Interspecies Behavioral Variability of Medaka Fish Assessed by Comparative Phenomics

Recently, medaka has been used as a model organism in various research fields. However, even though it possesses several advantages over zebrafish, fewer studies were done in medaka compared to zebrafish, especially with regard to its behavior. Thus, to provide more information regarding its behavior and to demonstrate the behavioral differences between several species of medaka, we compared the behavioral performance and biomarker expression in the brain between four medaka fishes, Oryzias latipes, Oryzias dancena, Oryzias woworae, and Oryzias sinensis. We found that each medaka species explicitly exhibited different behaviors to each other, which might be related to the different basal levels of several biomarkers. Furthermore, by phenomics and genomic-based clustering, the differences between these medaka fishes were further investigated. Here, the phenomic-based clustering was based on the behavior results, while the genomic-based clustering was based on the sequence of the nd2 gene. As we expected, both clusterings showed some resemblances to each other in terms of the interspecies relationship between medaka and zebrafish. However, this similarity was not displayed by both clusterings in the medaka interspecies comparisons. Therefore, these results suggest a re-interpretation of several prior studies in comparative biology. We hope that these results contribute to the growing database of medaka fish phenotypes and provide one of the foundations for future phenomics studies of medaka fish.

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Interspecies Behavioral Variability of Medaka Fish Assessed by Comparative Phenomics

10.20944/preprints202105.0446.v1 ◽

2021 ◽

Author(s):

Gilbert Audira ◽

Petrus Siregar ◽

Kelvin H.-C. Chen ◽

Marri Jmelou M. Roldan ◽

Jong-Chin Huang ◽

...

Keyword(s):

Model Organism ◽

Oryzias Latipes ◽

Behavioral Variability ◽

Comparative Biology ◽

Medaka Fish ◽

Research Fields ◽

Behavioural Performance ◽

The Brain

Recently, medaka has been used as a model organism in various research fields. However, even though it possesses several advantages over zebrafish, fewer studies were done in medaka than zebrafish, especially its behaviour. Thus, to provide more information regarding its behaviour and to demonstrate the be-havioural differences between several species of medaka, we compared the behavioural performance and biomarker expression in the brain between four medaka fishes, which were Oryzias latipes, O. dancena, O. woworae, and O. sinensis. From the results, we found that each medaka species explicitly exhib-ited different behaviours to each other, which might be related to the different basal levels of several biomarkers. Furthermore, by phenomics and ge-nomic-based clustering, the differences between these medaka fishes were further investigated. Interestingly, even though both phenomics and ge-nomic-based clustering showed some resemblances to each other in terms of the interspecies relationship between medaka and zebrafish, however, in the medaka interspecies comparisons, this similarity was not displayed. Therefore, these results suggest a re-interpretation of several prior studies in comparative biology. We hope that these results contribute to the growing database of medaka fish phenotypes and provide one of the foundations for future phe-nomics studies of medaka fish.

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Obeticholic Acid Inhibits Anxiety via Alleviating Gut Microbiota-Mediated Microglia Accumulation in the Brain of High-Fat High-Sugar Diet Mice

Nutrients ◽

10.3390/nu13030940 ◽

2021 ◽

Vol 13 (3) ◽

pp. 940

Author(s):

Li Wu ◽

Yuqiu Han ◽

Zhipeng Zheng ◽

Shuai Zhu ◽

Jun Chen ◽

...

Keyword(s):

Metabolic Disorders ◽

Intestinal Barrier ◽

Behavioral Performance ◽

High Fat ◽

Barrier Dysfunction ◽

Obeticholic Acid ◽

Promising Agent ◽

Serum Biochemical ◽

Lipid Metabolites ◽

The Brain

Anxiety is one of the complications of metabolic disorders (MDs). Obeticholic acid (OCA), the bile acids (BAs) derivative, is a promising agent for improving MDs in association with gut dysbiosis. Yet, its protective effect on MDs-driven anxiety remains unknown. Here, we assessed the serum biochemical parameters and behavioral performance by open field and Morris water maze tests in HFHS diet-induced MDs mice after OCA intervention for nine and 18 weeks. Moreover, antibiotics intervention for microbial depletion was conducted simultaneously. We found that OCA treatment inhibited the initiation and progression of anxiety in HFHS diet-MDs mice via a microbiota–BAs–brain axis: OCA decreased the neuroinflammatory microglia and IL-1β expression in the hippocampus, reversed intestinal barrier dysfunction and serum proinflammatory LPS to a normal level, modified the microbial community, including the known anxiety-related Rikenellaceae and Alistipes, and improved the microbial metabolites especially the increased BAs in feces and circulation. Moreover, the OCA-reversed bile acid taurocholate linked disordered serum lipid metabolites and indole derivatives to anxiety as assessed by network analysis. Additionally, microbial depletion with antibiotics also improved the anxiety, microgliosis and BAs enrichment in the experimental MDs mice. Together, these findings provide microbiota–BAs–brain axis as a novel therapeutic target for MDs-associated neuropsychiatric disorders.

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Diving into the world of alcohol teratogenesis: a review of zebrafish models of fetal alcohol spectrum disorder

Biochemistry and Cell Biology ◽

10.1139/bcb-2017-0122 ◽

2018 ◽

Vol 96 (2) ◽

pp. 88-97 ◽

Cited By ~ 17

Author(s):

Yohaan Fernandes ◽

Desire M. Buckley ◽

Johann K. Eberhart

Keyword(s):

Fetal Alcohol Spectrum Disorder ◽

Model Organism ◽

Spectrum Disorder ◽

Structural Defects ◽

Craniofacial Skeleton ◽

Fetal Alcohol ◽

Embryonic Exposure ◽

Fetal Alcohol Spectrum ◽

The Brain ◽

Insight Into

The term fetal alcohol spectrum disorder (FASD) refers to the entire suite of deleterious outcomes resulting from embryonic exposure to alcohol. Along with other reviews in this special issue, we provide insight into how animal models, specifically the zebrafish, have informed our understanding of FASD. We first provide a brief introduction to FASD. We discuss the zebrafish as a model organism and its strengths for alcohol research. We detail how zebrafish has been used to model some of the major defects present in FASD. These include behavioral defects, such as social behavior as well as learning and memory, and structural defects, disrupting organs such as the brain, sensory organs, heart, and craniofacial skeleton. We provide insights into how zebrafish research has aided in our understanding of the mechanisms of ethanol teratogenesis. We end by providing some relatively recent advances that zebrafish has provided in characterizing gene-ethanol interactions that may underlie FASD.

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Triadic body representations in the human cerebral cortex and peripheral nerves

10.1093/oso/9780198851721.003.0009 ◽

2021 ◽

pp. 133-151 ◽

Cited By ~ 1

Author(s):

Noriaki Kanayama ◽

Kentaro Hiromitsu

Keyword(s):

Peripheral Nerves ◽

Sensory Modality ◽

Body Schema ◽

Body Representation ◽

Neural System ◽

The Body ◽

Neural Representation ◽

Structural Description ◽

Research Fields ◽

The Brain

Is the body reducible to neural representation in the brain? There is some evidence that the brain contributes to the functioning of the body from neuroimaging, neurophysiological, and lesion studies. Well-known dyadic taxonomy of the body schema and the body image (hereafter BSBI) is based primarily on the evidence in brain-damaged patients. Although there is a growing consensus that the BSBI exists, there is little agreement on the dyadic taxonomy because it is not a concrete and common concept across various research fields. This chapter tries to investigate the body representation in the cortex and nervous system in terms of sensory modality and psychological function using two different approaches. The first approach is to review the neurological evidence and cortical area which is related to body representation, regardless of the BSBI, and then to reconsider how we postulate the BSBI in our brain. It can be considered that our body representation could be constructed by the whole of the neural system, including the cortex and peripheral nerves. The second approach is to revisit the BSBI conception from the viewpoint of recent neuropsychology and propose three types of body representation: body schema, body structural description, and body semantics. This triadic taxonomy is considered consistent with the cortical networks based on the evidence of bodily disorders due to brain lesions. These two approaches allow to reconsider the BSBI more carefully and deeply and to give us the possibility that the body representation could be underpinned with the network in the brain.

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The Cross-Modal Effects of Sensory Deprivation on Spatial and Temporal Processes in Vision and Audition: A Systematic Review on Behavioral and Neuroimaging Research since 2000

Neural Plasticity ◽

10.1155/2019/9603469 ◽

2019 ◽

Vol 2019 ◽

pp. 1-21 ◽

Cited By ~ 7

Author(s):

Laura Bell ◽

Lisa Wagels ◽

Christiane Neuschaefer-Rube ◽

Janina Fels ◽

Raquel E. Gur ◽

...

Keyword(s):

Systematic Review ◽

Temporal Processing ◽

Neural Plasticity ◽

Sensory Deprivation ◽

Brain Regions ◽

Behavioral Performance ◽

Brain Organization ◽

Processing Resources ◽

The Cross ◽

The Brain

One of the most significant effects of neural plasticity manifests in the case of sensory deprivation when cortical areas that were originally specialized for the functions of the deprived sense take over the processing of another modality. Vision and audition represent two important senses needed to navigate through space and time. Therefore, the current systematic review discusses the cross-modal behavioral and neural consequences of deafness and blindness by focusing on spatial and temporal processing abilities, respectively. In addition, movement processing is evaluated as compiling both spatial and temporal information. We examine whether the sense that is not primarily affected changes in its own properties or in the properties of the deprived modality (i.e., temporal processing as the main specialization of audition and spatial processing as the main specialization of vision). References to the metamodal organization, supramodal functioning, and the revised neural recycling theory are made to address global brain organization and plasticity principles. Generally, according to the reviewed studies, behavioral performance is enhanced in those aspects for which both the deprived and the overtaking senses provide adequate processing resources. Furthermore, the behavioral enhancements observed in the overtaking sense (i.e., vision in the case of deafness and audition in the case of blindness) are clearly limited by the processing resources of the overtaking modality. Thus, the brain regions that were previously recruited during the behavioral performance of the deprived sense now support a similar behavioral performance for the overtaking sense. This finding suggests a more input-unspecific and processing principle-based organization of the brain. Finally, we highlight the importance of controlling for and stating factors that might impact neural plasticity and the need for further research into visual temporal processing in deaf subjects.

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Witness and Silence in Neuromarketing: Managing the Gap between Science and Its Application

Science Technology & Human Values ◽

10.1177/0162243919829222 ◽

2019 ◽

Vol 45 (1) ◽

pp. 62-86 ◽

Cited By ~ 3

Author(s):

Jonna Brenninkmeijer ◽

Tanja Schneider ◽

Steve Woolgar

Keyword(s):

Science And Technology Studies ◽

Test Subject ◽

Ethnographic Study ◽

Commercial Application ◽

Research Fields ◽

Brain Responses ◽

Self Reports ◽

Commercial Research ◽

The Brain

Over the past decades commercial and academic market(ing) researchers have studied consumers through a range of different methods including surveys, focus groups, or interviews. More recently, some have turned to the growing field of neuroscience to understand consumers. Neuromarketing employs brain imaging, scanning, or other brain measurement technologies to capture consumers’ (brain) responses to marketing stimuli and to circumvent the “problem” of relying on consumers’ self-reports. This paper presents findings of an ethnographic study of neuromarketing research practices in one neuromarketing consultancy. Our access to the minutiae of commercial neuromarketing research provides important insights into how neuromarketers silence the neuromarketing test subject in their experiments and presentations and how they introduce the brain as an unimpeachable witness. This enables us conceptually to reconsider the role of witnesses in the achievement of scientific credibility, as prominently discussed in science and technology studies (STS). Specifically, we probe the role witnesses and silences play in establishing and maintaining credibility in and for “commercial research laboratories.” We propose three themes that have wider relevance for STS researchers and require further attention when studying newly emerging research fields and practices that straddle science and its commercial application.

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NEUROBIOLOGICAL UNDERPINNINGS OF LANGUAGE IN AUTISM SPECTRUM DISORDERS

Annual Review of Applied Linguistics ◽

10.1017/s0267190508080021 ◽

2008 ◽

Vol 28 ◽

pp. 128-149 ◽

Cited By ~ 2

Author(s):

Inge-Marie Eigsti ◽

Jillian M. Schuh

Keyword(s):

Cognitive Task ◽

Neurodevelopmental Disorder ◽

Autism Spectrum ◽

Behavioral Differences ◽

Brain Organization ◽

Communicative Skills ◽

Complex Cognitive Task ◽

Brain And Behavior ◽

And Behavior ◽

The Brain

As a neurodevelopmental disorder, autism is characterized by impairments and differences at the levels of both brain and behavior. Communicative impairments in autism are a core feature of the disorder, and a rapidly expanding literature is exploring language in autism using the tools of cognitive neuroscience, particularly electroencephalography and brain imaging. Recent research indicates consistent differences in the degree to which language-specific processes are lateralized in the brain, and it also suggests that language impairments are linked to differences in brain structure that may lead to inefficient coordination of activity between different neural assemblies to achieve a complex cognitive task, defined as functional connectivity. We review findings from current work and suggest that neurobiological data are critical in our ability to understand the mechanisms underlying behavioral differences in communicative skills. Going beyond simple dichotomies between delayed versus deviant development, we can use such data to ask whether behavior reflects processes that are merely inefficient or, instead, whether impairments at the behavioral level reflect fundamental differences in brain organization and the networks involved in various tasks.

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Neuroinflammatory and autonomic mechanisms in diabetes and hypertension

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.00012.2016 ◽

2016 ◽

Vol 311 (1) ◽

pp. E32-E41 ◽

Cited By ~ 27

Author(s):

Cheng Han ◽

Matthew W. Rice ◽

Dongsheng Cai

Keyword(s):

Blood Pressure ◽

Metabolic Syndrome ◽

Nervous System ◽

Insulin Secretion ◽

Interdisciplinary Studies ◽

Sympathetic Activation ◽

Pressure Balance ◽

Research Fields ◽

Hypothalamic Inflammation ◽

The Brain

Interdisciplinary studies in the research fields of endocrinology and immunology show that obesity-associated overnutrition leads to neuroinflammatory molecular changes, in particular in the hypothalamus, chronically causing various disorders known as elements of metabolic syndrome. In this process, neural or hypothalamic inflammation impairs the neuroendocrine and autonomic regulation of the brain over blood pressure and glucose homeostasis as well as insulin secretion, and elevated sympathetic activation has been appreciated as a critical mediator. This review describes the involved physiology and mechanisms, with a focus on glucose and blood pressure balance, and suggests that neuroinflammation employs the autonomic nervous system to mediate the development of diabetes and hypertension.

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Variation and variability in Drosophila grooming behavior

10.1101/2020.08.15.252627 ◽

2020 ◽

Author(s):

Joshua M. Mueller ◽

Neil Zhang ◽

Jean M. Carlson ◽

Julie H. Simpson

Keyword(s):

Sensory Input ◽

Social Benefits ◽

Behavioral Variability ◽

Behavioral Differences ◽

Observable Effect ◽

Grooming Behavior ◽

Sensory Inputs ◽

Natural Range ◽

Influence Behavior ◽

Over Time

Behavioral differences can be observed between species or populations (variation) or between individuals in a genetically similar population (variability). Here, we investigate genetic differences as a possible source of variation and variability in Drosophila grooming. Drosophila grooming behavior confers survival and social benefits. Although the leg movements that constitute the grooming sequence are stereotyped, their order is not fixed. Grooming features of five drosophilid species exposed to a dust irritant were analyzed. Components of grooming behavior were conserved between and within species. However, significant differences in grooming syntax were identified, corresponding both to anterior and posterior grooming actions. Genetic heterogeneity was not found to be related to grooming variability, as melanogaster flies bred to increase genetic het-erogeneity did not exhibit increased variability in grooming syntax. Likewise, no relationship between decreased heterogeneity and variability was identified. Finally, individual melanogaster flies were observed on consecutive days to determine the degree of variability of grooming behavior within an individual over time. Individual flies were not found to possess strong, stable grooming traits over several recordings. Additionally, standardization of sensory input using optogenetics did not eliminate grooming variability. In aggregate, these data suggest the importance of sensory inputs and other factors such as life history in grooming variability.Significance StatementBroadly speaking, genes influence behavior, but genes also play a role in determining the natural range of behavioral variability. Here, we show that Drosophila species exhibit differences in grooming behavior both between and within species. In particular, we demonstrate that transitions between grooming actions differ significantly between drosophilid species and common melanogaster stock lines, suggesting that these actions are under partial genetic control. Within melanogaster, however, genotype had no observable effect on the range of grooming behavior. This work establishes similarities in grooming behavior between drosophilids while also highlighting important differences, providing targets for future explorations of genetic, sensory, and developmental contributions to behavior.

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Tissue-specific modification of cellular bioelectrical activities using the chemogenetic tool, DREADD, in zebrafish

10.1101/2021.06.22.449481 ◽

2021 ◽

Author(s):

Martin R. Silic ◽

GuangJun Zhang

Keyword(s):

Membrane Potential ◽

Model Organism ◽

Cellular Membrane ◽

Designer Drugs ◽

Pigment Cells ◽

Transgenic Zebrafish ◽

Zebrafish Model ◽

Tissue Specific ◽

Morphological Alterations ◽

Research Fields

Cellular electronic activity plays an essential role in neuronal communication. Manipulation and visualization of cellular membrane potential remain essential tasks in order to study electrical signaling in living organisms. Light-controlled optogenetic and designed chemical-controlled chemogenetic tools were developed to manipulate cellular electric activities for neuroscience research. One of the most common chemogenetic tools is DREADD (designer receptors exclusively activated by designer drugs). It has been extensively utilized due to its convenience and long-lasting effects in murine and primate models, but not in zebrafish, a leading model organism in various research fields. Here, we first establish multiple tissue-specific transgenic zebrafish lines that express two different DREADDs with a genetically encoded voltage indicator, ASAP2s. We observed voltage changes in zebrafish melanophores, epidermis, and neurons by hM4DGi or rM3DGs receptors measured by ASAP2s fluorescence intensity. Alteration to melanophore bioelectricity by DREADD generated dynamic electric signals and resulted in morphological alterations to pigment cells. We also tested a few agonists and found that the latest generation performs better than clozapine N-oxide (CNO). Collectively, our experiments demonstrate that DREADD can be utilized to manipulate cell-specific membrane potential in the zebrafish model. The availability of this tool in zebrafish will offer a new resource for a variety of bioelectricity research fields such as neuroscience, cardiology, and developmental biology.

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