adaptability in the wild. Furthermore, aggression is important as a behavioural trait influenced by domestication. Therefore, we compared the aggressiveness and biting force of white-rumped munias with those of Bengalese finches to explore the evolutionary mechanisms of behavioural changes due to domestication. Bengalese finches had decreased bite motivation and force compared to white-rumped munias. Domestication may have reduced aggression in Bengalese finches by eliminating the need to cope with predators and because of artificial selection by humans., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

34. CA2 inhibition reduces the precision of hippocampal assembly reactivation.

Author

He H, Boehringer R, Huang AJY, Overton ETN, Polygalov D, Okanoya K, and McHugh TJ

Subjects

Animals, Mice, Neurons, Hippocampus physiology, Pyramidal Cells physiology

Abstract

The structured reactivation of hippocampal neuronal ensembles during fast synchronous oscillatory events, termed sharp-wave ripples (SWRs), has been suggested to play a crucial role in the storage and use of memory. Activity in both the CA2 and CA3 subregions can precede this population activity in CA1, and chronic inhibition of either region alters SWR oscillations. However, the precise contribution of CA2 to the oscillation, as well as to the reactivation of CA1 neurons within it, remains unclear. Here, we employ chemogenetics to transiently silence CA2 pyramidal cells in mice, and we observe that although SWRs still occur, the reactivation of CA1 pyramidal cell ensembles within the events lose both temporal and informational precision. These observations suggest that CA2 activity contributes to the fidelity of experience-dependent hippocampal replay., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

35. Neural correlates of vocal initiation in the VTA/SNc of juvenile male zebra finches.

Author

Yanagihara S, Ikebuchi M, Mori C, Tachibana RO, and Okanoya K

Subjects

Animals, Behavior, Animal, Electrophysiological Phenomena, Fluorescent Antibody Technique, Learning, Male, Finches physiology, Neurons physiology, Pars Compacta physiology, Ventral Tegmental Area physiology, Vocalization, Animal

Abstract

Initiation and execution of complex learned vocalizations such as human speech and birdsong depend on multiple brain circuits. In songbirds, neurons in the motor cortices and basal ganglia circuitry exhibit preparatory activity before initiation of song, and that activity is thought to play an important role in successful song performance. However, it remains unknown where a start signal for song is represented in the brain and how such a signal would lead to appropriate vocal initiation. To test whether neurons in the midbrain ventral tegmental area (VTA) and substantia nigra pars compacta (SNc) show activity related to song initiation, we carried out extracellular recordings of VTA/SNc single units in singing juvenile male zebra finches. We found that a subset of VTA/SNc units exhibit phasic activity precisely time-locked to the onset of the song bout, and that the activity occurred specifically at the beginning of song. These findings suggest that phasic activity in the VTA/SNc represents a start signal that triggers song vocalization., (© 2021. The Author(s).)

Published

2021

36. Comparison of traveling-subject and ComBat harmonization methods for assessing structural brain characteristics.

Author

Maikusa N, Zhu Y, Uematsu A, Yamashita A, Saotome K, Okada N, Kasai K, Okanoya K, Yamashita O, Tanaka SC, and Koike S

Subjects

Adult, Humans, Image Processing, Computer-Assisted instrumentation, Image Processing, Computer-Assisted standards, Brain anatomy & histology, Brain diagnostic imaging, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging instrumentation, Magnetic Resonance Imaging methods, Magnetic Resonance Imaging standards, Multicenter Studies as Topic instrumentation, Multicenter Studies as Topic methods, Multicenter Studies as Topic standards, Neuroimaging instrumentation, Neuroimaging methods, Neuroimaging standards

Abstract

Multisite magnetic resonance imaging (MRI) is increasingly used in clinical research and development. Measurement biases-caused by site differences in scanner/image-acquisition protocols-negatively influence the reliability and reproducibility of image-analysis methods. Harmonization can reduce bias and improve the reproducibility of multisite datasets. Herein, a traveling-subject (TS) dataset including 56 T1-weighted MRI scans of 20 healthy participants in three different MRI procedures-20, 19, and 17 subjects in Procedures 1, 2, and 3, respectively-was considered to compare the reproducibility of TS-GLM, ComBat, and TS-ComBat harmonization methods. The minimum participant count required for harmonization was determined, and the Cohen's d between different MRI procedures was evaluated as a measurement-bias indicator. The measurement-bias reduction realized with different methods was evaluated by comparing test-retest scans for 20 healthy participants. Moreover, the minimum subject count for harmonization was determined by comparing test-retest datasets. The results revealed that TS-GLM and TS-ComBat reduced measurement bias by up to 85 and 81.3%, respectively. Meanwhile, ComBat showed a reduction of only 59.0%. At least 6 TSs were required to harmonize data obtained from different MRI scanners, complying with the imaging protocol predetermined for multisite investigations and operated with similar scan parameters. The results indicate that TS-based harmonization outperforms ComBat for measurement-bias reduction and is optimal for MRI data in well-prepared multisite investigations. One drawback is the small sample size used, potentially limiting the applicability of ComBat. Investigation on the number of subjects needed for a large-scale study is an interesting future problem., (© 2021 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published

2021

37. Importance of Maternal Persistence in Young Children's Persistence.

Author

Imafuku M, Saito A, Hosokawa K, Okanoya K, and Hosoda C

Abstract

Persistence of a distant goal is an important personality trait that determines academic and social success. Recent studies have shown that individual differences in persistence involve both genetic and environmental factors; however, these studies have not examined the role of maternal factors on a young children's persistence. The present study examined whether mothers' persistence is associated with persistence in children aged 3-6 years. In addition, the associations between mothers' persistence/parenting style and children's self-control/social development (prosocial behaviors and difficulties) were examined. Our results showed that maternal persistence is essential for the child's persistence. Children's self-control and social development were also associated with the mothers' persistence and parenting style. Our findings suggest that a young child's persistence may develop under the influence of a familiar adult (i.e., mother) and characterizes their social development, highlighting the importance of persistence in parenting., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Imafuku, Saito, Hosokawa, Okanoya and Hosoda.)

Published

2021

38. Production of regular rhythm induced by external stimuli in rats.

Author

Katsu N, Yuki S, and Okanoya K

Subjects

Animals, Locomotion, Periodicity, Rats, Auditory Perception, Time Perception

Abstract

Rhythmic ability is important for locomotion, communication, and coordination between group members during the daily life of animals. We aimed to examine the rhythm perception and production abilities in rats within the range of a subsecond to a few seconds. We trained rats to respond to audio-visual stimuli presented in regular, isochronous rhythms at six time-intervals (0.5-2 s). Five out of six rats successfully learned to respond to the sequential stimuli. All subjects showed periodic actions. The actions to regular stimuli were faster than randomly presented stimuli in the medium-tempo conditions. In slower and faster tempo conditions, the actions of some subjects were not periodic or phase-matched to the stimuli. The asynchrony regarding the stimulus onset became larger or smaller when the last stimulus of the sequence was presented at deviated timings. Thus, the actions of the rats were tempo matched to the regular rhythm, but not completely anticipative. We also compared the extent of phase-matching and variability of rhythm production among the interval conditions. In interval conditions longer than 1.5 s, variability tended to be larger. In conclusion, rats showed a tempo matching ability to regular rhythms to a certain degree, but maintenance of a constant tempo to slower rhythm conditions was difficult. Our findings suggest that non-vocal learning mammals have the potential to produce flexible rhythms in subsecond timing., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

39. Impact of endogenous melatonin on rhythmic behaviors, reproduction, and survival revealed in melatonin-proficient C57BL/6J congenic mice.

Author

Zhang C, Clough SJ, Adamah-Biassi EB, Sveinsson MH, Hutchinson AJ, Miura I, Furuse T, Wakana S, Matsumoto YK, Okanoya K, Hudson RL, Kato T, Dubocovich ML, and Kasahara T

Subjects

Animals, Circadian Rhythm physiology, Mice, Mice, Congenic, Mice, Inbred C57BL, Reproduction, Melatonin metabolism, Pineal Gland metabolism

Abstract

The hormone melatonin is synthesized from serotonin by two enzymatic reactions (AANAT and ASMT/HIOMT) in the pineal gland following a circadian rhythm with low levels during the day and high levels at night. The robust nightly peak of melatonin secretion is an output signal of the circadian clock to the whole organism. However, so far the regulatory roles of endogenous melatonin in mammalian biological rhythms and physiology processes are poorly understood. Here, we establish congenic mouse lines (>N10 generations) that are proficient or deficient in melatonin synthesis (AH+/+ or AH-/- mice, respectively) on the C57BL/6J genetic background by crossing melatonin-proficient MSM/Ms with C57BL/6J. AH+/+ mice displayed robust nightly peak of melatonin secretion and had significantly higher levels of pineal and plasma melatonin vs AH-/- mice. Using this mice model, we investigated the role of endogenous melatonin in regulating multiple biological rhythms, physiological processes, and rhythmic behaviors. In the melatonin-proficient (AH+/+) mice, the rate of re-entrainment of wheel-running activity was accelerated following a 6-hour phase advance of dark onset when comparted with AH-/- mice, suggesting a role of endogenous melatonin in facilitating clock adjustment. Further in the AH+/+ mice, there was a significant decrease in body weight, gonadal weight and reproductive performance, and a significant increase in daily torpor (a hypothermic and hypometabolic state lasting only hours during adverse conditions). Endogenous melatonin, however, had no effect in the modulation of the diurnal rhythm of 2-[ 125 I]-iodomelatonin receptor expression in the SCN, free-running wheel behavior in constant darkness, life span, spontaneous homecage behaviors, and various types of social-emotional behaviors. The findings also shed light on the role of endogenous melatonin in mice domestication and provide new insights into melatonin's action in reducing energy expenditure during a food shortage. In summary, the congenic mice model generated in this study offers a significant advantage toward understanding of the role of endogenous melatonin in regulating melatonin receptor-mediated rhythm behaviors and physiological functions., (© 2021 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2021

40. Switching perception of musical meters by listening to different acoustic cues of biphasic sound stimulus.

Author

Kondoh S, Okanoya K, and Tachibana RO

Subjects

Female, Humans, Male, Young Adult, Acoustic Stimulation, Cues, Music, Pitch Perception physiology, Sound

Abstract

Meter is one of the core features of music perception. It is the cognitive grouping of regular sound sequences, typically for every 2, 3, or 4 beats. Previous studies have suggested that one can not only passively perceive the meter from acoustic cues such as loudness, pitch, and duration of sound elements, but also actively perceive it by paying attention to isochronous sound events without any acoustic cues. Studying the interaction of top-down and bottom-up processing in meter perception leads to understanding the cognitive system's ability to perceive the entire structure of music. The present study aimed to demonstrate that meter perception requires the top-down process (which maintains and switches attention between cues) as well as the bottom-up process for discriminating acoustic cues. We created a "biphasic" sound stimulus, which consists of successive tone sequences designed to provide cues for both the triple and quadruple meters in different sound attributes, frequency, and duration. Participants were asked to focus on either frequency or duration of the stimulus, and to answer how they perceived meters on a five-point scale (ranged from "strongly triple" to "strongly quadruple"). As a result, we found that participants perceived different meters by switching their attention to specific cues. This result adds evidence to the idea that meter perception involves the interaction between top-down and bottom-up processes., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

41. Capturing the Effects of Domestication on Vocal Learning Complexity: (Trends in Cognitive Sciences 25, 462-474; 2021).

Author

O'Rourke T, Martins PT, Asano R, Tachibana RO, Okanoya K, and Boeckx C

Published

2021

42. Sex differences in the development and expression of a preference for familiar vocal signals in songbirds.

Author

Fujii TG, Ikebuchi M, and Okanoya K

Subjects

Animals, Female, Learning, Male, Finches physiology, Mating Preference, Animal, Memory, Sex Characteristics, Vocalization, Animal

Abstract

Production and perception of birdsong critically depends on early developmental experience. In species where singing is a sexually dimorphic trait, early life song experience may affect later behavior differently between sexes. It is known that both male and female songbirds acquire a life-long memory of early song experience, though its function remains unclear. In this study, we hypothesized that male and female birds express a preference for their fathers' song, but do so differently depending on the developmental stage. We measured preference for their father's song over an unfamiliar one in both male and female Bengalese finches at multiple time points across ontogeny, using phonotaxis and vocal response as indices of preference. We found that in males, selective approach to their father's song decreased as they developed while in females, it remained stable regardless of age. This may correspond to a higher sensitivity to tutor song in young males while they are learning and a retained sensitivity in females because song is a courtship signal that is used throughout life. In addition, throughout development, males vocalized less frequently during presentation of their father's song compared to unfamiliar song, whereas females emitted more calls to their father's song. These findings contribute to a deeper understanding of why songbirds acquire and maintain such a robust song memory., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

43. Fast Retrograde Access to Projection Neuron Circuits Underlying Vocal Learning in Songbirds.

Author

Düring DN, Dittrich F, Rocha MD, Tachibana RO, Mori C, Okanoya K, Boehringer R, Ehret B, Grewe BF, Gerber S, Ma S, Rauch M, Paterna JC, Kasper R, Gahr M, and Hahnloser RHR

Subjects

Animals, Mice, Songbirds, Neurons physiology, Vocalization, Animal physiology

Abstract

Understanding the structure and function of neural circuits underlying speech and language is a vital step toward better treatments for diseases of these systems. Songbirds, among the few animal orders that share with humans the ability to learn vocalizations from a conspecific, have provided many insights into the neural mechanisms of vocal development. However, research into vocal learning circuits has been hindered by a lack of tools for rapid genetic targeting of specific neuron populations to meet the quick pace of developmental learning. Here, we present a viral tool that enables fast and efficient retrograde access to projection neuron populations. In zebra finches, Bengalese finches, canaries, and mice, we demonstrate fast retrograde labeling of cortical or dopaminergic neurons. We further demonstrate the suitability of our construct for detailed morphological analysis, for in vivo imaging of calcium activity, and for multi-color brainbow labeling., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2020

44. Variation in auditory neural activation in response to strain-specific songs in wild and domesticated female Bengalese finches.

Author

Kagawa H, Kato Y, Suzuki K, Kato M, and Okanoya K

Subjects

Animals, Auditory Cortex, Female, Male, Neurons physiology, Species Specificity, Auditory Perception physiology, Finches physiology, Vocalization, Animal physiology

Abstract

Female songbirds identify and prefer conspecific male songs. Songs are an important cue for species discrimination. Bengalese finches are domesticated species and their male songs seem to have evolved as they comprise more complex sequences and tonal sounds than the songs of their wild ancestors, white-rumped munias. Previous research suggested that the degeneration of song functionality for species identification may have been one of the factors that promoted the evolution of song complexity in domestic strains. We hypothesized that female responses to conspecific songs have changed between the two strains: white-rumped munias could distinguish songs of their own species more readily than Bengalese finches. Because the song discrimination is affected by developmental experiences, we used adult female Bengalese finches and white-rumped munias reared with or without exposure to songs of their own strains (i.e., socially-reared or untutored). To evaluate their song discrimination, we quantified zenk-labeled cells in the auditory areas after exposure to song stimuli, either with songs of own strains or those of other strains. Socially-reared white-rumped munias exposed to songs of Bengalese finches showed lesser zenk expression than munias exposed to songs of their own strain. However, there were no significant differences among the groups in Bengalese finches. The result suggests that white-rumped munias could distinguish songs of their own species more strictly than Bengalese finches., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

45. Differences in Functional Connectivity Networks Related to the Midbrain Dopaminergic System-Related Area in Various Psychiatric Disorders.

Author

Nakamura Y, Okada N, Koshiyama D, Kamiya K, Abe O, Kunimatsu A, Okanoya K, Kasai K, and Koike S

Abstract

Objective: Disruptions in the dopamine system have been observed in psychiatric disorders. Since dopamine is mainly produced in the ventral tegmental area (VTA), elucidating the differences in the VTA neural network across psychiatric disorders would facilitate a greater understanding of the pathophysiological mechanisms underlying these disorders. However, no study has compared VTA-seed-based functional connectivity across psychiatric disorders. Therefore, we conducted a resting-state functional magnetic resonance imaging (rs-fMRI) study to perform a seed-based fMRI analysis, using the VTA as a seed., Methods: We included participants with major depressive disorder (MDD; n = 45), schizophrenia (n = 32), and bipolar disorder (BPD; n = 30), along with healthy control participants (n = 46) who were matched for age, gender, and handedness., Results: The results showed that patients with MDD and BPD had altered VTA-related connectivity in the superior frontal gyrus, frontal pole regions, hippocampus, cerebellum, and posterior cingulate cortex. Some of these differences in connectivity were also found between affective disorders and schizophrenia; however, there were no differences between the schizophrenia and control groups. Connectivity between the VTA and the hippocampus was correlated with positive symptoms in the schizophrenia group. The connectivity was not associated with medication dose, and the results remained significant after controlling for dose., Conclusions: The results suggest that altered brain functional connectivity related to VTA networks could be associated with the distinctive pathophysiologies of psychiatric disorders, especially affective disorders., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Maryland Psychiatric Research Center. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2020

46. Trait Respect Is Linked to Reduced Gray Matter Volume in the Anterior Temporal Lobe.

Author

Nakatani H, Nonaka Y, Muto S, Asano M, Fujimura T, Nakai T, and Okanoya K

Abstract

Respect is a positive other-oriented social emotion upon the recognition of excellence in others. We previously reported that respect-related brain activity in the left anterior temporal lobe (ATL). Since brain activity and structure are often involved in common cognitive functions, we investigated the morphological properties of the left ATL using voxel-based morphometry analysis. We found an association of trait respect with reduced gray matter volume (GMV) in part of the left ATL. Moreover, since the ATL is involved in general conceptual knowledge, we investigated the relationships between other social emotions with similar properties as respect and the GMV of the left ATL. We observed an association of reduced GMV with empathic concern, which is an other-oriented and affective aspect of trait empathy. Our findings indicated an association of the left ATL with other-oriented and affective aspect of social emotions., (Copyright © 2020 Nakatani, Nonaka, Muto, Asano, Fujimura, Nakai and Okanoya.)

Published

2020

47. Arousal State-Dependent Alterations in Neural Activity in the Zebra Finch VTA/SNc.

Author

Yanagihara S, Ikebuchi M, Mori C, Tachibana RO, and Okanoya K

Abstract

Sleep-wake behaviors are important for survival and highly conserved among animal species. A growing body of evidence indicates that the midbrain dopaminergic system is associated with sleep-wake regulation in mammals. Songbirds exhibit mammalian-like sleep structures, and neurons in the midbrain ventral tegmental area (VTA) and substantia nigra pars compacta (SNc) possess physiological properties similar to those in mammals. However, it remains uncertain whether the neurons in the songbird VTA/SNc are associated with sleep-wake regulation. Here, we show that VTA/SNc neurons in zebra finches exhibit arousal state-dependent alterations in spontaneous neural activity. By recording extracellular single-unit activity from anesthetized or freely behaving zebra finches, we found that VTA/SNc neurons exhibited increased firing rates during wakefulness, and the same population of neurons displayed reduced firing rates during anesthesia and slow-wave sleep. These results suggest that the songbird VTA/SNc is associated with the regulation of sleep and wakefulness along with other arousal regulatory systems. These findings raise the possibility that fundamental neural mechanisms of sleep-wake behaviors are evolutionarily conserved between birds and mammals., (Copyright © 2020 Yanagihara, Ikebuchi, Mori, Tachibana and Okanoya.)

Published

2020

48. Unconscious and Distinctive Control of Vocal Pitch and Timbre During Altered Auditory Feedback.

Author

Xu M, Tachibana RO, Okanoya K, Hagiwara H, Hashimoto RI, and Homae F

Abstract

Vocal control plays a critical role in smooth social communication. Speakers constantly monitor auditory feedback (AF) and make adjustments when their voices deviate from their intentions. Previous studies have shown that when certain acoustic features of the AF are artificially altered, speakers compensate for this alteration in the opposite direction. However, little is known about how the vocal control system implements compensations for alterations of different acoustic features, and associates them with subjective consciousness. The present study investigated whether compensations for the fundamental frequency (F0), which corresponds to perceived pitch, and formants, which contribute to perceived timbre, can be performed unconsciously and independently. Forty native Japanese speakers received two types of altered AF during vowel production that involved shifts of either only the formant frequencies (formant modification; Fm) or both the pitch and formant frequencies (pitch + formant modification; PFm). For each type, three levels of shift (slight, medium, and severe) in both directions (increase or decrease) were used. After the experiment, participants were tested for whether they had perceived a change in the F0 and/or formants. The results showed that (i) only formants were compensated for in the Fm condition, while both the F0 and formants were compensated for in the PFm condition; (ii) the F0 compensation exhibited greater precision than the formant compensation in PFm; and (iii) compensation occurred even when participants misperceived or could not explicitly perceive the alteration in AF. These findings indicate that non-experts can compensate for both formant and F0 modifications in the AF during vocal production, even when the modifications are not explicitly or correctly perceived, which provides further evidence for a dissociation between conscious perception and action in vocal control. We propose that such unconscious control of voice production may enhance rapid adaptation to changing speech environments and facilitate mutual communication., (Copyright © 2020 Xu, Tachibana, Okanoya, Hagiwara, Hashimoto and Homae.)

Published

2020

49. Do songbirds hear songs syllable by syllable?

Author

Mizuhara T and Okanoya K

Subjects

Acoustic Stimulation, Animals, Female, Male, Sound Spectrography, Time Factors, Vocalization, Animal, Auditory Perception, Conditioning, Operant, Finches

Abstract

Songbirds as vocal learners have been one of the most popular model species to investigate the biological prerequisite to human language. Their songs consist of syllables, which appear as pulse trains in sound spectrograms. When describing the song sequence, researchers consider the syllable to be the unit of the song. Moreover, artificial grammar learning studies asking whether songbirds recognize structural regularities observed in human language often design stimuli using song syllables as components. However, whether syllables are perceptual units is yet to be determined. We found that Bengalese finches, a species of songbird, responded significantly less to one specific syllable when it was temporally placed close to the preceding syllable. The proximity, or silent interval was within the range of what is produced in the natural songs of both Bengalese and zebra finches, and what has been used in other artificial grammar learning studies using zebra finches. Our results suggest the need for a reinterpretation of the description of birdsong structure and of previous artificial grammar learning studies., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

50. Different Reactions of Zebra Finches and Bengalese Finches to a Three-Component Mixture of Anesthetics.

Author

Ikebuchi M, Okanoya K, and Bischof HJ

Subjects

Adrenergic alpha-2 Receptor Agonists administration & dosage, Adrenergic alpha-2 Receptor Antagonists administration & dosage, Analgesics, Opioid administration & dosage, Animals, Female, Finches, Hypnotics and Sedatives administration & dosage, Imidazoles administration & dosage, Injections, Intramuscular, Ketamine administration & dosage, Male, Medetomidine antagonists & inhibitors, Xylazine administration & dosage, Adrenergic alpha-2 Receptor Antagonists pharmacology, Anesthetics, Combined administration & dosage, Butorphanol administration & dosage, Imidazoles pharmacology, Medetomidine administration & dosage, Midazolam administration & dosage

Abstract

Kawai et al. (2011) recently introduced a mixture of three anesthetic agents (here called MMB) that has an effect similar to ketamine/xylazine in mice, which might allow more effective reaction to changes in the animal condition, as an antagonist is available, and which can be used without license for handling narcotic drugs. Using Kawai's study as a baseline, we tested whether this anesthesia and its antagonist can also be used in avian studies. In the present study, we used two species, the zebra finch and the Bengalese finch, of the avian family Estrildidae. In zebra finches, anesthesia effects similar to the use of ketamine/xylazine and to those obtained in mice can be reached by the use of MMB if a higher dose is applied. MMB leads to more variable anesthesia, but has the advantage of a longer time window of deep anesthesia. An antagonist to one component of MMB reduced the awaking time, but was not as effective as in mice. For Bengalese finches, MMB cannot be generally recommended because of difficult handling and high mortality rate when used without antagonist, but could be used for perfusions instead of pentobarbital.

Published

2020