Your search keyword '"Behavioral Neuroscience"' showing total 217,266 results

201. Immediate responses to ambient light in vivo reveal distinct subpopulations of suprachiasmatic VIP neurons

Author

Anat Kahan, Karan Mahe, Sayan Dutta, Pegah Kassraian, Alexander Wang, and Viviana Gradinaru

Subjects

Biological sciences, Neuroscience, Behavioral neuroscience, Science

Abstract

Summary: The circadian rhythm pacemaker, the suprachiasmatic nucleus (SCN), mediates light entrainment via vasoactive intestinal peptide (VIP) neurons (SCNVIP). Yet, how these neurons uniquely respond and connect to intrinsically photosensitive retinal ganglion cells (ipRGCs) expressing melanopsin (Opn4) has not been determined functionally in freely behaving animals. To address this, we first used monosynaptic tracing from SCNVIP neurons in mice and identified two SCNVIP subpopulations. Second, we recorded calcium changes in response to ambient light, at both bulk and single-cell levels, and found two unique activity patterns in response to high- and low-intensity blue light. The activity patterns of both subpopulations could be manipulated by application of an Opn4 antagonist. These results suggest that the two SCNVIP subpopulations connect to two types of Opn4-expressing ipRGCs, likely M1 and M2, but only one is responsive to red light. These findings have important implications for our basic understanding of non–image-forming circadian light processing.

Published

2023

202. Inhibitory temporo-parietal effective connectivity is associated with explicit memory performance in older adults

Author

Björn H. Schott, Joram Soch, Jasmin M. Kizilirmak, Hartmut Schütze, Anne Assmann, Anne Maass, Gabriel Ziegler, Magdalena Sauvage, and Anni Richter

Subjects

Behavioral neuroscience, Cognitive neuroscience, Neuroscience, Techniques in neuroscience, Science

Abstract

Summary: Successful explicit memory encoding is associated with inferior temporal activations and medial parietal deactivations, which are attenuated in aging. Here we used dynamic causal modeling (DCM) of functional magnetic resonance imaging data to elucidate effective connectivity patterns between hippocampus, parahippocampal place area (PPA), and precuneus during encoding of novel visual scenes. In 117 young adults, DCM revealed pronounced activating input from the PPA to the hippocampus and inhibitory connectivity from the PPA to the precuneus during novelty processing, with both being enhanced during successful encoding. This pattern could be replicated in two cohorts (N = 141 and 148) of young and older adults. In both cohorts, older adults selectively exhibited attenuated inhibitory PPA-precuneus connectivity, which correlated negatively with memory performance. Our results provide insight into the network dynamics underlying explicit memory encoding and suggest that age-related differences in memory-related network activity are, at least partly, attributable to altered temporo-parietal neocortical connectivity.

Published

2023

203. Short-term auditory priming in freely-moving mice

Author

Shir Sivroni, Hadas E. Sloin, and Eran Stark

Subjects

Behavioral neuroscience, Sensory neuroscience, Science

Abstract

Summary: Priming, a change in the mental processing of a stimulus as a result of prior encounter with a related stimulus, has been observed repeatedly and studied extensively in humans. Yet currently, there is no behavioral model of short-term priming in lab animals, precluding research on the neurobiological basis of priming. Here, we describe an auditory discrimination paradigm for studying response priming in freely moving mice. We find a priming effect in success rate in all mice tested on the task. In contrast, we do not find a priming effect in response times. Compared to non-primed discrimination trials, the addition of incongruent prime stimuli reduces success rate more than congruent prime stimuli, suggesting a cognitive mechanism based on differential interference. The results establish the short-term priming phenomenon in rodents, and the paradigm opens the door to studying the cellular-network basis of priming.

Published

2023

204. Decoding hand kinetics and kinematics using somatosensory cortex activity in active and passive movement

Author

Alavie Mirfathollahi, Mohammad Taghi Ghodrati, Vahid Shalchyan, Mohammad Reza Zarrindast, and Mohammad Reza Daliri

Subjects

Kinematics, Behavioral neuroscience, Sensory neuroscience, Science

Abstract

Summary: Area 2 of the primary somatosensory cortex (S1), encodes proprioceptive information of limbs. Several studies investigated the encoding of movement parameters in this area. However, the single-trial decoding of these parameters, which can provide additional knowledge about the amount of information available in sub-regions of this area about instantaneous limb movement, has not been well investigated. We decoded kinematic and kinetic parameters of active and passive hand movement during center-out task using conventional and state-based decoders. Our results show that this area can be used to accurately decode position, velocity, force, moment, and joint angles of hand. Kinematics had higher accuracies compared to kinetics and active trials were decoded more accurately than passive trials. Although the state-based decoder outperformed the conventional decoder in the active task, it was the opposite in the passive task. These results can be used in intracortical micro-stimulation procedures to provide proprioceptive feedback to BCI subjects.

Published

2023

205. Highly sensitive visual restoration and protection via ectopic expression of chimeric rhodopsin in mice

Author

Yusaku Katada, Kazuho Yoshida, Naho Serizawa, Deokho Lee, Kenta Kobayashi, Kazuno Negishi, Hideyuki Okano, Hideki Kandori, Kazuo Tsubota, and Toshihide Kurihara

Subjects

Neurology, Behavioral neuroscience, Molecular neuroscience, Science

Abstract

Summary: Photoreception requires amplification by mammalian rhodopsin through G protein activation, which requires a visual cycle. To achieve this in retinal gene therapy, we incorporated human rhodopsin cytoplasmic loops into Gloeobacter rhodopsin, thereby generating Gloeobacter and human chimeric rhodopsin (GHCR). In a murine model of inherited retinal degeneration, we induced retinal GHCR expression by intravitreal injection of a recombinant adeno-associated virus vector. Retinal explant and visual thalamus electrophysiological recordings, behavioral tests, and histological analysis showed that GHCR restored dim-environment vision and prevented the progression of retinal degeneration. Thus, GHCR may be a potent clinical tool for the treatment of retinal disorders.

Published

2023

206. Playing with your ears: Audio-motor skill learning is sensitive to the lateral relationship between trained hand and ear

Author

Hadar Dery, Batel Buaron, Roni Mazinter, Shalev Lavi, and Roy Mukamel

Subjects

Behavioral neuroscience, Sensory neuroscience, Cognitive neuroscience, Science

Abstract

Summary: A salient feature of motor and sensory circuits in the brain is their contralateral hemispheric bias—a feature that might play a role in integration and learning of sensorimotor skills. In the current behavioral study, we examined whether the lateral configuration between sound-producing hand and feedback-receiving ear affects performance and learning of an audio-motor skill. Right-handed participants (n = 117) trained to play a piano sequence using their right or left hand while auditory feedback was presented monaurally, either to the right or left ear. Participants receiving auditory feedback to the contralateral ear during training performed better than participants receiving ipsilateral feedback (with respect to the training hand). Furthermore, in the Left-Hand training groups, the contralateral training advantage persisted in a generalization task. Our results demonstrate that audio-motor learning is sensitive to the lateral configuration between motor and sensory circuits and suggest that integration of neural activity across hemispheres facilitates such learning.

Published

2023

207. Editorial: Decision neuroscience of attention

Author

Soo Hong Chew, Richard P. Ebstein, Serenella Tolomeo, and Yuan Zhou

Subjects

attention mechanisms, behavioral neuroscience, bottom-up processes, goal-directed decision making, neuromodulators, salience network, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2023

208. Mate copying requires the coincidence detector Rutabaga in the mushroom bodies of Drosophila melanogaster

Author

Sabine Nöbel, Etienne Danchin, and Guillaume Isabel

Subjects

Biological sciences, Neurogenetics, Neuroscience, Behavioral neuroscience, Science

Abstract

Summary: Mate choice constitutes a major fitness-affecting decision often involving social learning leading to copying the preference of other individuals (i.e., mate copying). While mate copying exists in many taxa, its underlying neurobiological mechanisms remain virtually unknown. Here, we show in Drosophila melanogaster that the rutabaga gene is necessary to support mate copying. Rutabaga encodes an adenylyl cyclase (AC-Rut+) acting as a coincidence detector in associative learning. Since the brain localization requirements for AC-Rut+ expression differ in classical and operant learning, we determine the functional localization of AC-Rut+ for mate copying by artificially rescuing the expression of AC-Rut+ in neural subsets of a rutabaga mutant. We found that AC-Rut+ has to be expressed in the mushroom bodies’ Kenyon cells (KCs), specifically in the γ-KCs subset. Thus, this form of discriminative social learning requires the same KCs as non-social Pavlovian learning, suggesting that pathways of social and asocial learning overlap significantly.

Published

2023

209. Fearful snake pictures make monkeys pessimistic

Author

Sakumi Iki and Ikuma Adachi

Subjects

Natural sciences, Biological sciences, Behavioral neuroscience, Science

Abstract

Summary: Judgment bias is the cognitive tendency of animals experiencing negative (or positive) affect to expect undesirable (or favorable) outcomes in ambiguous situations. The lack of examination of judgment biases induced by ecologically relevant stimuli hampers our understanding of the adaptive role of these biases. We examined whether predator-related stimuli, i.e., pictures of snakes, induce a pessimistic judgment bias in Japanese macaques (Macaca fuscata). Our subjects underwent a touchscreen-based Go/No-go judgment bias test. We found that the subjects were less likely and slower to make Go responses to ambiguous stimuli after viewing the snake pictures, indicating that pictures of snakes induce a pessimistic evaluation of ambiguous stimuli. In environments with high levels of threat, behavioral strategies that reduce risk-taking would be evolutionarily advantageous. Hence, an affective response system that lowers expectations of favorable outcomes in ambiguous situations after encountering threat-related stimuli would serve adaptive purposes, such as curbing excessive exploratory behavior.

Published

2023

210. In vivo spontaneous activity and coital-evoked inhibition of mouse accessory olfactory bulb output neurons

Author

Paolo Lorenzon, Kamil Antos, Anushree Tripathi, Viktoria Vedin, Anna Berghard, and Paolo Medini

Subjects

Neuroscience, Behavioral neuroscience, Sensory neuroscience, Cell biology, Science

Abstract

Summary: Little is known about estrous effects on brain microcircuits. We examined the accessory olfactory bulb (AOB) in vivo, in anesthetized naturally cycling females, as model microcircuit receiving coital somatosensory information. Whole-cell recordings demonstrate that output neurons are relatively hyperpolarized in estrus and unexpectedly fire high frequency bursts of action potentials. To mimic coitus, a calibrated artificial vagino-cervical stimulation (aVCS) protocol was devised. aVCS evoked stimulus-locked local field responses in the interneuron layer independent of estrous stage. The response is sensitive to α1-adrenergic receptor blockade, as expected since aVCS increases norepinephrine release in AOB. Intriguingly, only in estrus does aVCS inhibit AOB spike output. Estrus-specific output reduction coincides with prolonged aVCS activation of inhibitory interneurons. Accordingly, in estrus the AOB microcircuit sets the stage for coital stimulation to inhibit the output neurons, possibly via high frequency bursting-dependent enhancement of reciprocal synapse efficacy between inter- and output neurons.

Published

2023

211. P2X7 purinergic receptor modulates dentate gyrus excitatory neurotransmission and alleviates schizophrenia-like symptoms in mouse

Author

Lumei Huang, Paula Mut-Arbona, Bernadett Varga, Bibiana Török, János Brunner, Antonia Arszovszki, András Iring, Máté Kisfali, E. Sylvester Vizi, and Beáta Sperlágh

Subjects

Pharmacology, Natural sciences, Biological sciences, Physiology, Neuroscience, Behavioral neuroscience, Science

Abstract

Summary: ATP-gated P2X7 receptors (P2X7Rs) play a crucial role in brain disorders. However, how they affect normal and pathological synaptic transmission is still largely unclear. Here, by using whole-cell patch-clamp technique to record AMPA- and NMDA receptor-mediated excitatory postsynaptic currents (s/mEPSCs) in dentate gyrus granule cells (DG GCs), we revealed a modulation by P2X7Rs of presynaptic sites, especially originated from entorhinal cortex (EC)-GC path but not the mossy cell (MC)-GC path. The involvement of P2X7Rs was confirmed using a pharmacological approach. Additionally, the acute activation of P2X7Rs directly elevated calcium influx from EC-GC terminals. In postnatal phencyclidine (PCP)-induced mouse model of schizophrenia, we observed that P2X7R deficiency restored the EC-GC synapse alteration and alleviated PCP-induced symptoms. To summarize, P2X7Rs participate in the modulation of GC excitatory neurotransmission in the DG via EC-GC pathway, contributing to pathological alterations of neuronal functions leading to neurodevelopmental disorders.

Published

2023

212. Task-specific oscillatory synchronization of prefrontal cortex, nucleus reuniens, and hippocampus during working memory

Author

Johanne Gertrude de Mooij-van Malsen, Niels Röhrdanz, Anna-Sophia Buschhoff, Thomas Schiffelholz, Torfi Sigurdsson, and Peer Wulff

Subjects

Neuroscience, Behavioral neuroscience, Cognitive neuroscience, Science

Abstract

Summary: Working memory requires maintenance of and executive control over task-relevant information on a timescale of seconds. Spatial working memory depends on interactions between hippocampus, for the representation of space, and prefrontal cortex, for executive control. A monosynaptic hippocampal projection to the prefrontal cortex has been proposed to serve this interaction. However, connectivity and inactivation experiments indicate a critical role of the nucleus reuniens in hippocampal-prefrontal communication. We have investigated the dynamics of oscillatory coherence throughout the prefrontal-hippocampal-reuniens network in a touchscreen-based working memory task. We found that coherence at distinct frequencies evolved depending on phase and difficulty of the task. During choice, the reuniens did not participate in enhanced prefrontal-hippocampal theta but in gamma coherence. Strikingly, the reuniens was strongly embedded in performance-related increases in beta coherence, suggesting the execution of top-down control. In addition, we show that during working memory maintenance the prefrontal-hippocampal-reuniens network displays performance-related delay activity.

Published

2023

213. Maintaining eye fixation relieves pressure of cognitive action control

Author

Anika Krause and Christian H. Poth

Subjects

Biological sciences, Neuroscience, Behavioral neuroscience, Science

Abstract

Summary: Cognitive control enables humans to behave guided by their current goals and intentions. Cognitive control in one task generally suffers when humans try to engage in another task on top. However, we discovered an additional task that supports conflict resolution. In two experiments, participants performed a spatial cognitive control task. For different blocks of trials, they either received no instruction regarding eye movements or were asked to maintain the eyes fixated on a stimulus. The additional eye fixation task did not reduce task performance, but selectively ameliorated the adverse effects of cognitive conflicts on reaction times (Experiment 1). Likewise, in urgent situations, the additional task reduced performance impairments due to stimulus-driven processing overpowering cognitive control (Experiment 2). These findings suggest that maintaining eye fixation locks attentional resources that would otherwise induce spatial cognitive conflicts. This reveals an attentional disinhibition that boosts goal-directed action by relieving pressure from cognitive control.

Published

2023

214. Kappa opioid receptor in nucleus accumbens regulates depressive-like behaviors following prolonged morphine withdrawal in mice

Author

Jinyu Zhang, Ye Lu, Min Jia, Yuying Bai, Lulu Sun, Ziqing Dong, Wenrong Tian, Fangyuan Yin, Shuguang Wei, and Yunpeng Wang

Subjects

Addiction medicine, Behavioral neuroscience, Molecular neuroscience, Neuroscience, Science

Abstract

Summary: Prolonged withdrawal from opioids leads to negative emotions. Kappa opioid receptor (KOR) plays an important role in opioid addiction and affective disorders. However, the underlying mechanism of KOR in withdrawal-related depression is still lacking. We found that escitalopram treatment had a limited effect in improving depression symptoms in heroin-dependent patients. In mice, we demonstrated prolonged (4 weeks) but not acute (24 h) withdrawal from morphine induced depressive-like behaviors. The number of c-Fos positive cells and the expression of KOR in the nucleus accumbens (NAc), were significantly increased in the prolonged morphine withdrawal mice. Conditional KOR knockdown in NAc significantly improved depressive-like behaviors. Repeated but not acute treatment with the KOR antagonist norBNI improved depressive-like behaviors and reversed PSD95, synaptophysin, p-ERK, p-CREB, and BDNF in NAc. This study demonstrated the important role of striatal KOR in morphine withdrawal-related depressive-like behaviors and offered therapeutic potential for the treatment of withdrawal-related depression.

Published

2023

215. CANNABIS USE AND THE DEVELOPING BRAIN: HIGHS AND LOWS.

Author

Hurd, Yasmin L., Ferland, Jacqueline-Marie N., Nomura, Yoko, Hulvershorn, Leslie A., Gray, Kevin M., and Thurstone, Christian

Subjects

YOUNG adults, MARIJUANA abuse, BEHAVIORAL neuroscience, TETRAHYDROCANNABINOL

Abstract

This article explores the impact of cannabis use on the developing brain, specifically during pregnancy and adolescence. Cannabis contains cannabinoids that can affect the brain and body in various ways. Exposure to cannabis during critical periods of brain development can increase the risk of anxiety, depression, and addiction. THC, the main cannabinoid in cannabis, can bind to cannabinoid receptors in the brain and disrupt the body's natural cannabinoid system. Prenatal THC exposure can lead to changes in brain cell structure and behavior regulation, while teenage cannabis use is associated with negative mental health outcomes. It is important to understand these effects and minimize risks by avoiding or reducing cannabis use. The article also emphasizes the importance of seeking treatment for teenagers at high risk or currently using cannabis in a problematic way, with parental support playing a crucial role. Ultimately, the best way to protect the brain is to avoid cannabis use altogether or delay its use until after the teenage years. [Extracted from the article]

Published

2023

216. Nomen est omen: Serial reaction time task is not a motor but a visuomotor learning task.

Author

Pedraza, Felipe, Vékony, Teodóra, and Nemeth, Dezso

Subjects

*MOTOR learning, *BEHAVIORAL neuroscience, *PERCEPTUAL learning, *COGNITIVE neuroscience, *LEARNING in animals, *MOTOR cortex

Abstract

The serial reaction time task is a widely used task in behavioural and cognitive neuroscience to assess human and animal learning. Many publications refer to this task as a 'motor learning task', but it is also a perceptual learning task. We emphasize here that the incorrect use of the term 'motor learning' misleads researchers and medical doctors by emphasizing the motor cortex's exclusive role. It has the potential to lead to the misinterpretation of neuroscientific, neuroimaging and clinical studies. The domino effect has the potential to generate more flawed hypotheses and theories. [ABSTRACT FROM AUTHOR]

Published

2023

217. A neurocomputational variable on welfare tradeoffs explains the function and form of cyberaggression.

Author

Jinguang Zhang

Subjects

BEHAVIORAL neuroscience, EVOLUTIONARY psychology, HUMAN behavior, PSYCHOLOGICAL adaptation, SEXUAL assault, VIRTUAL communities

Published

2023

218. Emotional intelligence, distancing, and learning a new skill as strategies to combat the deleterious eects of emotional labor on attorney wellbeing..

Author

Melit, Norina

Subjects

EMOTIONAL labor, EMOTIONAL intelligence, WELL-being, BEHAVIORAL neuroscience, PSYCHOLOGICAL distance, EMOTIONAL conditioning, BLINKING (Physiology)

Published

2023

219. Self-Awareness of Goals Task (SAGT) and Planning Skills: The Neuroscience of Decision Making.

Author

Balconi, Michela, Angioletti, Laura, and Acconito, Carlotta

Subjects

*DECISION making, *SELF-consciousness (Awareness), *BEHAVIORAL neuroscience, *IMPLICIT learning, *WORKING hours, *INDIVIDUAL differences

Abstract

A goal's self-awareness and the planning to achieve it drive decision makers. Through a neuroscientific approach, this study explores the self-awareness of goals by analyzing the explicit and implicit processes linked to the ability to self-represent goals and sort them via an implicit dominant key. Thirty-five professionals performed a novel and ecological decision-making task, the Self-Awareness of Goals Task (SAGT), aimed at exploring the (i) self-representation of the decision-making goals of a typical working day; (ii) self-representation of how these goals were performed in order of priority; (iii) temporal sequence; and (iv) in terms of their efficacy. Electrophysiological (i.e., alpha, beta, and gamma band), autonomic, behavioral, and self-report data (General Decision Making Style and Big Five Inventory) are collected. Higher self-awareness of goals by time as well as efficacy and the greater activation of alpha, beta, and gamma bands in the temporoparietal brain area were found. Correlations reported positive associations between the self-awareness of goals via a time and dependent decision-making style and a conscientious personality, but also between the self-awareness of goals via an efficacy and rational decision-making style. The results obtained in this study suggest that the SAGT could activate recursive thinking in the examinee and grasp individual differences in self-representation and aware identification of decision-making goals. [ABSTRACT FROM AUTHOR]

Published

2023

220. Obesity Impairs Cognitive Function with No Effects on Anxiety-like Behaviour in Zebrafish.

Author

Godino-Gimeno, Alejandra, Thörnqvist, Per-Ove, Chivite, Mauro, Míguez, Jesús M., Winberg, Svante, and Cerdá-Reverter, José Miguel

Subjects

*BRACHYDANIO, *COGNITIVE ability, *BEHAVIORAL neuroscience, *COGNITIVE testing, *ANXIETY, *COGNITIVE neuroscience

Abstract

Over the last decade, the zebrafish has emerged as an important model organism for behavioural studies and neurological disorders, as well as for the study of metabolic diseases. This makes zebrafish an alternative model for studying the effects of energy disruption and nutritional quality on a wide range of behavioural aspects. Here, we used the zebrafish model to study how obesity induced by overfeeding regulates emotional and cognitive processes. Two groups of fish (n = 24 per group) were fed at 2% (CTRL) and 8% (overfeeding-induced obesity, OIO) for 8 weeks and tested for anxiety-like behaviour using the novel tank diving test (NTDT). Fish were first tested using a short-term memory test (STM) and then trained for four days for a long-term memory test (LTM). At the end of the experiment, fish were euthanised for biometric sampling, total lipid content, and triglyceride analysis. In addition, brains (eight per treatment) were dissected for HPLC determination of monoamines. Overfeeding induced faster growth and obesity, as indicated by increased total lipid content. OIO had no effect on anxiety-like behaviour. Animals were then tested for cognitive function (learning and memory) using the aversive learning test in Zantiks AD units. Results show that both OIO and CTRL animals were able to associate the aversive stimulus with the conditioned stimulus (conditioned learning), but OIO impaired STM regardless of fish sex, revealing the effects of obesity on cognitive processes in zebrafish. Obese fish did not show a deficiency in monoaminergic transmission, as revealed by quantification of total brain levels of dopamine and serotonin and their metabolites. This provides a reliable protocol for assessing the effect of metabolic disease on cognitive and behavioural function, supporting zebrafish as a model for behavioural and cognitive neuroscience. [ABSTRACT FROM AUTHOR]

Published

2023

221. Social touch in the age of computational ethology: Embracing as a multidimensional and complex behaviour.

Author

Ocklenburg, Sebastian, Packheiser, Julian, and Hidalgo-Gadea, Guillermo

Subjects

ANIMAL behavior, PSYCHOLOGICAL research, BEHAVIORAL neuroscience, MEASUREMENT errors, ERROR rates, EMOTION recognition, MOBILE learning

Abstract

Social affective touch is an important aspect of close relationships in humans. It has been also observed in many non-human primate species. Despite the high relevance of behaviours like embraces for personal wellbeing and mental health, they remain vastly under-investigated in psychology. This may be because psychology often relies on a limited repertoire of behavioural measurements such as error rates and reaction time measurements. These are, however, insufficient to capture the multidimensional complexity of highly interactive dyadic behaviours like embraces. Based on recent advances in computational ethology in animal models, the rapidly emerging field of human computational ethology utilizes an accessible repertoire of machine learning methods to track and quantify complex natural behaviours. We highlight how such techniques can be utilized to investigate social touch and which preliminary conditions, motor aspects and higher-level interactions need to be considered. Ultimately, integration of computational ethology with mobile neuroscience techniques such as ultraportable EEG systems will allow for an ecologically valid investigation of social affective touch in humans that will advance psychological research of emotions. [ABSTRACT FROM AUTHOR]

Published

2023

222. Language acquisition and language processing: Finding new connections.

Author

Trueswell, John C.

Subjects

*LANGUAGE & languages, *LANGUAGE acquisition, *VERBS, *SECOND language acquisition, *BEHAVIORAL neuroscience, *EXPERIMENTAL psychology, *DEVELOPMENTAL psychology

Abstract

Parser-grammar transparency and the development of syntactic dependencies The paper by Lidz also advocates a tighter connection between language acquisition and processing. Two central questions addressed in psycholinguistics pertain to acquisition and process. Lidz reviews evidence from his group pertaining to children's representation and processing of syntactic dependencies, making the case that the moment grammatical knowledge is acquired, even partially, children deploy this knowledge when making real-time sentence processing decisions. As Lidz notes, there has been a long history within psycholinguistics of looking for transparent connections between grammar and process (e.g., Chomsky [6], Kaplan & Bresnan [22], Steedman [34]). [Extracted from the article]

Published

2023

223. The Conscious Nematode: Exploring Hallmarks of Minimal Phenomenal Consciousness in Caenorhabditis Elegans.

Author

Becerra, Diego, Calixto, Andrea, and Orio, Patricio

Subjects

*SYMMETRY (Biology), *COMPARATIVE psychology, *BEHAVIORAL neuroscience, *SENSORY receptors, *SLOW wave sleep, *SNOEZELEN, *PSYCHOPHYSICS

Published

2023

224. Stress, a Brief Update.

Author

Valencia-Florez, Kenji Baruch, Sánchez-Castillo, Hugo, Vázquez, Priscila, Zarate, Pavel, and Paz, Diana Berenice

Subjects

*PSYCHOBIOLOGY, *ACUTE stress disorder, *BEHAVIORAL neuroscience, *CYTOLOGY, *AUTONOMIC nervous system, *CORTISONE, *ADRENAL insufficiency, *VISCERAL pain

Published

2023

225. Editor's Introduction: How Should We Think about Co-Occurring Emotions?

Author

Maibom, Heidi L.

Subjects

*EMOTIONS, *PSYCHOLOGICAL literature, *CONTROL (Psychology), *BEHAVIORAL neuroscience, *PSYCHOLOGICAL distress

Abstract

This article introduces a collection of articles that delve into the concept of co-occurring emotions. It challenges the notion that emotions are separate and isolated events, arguing that they can be influenced and regulated through different means. The authors explore the interplay between emotions such as empathic distress and sympathy, as well as shame and guilt, highlighting how they often intertwine. By understanding the unique effects of co-experienced emotions, valuable insights into human behavior and motivation can be gained. The articles in this collection examine various perspectives on how different emotions interact and influence each other, shedding light on the complex nature of emotional experiences and their impact on our thoughts, behaviors, and relationships. [Extracted from the article]

Published

2023

226. Editorial: Credition--An interdisciplinary approach to the nature of beliefs and believing.

Author

Seitz, Rüdiger J., Angel, Hans-Ferdinand, Paloutzian, Raymond F., and Taves, Ann

Subjects

VERBAL behavior, BEHAVIORAL neuroscience, INTEROCEPTION

Published

2023

227. Robust rhythm reporting will advance ecological and evolutionary research.

Author

Hersh, Taylor A., Ravignani, Andrea, and Burchardt, Lara S.

Subjects

RHYTHM, COMPARATIVE method, SPERM whale, BEHAVIORAL neuroscience, ANIMAL ecology

Abstract

Rhythmicity in the millisecond to second range is a fundamental building block of communication and coordinated movement. But how widespread are rhythmic capacities across species, and how did they evolve under different environmental pressures? Comparative research is necessary to answer these questions but has been hindered by limited crosstalk and comparability among results from different study species.Most acoustics studies do not explicitly focus on characterising or quantifying rhythm, but many are just a few scrapes away from contributing to and advancing the field of comparative rhythm research. Here, we present an eight‐level rhythm reporting framework which details actionable steps researchers can take to report rhythm‐relevant metrics. Levels fall into two categories: metric reporting and data sharing. Metric reporting levels include defining rhythm‐relevant metrics, providing point estimates of temporal interval variability, reporting interval distributions, and conducting rhythm analyses. Data sharing levels are: sharing audio recordings, sharing interval durations, sharing sound element start and end times, and sharing audio recordings with sound element start/end times.Using sounds recorded from a sperm whale as a case study, we demonstrate how each reporting framework level can be implemented on real data. We also highlight existing best practice examples from recent research spanning multiple species. We clearly detail how engagement with our framework can be tailored case‐by‐case based on how much time and effort researchers are willing to contribute. Finally, we illustrate how reporting at any of the suggested levels will help advance comparative rhythm research.This framework will actively facilitate a comparative approach to acoustic rhythms while also promoting cooperation and data sustainability. By quantifying and reporting rhythm metrics more consistently and broadly, new avenues of inquiry and several long‐standing, big picture research questions become more tractable. These lines of research can inform not only about the behavioural ecology of animals but also about the evolution of rhythm‐relevant phenomena and the behavioural neuroscience of rhythm production and perception. Rhythm is clearly an emergent feature of life; adopting our framework, researchers from different fields and with different study species can help understand why. [ABSTRACT FROM AUTHOR]

Published

2023

228. Available Sensory Input Determines Motor Performance and Strategy in Early Blind and Sighted Short-Tailed Opossums

Author

Englund, Mackenzie, Faridjoo, Samaan, Iyer, Christopher S, and Krubitzer, Leah

Subjects

Information and Computing Sciences, Machine Learning, Psychology, Bioengineering, Basic Behavioral and Social Science, Neurosciences, Assistive Technology, Behavioral and Social Science, Eye Disease and Disorders of Vision, Behavioral Neuroscience, Biological Sciences, Neuroscience, Sensory Neuroscience

Abstract

The early loss of vision results in a reorganized neocortex, affecting areas of the brain that process both the spared and lost senses, and leads to heightened abilities on discrimination tasks involving the spared senses. Here, we used performance measures and machine learning algorithms that quantify behavioral strategy to determine if and how early vision loss alters adaptive sensorimotor behavior. We tested opossums on a motor task involving somatosensation and found that early blind animals had increased limb placement accuracy compared with sighted controls, while showing similarities in crossing strategy. However, increased reliance on tactile inputs in early blind animals resulted in greater deficits in limb placement and behavioral flexibility when the whiskers were trimmed. These data show that compensatory cross-modal plasticity extends beyond sensory discrimination tasks to motor tasks involving the spared senses and highlights the importance of whiskers in guiding forelimb control.

Published

2020

229. Is disease a threat to identity? A systematic review of parkinson's disease and personal identity

Author

Ashima Nehra, Rhythm Makkar, Rajesh Kumar Singh, Roopa Rajan, Maroof Ahmad Khan, and Achal Kumar Srivastava

Subjects

behavioral neuroscience, family, neuropsychology, parkinson's disease, personal identity, psychosocial impact, Public aspects of medicine, RA1-1270

Abstract

Introduction: Parkinson's disease (PD) is a neurological condition that impacts the physical and psychological functioning of the patients. The physical and cognitive changes come with social stigma and threats to roles previously associated with their identities. Objectives: The current paper attempts to study the influence of the disease on the personal identity of the patients. Methods: A systematic review was done on PD and personal identity following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses 2020 guidelines. The Consolidated Criteria for Reporting Qualitative Research checklist was used to assess the quality of the papers. The selected papers were synthesized to understand the relationship between PD and personal identity. Results: The emerging themes were: (1) dissociation of old personal identity: (1.1) Influence of physical symptoms, (1.2) influence of society and stigma, and (1.3) threats to roles associated with identity and (2) changing family dynamics. A Model of Personal, Family, and Disease Dynamics was also developed based on clinical first-hand experience with the patients and the review. Conclusion: The personal identity of the PD patients shifts drastically as a result of their physical and psychosocial experiences. This also results in changed family dynamics, with the patient feeling sidelined due to loss of control and responsibilities in the family.

Published

2023

230. The Lost Children of Football.

Author

MORRIS, ALEX

Subjects

*FOOTBALL, *APATHY, *SPORTS participation, *NATURE & nurture, *HIGH school football, *BEHAVIORAL neuroscience

Abstract

In the car the next day, on the way to San Marcos to begin the procedural processes of death - closing up Myers' apartment, identifying his body, speaking to investigators who had no doubt that the gunshot wound was self-inflicted - Wilbourn was on a call with the medical examiner when, out of nowhere, she heard herself asking if they could save Myers' brain, if they could have it studied. "We're seeing changes in brain architecture, shrinkage of the brain, damage to brain structures, inflammation, evidence of vascular disease - meaning the tiny blood vessels of the brain are probably injured and leaky." Now considered the public face of CTE awareness - he's the guy Newsweek called after Hernandez died by suicide in prison, and the person families typically contact if they want to donate the brain of a loved one suspected of having CTE - Nowinski not only believes that the connection between repetitive, low-level head impacts and mental illness is strong enough that developing a mood disorder could prove to be a risk factor for developing CTE, but he also believes that the connection is strong enough to be worrisome in its own right. He started playing tackle football this past year, despite his family's experience with CTE, despite Wilbourn's admonishments, despite the fact that his father sits nervously on the sideline of each game, watching his son's head and the movements of his body, looking for signs of disaster. [Extracted from the article]

Published

2023

231. Rabbit Maternal Behavior: A Perspective from Behavioral Neuroendocrinology, Animal Production, and Psychobiology

Author

González-Mariscal, Gabriela, Hoy, Steffen, Hoffman, Kurt L., Schousboe, Arne, Series Editor, and González-Mariscal, Gabriela, editor

Published

2022

232. Metabolic activity organizes olfactory representations.

Author

Qian, Wesley W., Wei, Jennifer N., Sanchez-Lengeling, Benjamin, Lee, Brian K., Yunan Luo, Vlot, Marnix, Koen Dechering, Jian Peng, Gerkin, Richard C., and Wiltschko, Alexander B.

Subjects

*OLFACTORY perception, *ODORS, *ELECTROMAGNETIC waves, *MOLECULAR structure, *MACHINE learning, *BEHAVIORAL neuroscience, *NEUROSCIENCES

Abstract

Hearing and vision sensory systems are tuned to the natural statistics of acoustic and electromagnetic energy on earth and are evolved to be sensitive in ethologically relevant ranges. But what are the natural statistics of odors, and how do olfactory systems exploit them? Dissecting an accurate machine learning model (Lee et al., 2022) for human odor perception, we find a computable representation for odor at the molecular level that can predict the odor-evoked receptor, neural, and behavioral responses of nearly all terrestrial organisms studied in olfactory neuroscience. Using this olfactory representation (principal odor map [POM]), we find that odorous compounds with similar POM representations are more likely to co-occur within a substance and be metabolically closely related; metabolic reaction sequences (Caspi et al., 2014) also follow smooth paths in POM despite large jumps in molecular structure. Just as the brain's visual representations have evolved around the natural statistics of light and shapes, the natural statistics of metabolism appear to shape the brain's representation of the olfactory world. [ABSTRACT FROM AUTHOR]

Published

2023

233. Enhancing Child Development in Oman: Applying global agenda into local context.

Author

Al-Mamari, Watfa, Idris, Ahmed B., Al-Alawi, Kamila, Rashid, Najma, Al-Araimi, Fannah Al Fannah, and Siddeeg, Khalid

Subjects

*CHILD development, *PRECONCEPTION care, *BEHAVIORAL neuroscience, *SPEECH therapists, *ORPHANS

Published

2023

234. Open-source software for automated rodent behavioral analysis.

Author

Isik, Sena and Unal, Gunes

Subjects

BEHAVIORAL assessment, BEHAVIORISM (Psychology), BEHAVIORAL neuroscience, RODENTS, EXPERIMENTAL psychology

Abstract

Rodent behavioral analysis is a major specialization in experimental psychology and behavioral neuroscience. Rodents display a wide range of species-specific behaviors, not only in their natural habitats but also under behavioral testing in controlled laboratory conditions. Detecting and categorizing these different kinds of behavior in a consistent way is a challenging task. Observing and analyzing rodent behaviors manually limits the reproducibility and replicability of the analyses due to potentially low inter-rater reliability. The advancement and accessibility of object tracking and pose estimation technologies led to several open-source artificial intelligence (AI) tools that utilize various algorithms for rodent behavioral analysis. These software provide high consistency compared to manual methods, and offer more flexibility than commercial systems by allowing custom-purpose modifications for specific research needs. Open-source software reviewed in this paper offer automated or semi-automated methods for detecting and categorizing rodent behaviors by using hand-coded heuristics, machine learning, or neural networks. The underlying algorithms show key differences in their internal dynamics, interfaces, user-friendliness, and the variety of their outputs. This work reviews the algorithms, capability, functionality, features and software properties of open-source behavioral analysis tools, and discusses how this emergent technology facilitates behavioral quantification in rodent research. [ABSTRACT FROM AUTHOR]

Published

2023

235. Incorporating neurological and behavioral mechanisms of sociality into predator-prey models.

Author

Lichtenstein, James L. L. and Schmitz, Oswald J.

Subjects

SOCIAL defeat, COMPETITION (Biology), BEHAVIORAL neuroscience, BEHAVIORAL research, FORAGING behavior

Abstract

Consumer-resource population models drive progress in predicting and understanding predation. However, they are often built by averaging the foraging outcomes of individuals to estimate per capita functional responses (functions that describe predation rate). Reliance on per-capita functional responses rests on the assumption that that individuals forage independently without affecting each other. Undermining this assumption, extensive behavioral neuroscience research has made clear that facilitative and antagonistic interactions among conspecifics frequently alter foraging through interference competition and persistent neurophysiological changes. For example, repeated social defeats dysregulates rodent hypothalamic signaling, modulating appetite. In behavioral ecology, similar mechanisms are studied under the concept of dominance hierarchies. Neurological and behavioral changes in response to conspecifics undoubtedly play some sort of role in the foraging of populations, but modern predator-prey theory does not explicitly include them. Here we describe how some modern approaches to population modeling might account for this. Further, we propose that spatial predator-prey models can be modified to describe plastic changes in foraging behavior driven by intraspecific interaction, namely individuals switching between patches or plastic strategies to avoid competition. Extensive neurological and behavioral ecology research suggests that interactions among conspecifics help shape populations’ functional responses. Modeling interdependent functional responses woven together by behavioral and neurological mechanisms may thus be indispensable in predicting the outcome of consumer–resource interactions across systems. [ABSTRACT FROM AUTHOR]

Published

2023

236. A computational analysis of mouse behavior in the sucrose preference test.

Author

Verharen, Jeroen P. H., de Jong, Johannes W., Zhu, Yichen, and Lammel, Stephan

Subjects

BEHAVIORAL assessment, PSYCHOLOGICAL stress, COMPUTATIONAL neuroscience, BEHAVIORAL neuroscience, ANHEDONIA, OPTOGENETICS

Abstract

The sucrose preference test (SPT) measures the relative preference of sucrose over water to assess hedonic behaviors in rodents. Yet, it remains uncertain to what extent the SPT reflects other behavioral components, such as learning, memory, motivation, and choice. Here, we conducted an experimental and computational decomposition of mouse behavior in the SPT and discovered previously unrecognized behavioral subcomponents associated with changes in sucrose preference. We show that acute and chronic stress have sex-dependent effects on sucrose preference, but anhedonia was observed only in response to chronic stress in male mice. Additionally, reduced sucrose preference induced by optogenetics is not always indicative of anhedonia but can also reflect learning deficits. Even small variations in experimental conditions influence behavior, task outcome and interpretation. Thus, an ostensibly simple behavioral task can entail high levels of complexity, demonstrating the need for careful dissection of behavior into its subcomponents when studying the underlying neurobiology. The sucrose preference test is one of the most widely used paradigms in behavioral neuroscience. Here, authors identify previously unrecognized behavioral subcomponents that can influence how it is interpreted. [ABSTRACT FROM AUTHOR]

Published

2023

237. Transdiagnostic Approach and Obsessive Compulsive Disorder.

Author

Özdemir, Emre and Hacıömeroğlu, Bikem

Subjects

*OBSESSIVE-compulsive disorder, *BEHAVIORAL neuroscience, *NOSOLOGY, *BEHAVIORAL sciences, *MENTAL illness

Abstract

The categorical approach of traditional psychiatric nosology has been a forceful approach for a very long time for explaining psychological disorders which are defined by symptom based diagnostic categories. However, in recent years, the importance of the "transdiagnostic" approach which is a new classification system is increasing. The transdiagnostic approach aims to examine dimensionally the common cognitive, behavioral, interpersonal and biological processes underlying many psychopathologies away from the categorical approach that classifies psychopathologies according to observable symptoms. This approach intends to treat the disorders through the common underlying processes and risk factors, thus heterogeneous and comorbid symptoms are better addressed and diagnostic categories that may change during treatment are avoided. In this review study, the current problems in diagnosing based on classification and gaps in the field were examined, and the approach itself was proposed as a solution. RDoC (Research Domain Criteria) which is a new classification system for psychiatric disorders within the scope of the approach, has created a new structure using modern research approaches in genetics, neuroscience and behavioral sciences. In the present study, the definition and emergence of the transdiagnostic approach, obsessive compulsive disorder and RDoC in the context of transdiagnostic approach and transdiagnostic treatment are explained. This review is intended to be a resource for both basic psychopathology research and the development of treatment methods within the framework of a transdiagnostic approach. [ABSTRACT FROM AUTHOR]

Published

2023

238. Why help others? Insights from rodent to human early childhood research.

Author

Ya-Qin Chen, Shu Han, and Bin Yin

Subjects

HELPING behavior, BEHAVIORAL neuroscience, BEHAVIORAL research, PSYCHOLOGICAL distress, RODENTS

Abstract

Helping behavior are actions aiming at assisting another individual in need or to relieve their distress. The occurrence of this behavior not only depends on automated physiological mechanisms, such as imitation or emotional contagion, that is, the individual's emotion and physiological state matching with others, but also needs motivation to sustain. From a comparative and developmental perspective, we discover that the motivation for helping behavior has a deep foundation both phylogenetically and ontogenetically. For example, empathic concern for others, relieving personal distress and the desire for social contact are universal motivations across rodents, non-human primates and human early childhoods. Therefore, a circle-layered model integrating evidences for motivation for helping behavior from rodent to human early childhood research is proposed: the inner circle contains the emotional-behavioral system and the outer circle contains the affective-cognitive system. The application of this model has significance for both behavioral neuroscience research and cultivating prosocial behavior in human society. [ABSTRACT FROM AUTHOR]

Published

2023

239. Increased NMDARs in neurons and glutamine synthetase in astrocytes underlying autistic-like behaviors of Gabrb1−/− mice

Author

Jing Wang, Yue Gao, Liuyan Xiao, Yanmei Lin, Lang Huang, Jinfa Chen, Guanmei Liang, Weiming Li, Wenjuan Yi, Jianpei Lao, Bin Zhang, Tian-Ming Gao, Mei Zhong, and Xinping Yang

Subjects

Neuroscience, Behavioral neuroscience, Omics, Transcriptomics, Science

Abstract

Summary: Mutations of the GABA-A receptor subunit β1 (GABRB1) gene are found in autism patients. However, it remains unclear how mutations in Gabrb1 may lead to autism. We generated Gabrb1−/− mouse model, which showed autistic-like behaviors. We carried out RNA-seq on the hippocampus and found glutamatergic pathway may be involved. We further carried out single-cell RNA sequencing on the whole brain followed by qRT-PCR, immunofluorescence, electrophysiology, and metabolite detection on specific cell types. We identified the up-regulated Glul/Slc38a3 in astrocytes, Grin1/Grin2b in neurons, glutamate, and the ratio of Glu/GABA in the hippocampus. Consistent with these results, increased NMDAR-currents and reduced GABAAR-currents in the CA1 neurons were detected in Gabrb1−/− mice. NMDAR antagonist memantine or Glul inhibitor methionine sulfoximine could rescue the abnormal behaviors in Gabrb1−/− mice. Our data reveal that upregulation of the glutamatergic synapse pathway, including NMDARs at neuronal synapses and glutamine exported by astrocytes, may lead to autistic-like behaviors.

Published

2023

240. Dopamine-mediated striatal activity and function is enhanced in GlyRα2 knockout animals

Author

Jens Devoght, Joris Comhair, Giovanni Morelli, Jean-Michel Rigo, Rudi D'Hooge, Chadi Touma, Rupert Palme, Ilse Dewachter, Martin vandeVen, Robert J. Harvey, Serge N. Schiffmann, Elisabeth Piccart, and Bert Brône

Subjects

Neuroscience, Behavioral neuroscience, Science

Abstract

Summary: The glycine receptor alpha 2 (GlyRα2) is a ligand-gated ion channel which upon activation induces a chloride conductance. Here, we investigated the role of GlyRα2 in dopamine-stimulated striatal cell activity and behavior. We show that depletion of GlyRα2 enhances dopamine-induced increases in the activity of putative dopamine D1 receptor-expressing striatal projection neurons, but does not alter midbrain dopamine neuron activity. We next show that the locomotor response to d-amphetamine is enhanced in GlyRα2 knockout animals, and that this increase correlates with c-fos expression in the dorsal striatum. 3-D modeling revealed an increase in the neuronal ensemble size in the striatum in response to D-amphetamine in GlyRα2 KO mice. Finally, we show enhanced appetitive conditioning in GlyRα2 KO animals that is likely due to increased motivation, but not changes in associative learning or hedonic response. Taken together, we show that GlyRα2 is an important regulator of dopamine-stimulated striatal activity and function.

Published

2023

241. TMS-induced inhibition of the left premotor cortex modulates illusory social perception

Author

Charline Peylo, Elisabeth F. Sterner, Yifan Zeng, Elisabeth V.C. Friedrich, Annika Bingger, Gabriel Engelhardt, Viola Gnam, Marie Gottmann, Christof Leininger, Zdislava Lukasova, Keno Mersmann, Ada Özbey, Liisbeth Pirn, Jacob Riecke, Sarah Schellnast, Gina Marie Schowe, Dominik Weidenhöfer, Jasmin Wunderatzke, and Nele Wunner

Subjects

Neuroscience, Behavioral neuroscience, Cognitive neuroscience, Science

Abstract

Summary: Communicative actions from one person are used to predict another person’s response. However, in some cases, these predictions can outweigh the processing of sensory information and lead to illusory social perception such as seeing two people interact, although only one is present (i.e., seeing a Bayesian ghost). We applied either inhibitory brain stimulation over the left premotor cortex (i.e., real TMS) or sham TMS. Then, participants indicated the presence or absence of a masked agent that followed a communicative or individual gesture of another agent. As expected, participants had more false alarms in the communicative (i.e., Bayesian ghosts) than individual condition in the sham TMS session and this difference between conditions vanished after real TMS. In contrast to our hypothesis, the number of false alarms increased (rather than decreased) after real TMS. These pre-registered findings confirm the significance of the premotor cortex for social action predictions and illusory social perception.

Published

2023

242. A behavioral tagging account of kinase contribution to memory formation after spaced aversive training

Author

Pablo Budriesi, Ramiro Tintorelli, Julieta Correa, Maria Eugenia Villar, Paul Marchal, Martin Giurfa, and Haydee Viola

Subjects

Behavioral neuroscience, Molecular neuroscience, Science

Abstract

Summary: Long-term memory (LTM) can be induced by repeated spaced training trials. Using the weak inhibitory avoidance (wIA) task, we showed that one wIA session does not lead to a 24-h LTM, whereas two identical wIA sessions spaced by 15 min to 6 h induce a 24-h LTM. This LTM promotion depends both on hippocampal protein synthesis and the activity of several kinases. In agreement with the behavioral tagging (BT) hypothesis, our results suggest that the two training sessions induce transient learning tags and lead, via a cooperative effect, to the synthesis of plasticity-related proteins (PRPs) that become available and captured by the tag from the second session. Although ERKs1/2 are needed for PRPs synthesis and CaMKs are required for tag setting, PKA participates in both processes. We conclude that the BT mechanism accounts for the molecular constraints underlying the classic effect of spaced learning on LTM formation.

Published

2023

243. Predictive coordination of breathing during intra-personal speaking and listening

Author

Omid Abbasi, Daniel S. Kluger, Nikos Chalas, Nadine Steingräber, Lars Meyer, and Joachim Gross

Subjects

Behavioral neuroscience, cognitive neuroscience, Science

Abstract

Summary: It has long been known that human breathing is altered during listening and speaking compared to rest: during speaking, inhalation depth is adjusted to the air volume required for the upcoming utterance. During listening, inhalation is temporally aligned to inhalation of the speaker. While evidence for the former is relatively strong, it is virtually absent for the latter. We address both phenomena using recordings of speech envelope and respiration in 30 participants during 14 min of speaking and listening to one’s own speech. First, we show that inhalation depth is positively correlated with the total power of the speech envelope in the following utterance. Second, we provide evidence that inhalation during listening to one’s own speech is significantly more likely at time points of inhalation during speaking. These findings are compatible with models that postulate alignment of internal forward models of interlocutors with the aim to facilitate communication.

Published

2023

244. Beat encoding at mistuned octaves within single electrosensory neurons

Author

Alexandra Barayeu, Ramona Schäfer, Jan Grewe, and Jan Benda

Subjects

Behavioral neuroscience, Animal science, Modeling signal processing system, Science

Abstract

Summary: Beats are slow periodic amplitude modulations resulting from the superposition of two spectrally close periodic signals. The difference frequency between the signals sets the frequency of the beat. A field study in the electric fish Apteronotus rostratus showed the behavioral relevance of very high difference frequencies. Contrary to expectations from previous studies, our electrophysiological data show strong responses of p-type electroreceptor afferents whenever the difference frequency approaches integer multiples (mistuned octaves) of the fish’s own electric field frequency (carrier). Mathematical reasoning and simulations show that common approaches to extract amplitude modulations, such as Hilbert transform or half-wave rectification, are not sufficient to explain the responses at carrier octaves. Instead, half-wave rectification needs to be smoothed out, for example by a cubic function. Because electroreceptive afferents share many properties with auditory nerve fibers, these mechanisms may underly the human perception of beats at mistuned octaves as described by Ohm and Helmholtz.

Published

2023

245. Chemogenetic and optogenetic stimulation of zona incerta GABAergic neurons ameliorates motor impairment in Parkinson’s disease

Author

Fenghua Chen, Junliang Qian, Zhongkai Cao, Ang Li, Juntao Cui, Limin Shi, and Junxia Xie

Subjects

Behavioral neuroscience, Cellular neuroscience, Sensory neuroscience, Science

Abstract

Summary: Parkinson’s disease (PD) is characterized by the degeneration of dopaminergic neurons in the substantia nigra and leads to progressive motor dysfunction. While studies have focused on the basal ganglia network, recent evidence suggests neuronal systems outside the basal ganglia are also related to PD pathogenesis. The zona incerta (ZI) is a predominantly inhibitory subthalamic region for global behavioral modulation. This study investigates the role of GABAergic neurons in the ZI in a mouse model of 6-hydroxydopamine (6-OHDA)-induced PD. First, we found a decrease in GABA-positive neurons in the ZI, and then the mice used chemogenetic/optogenetic stimulation to activate or inhibit GABAergic neurons. The motor performance of PD mice was significantly improved by chemogenetic/optogenetic activation of GABAergic neurons, and repeated chemogenetic activation of ZI GABAergic neurons increased the dopamine content in the striatum. Our work identifies the role of ZI GABAergic neurons in regulating motor behaviors in 6-OHDA-lesioned PD model mice.

Published

2023

246. Internal selective attention is delayed by competition between endogenous and exogenous factors

Author

Edward F. Ester and Asal Nouri

Subjects

Behavioral neuroscience, Sensory neuroscience, Cognitive neuroscience, Signal processing, Science

Abstract

Summary: External attention is mediated by competition between endogenous (goal-driven) and exogenous (stimulus-driven) factors, with the balance of competition determining which stimuli are selected. Occasionally, exogenous factors “win” this competition and drive the selection of task-irrelevant stimuli. Endogenous and exogenous selection mechanisms may also compete to control the selection of internal representations (e.g., those stored in working memory), but whether this competition is resolved in the same way as external attention is unknown. Here, we leveraged the high temporal resolution of human EEG to determine how competition between endogenous and exogenous factors influences the selection of internal representations. Unlike external attention, competition did not prompt the selection of task-irrelevant working memory content. Instead, it delayed the endogenous selection of task-relevant working memory content by several hundred milliseconds. Thus, competition between endogenous and exogenous factors influences internal selective attention, but in a different way than external selective attention.

Published

2023

247. Motor variability modulates calibration of precisely timed movements

Author

Nadine Schlichting, Clara Fritz, and Eckart Zimmermann

Subjects

Behavioral neuroscience, Sensory neuroscience, Cognitive neuroscience, Science

Abstract

Summary: Interacting with the environment often requires precisely timed movements, challenging the brain to minimize the detrimental impact of neural noise. Recent research demonstrates that the brain exploits the variability of its temporal estimates and recalibrates perception accordingly. Time-critical movements, however, contain a sensory measurement and a motor stage. The brain must have knowledge of both in order to avoid maladapted behavior. By manipulating sensory and motor variability, we show that the sensorimotor system recalibrates sensory and motor uncertainty separately. Serial dependencies between observed interval durations in the previous and motor reproductions in the current trial were weighted by the variability of movements. These serial dependencies generalized across different effectors, but not to a visual discrimination task. Our results suggest that the brain has accurate knowledge about contributions of motor uncertainty to errors in temporal movements. This knowledge about motor uncertainty seems to be processed separately from knowledge about sensory uncertainty.

Published

2023

248. How and when EEG reflects changes in neuronal connectivity due to time awake

Author

Sophia Snipes, Elias Meier, Sarah Nadine Meissner, Hans-Peter Landolt, and Reto Huber

Subjects

Neuroscience, Behavioral neuroscience, Cognitive neuroscience, Science

Abstract

Summary: Being awake means forming new memories, primarily by strengthening neuronal synapses. The increase in synaptic strength results in increasing neuronal synchronicity, which should result in higher amplitude electroencephalography (EEG) oscillations. This is observed for slow waves during sleep but has not been found for wake oscillations. We hypothesized that this was due to a limitation of spectral power analysis, which does not distinguish between changes in amplitudes from changes in number of occurrences of oscillations. By using cycle-by-cycle analysis instead, we found that theta and alpha oscillation amplitudes increase as much as 30% following 24 h of extended wake. These increases were interrupted during the wake maintenance zone (WMZ), a window just before bedtime when it is difficult to fall asleep. We found that pupil diameter increased during this window, suggesting the ascending arousal system is responsible. In conclusion, wake oscillation amplitudes reflect increased synaptic strength, except during the WMZ.

Published

2023

249. Behavioral analysis through the lifespan of disc1 mutant zebrafish identifies defects in sensorimotor transformation

Author

Brock R. Pluimer, Devin L. Harrison, Chanon Boonyavairoje, Eric P. Prinssen, Mark Rogers-Evans, Randall T. Peterson, Summer B. Thyme, and Anjali K. Nath

Subjects

Behavior genetics, Behavioral neuroscience, Neuroscience, Science

Abstract

Summary: DISC1 is a genetic risk factor for multiple psychiatric disorders. Compared to the dozens of murine Disc1 models, there is a paucity of zebrafish disc1 models—an organism amenable to high-throughput experimentation. We conducted the longitudinal neurobehavioral analysis of disc1 mutant zebrafish across key stages of life. During early developmental stages, disc1 mutants exhibited abrogated behavioral responses to sensory stimuli across multiple testing platforms. Moreover, during exposure to an acoustic sensory stimulus, loss of disc1 resulted in the abnormal activation of neurons in the pallium, cerebellum, and tectum—anatomical sites involved in the integration of sensory perception and motor control. In adulthood, disc1 mutants exhibited sexually dimorphic reduction in anxiogenic behavior in novel paradigms. Together, these findings implicate disc1 in sensorimotor processes and the genesis of anxiogenic behaviors, which could be exploited for the development of novel treatments in addition to investigating the biology of sensorimotor transformation in the context of disc1 deletion.

Published

2023

250. Descending pathways increase sensory neural response heterogeneity to facilitate decoding and behavior

Author

Michael G. Metzen and Maurice J. Chacron

Subjects

Neuroscience, Behavioral neuroscience, Sensory neuroscience, Science

Abstract

Summary: The functional role of heterogeneous spiking responses of otherwise similarly tuned neurons to stimulation, which has been observed ubiquitously, remains unclear to date. Here, we demonstrate that such response heterogeneity serves a beneficial function that is used by downstream brain areas to generate behavioral responses that follows the detailed timecourse of the stimulus. Multi-unit recordings from sensory pyramidal cells within the electrosensory system of Apteronotus leptorhynchus were performed and revealed highly heterogeneous responses that were similar for all cell types. By comparing the coding properties of a given neural population before and after inactivation of descending pathways, we found that heterogeneities were beneficial as decoding was then more robust to the addition of noise. Taken together, our results not only reveal that descending pathways actively promote response heterogeneity within a given cell type, but also uncover a beneficial function for such heterogeneity that is used by the brain to generate behavior.

Published

2023