The zebrafish tail immobilization (ZTI) test as a new tool to assess stress-related behavior and a potential screen for drugs affecting despair-like states

K.A. Demin; A.M. Lakstygal; M.V. Chernysh; N.A. Krotova; A.S. Taranov; N.P. Ilyin; M.V. Seredinskaya; N. Tagawa; A.K. Savva; M.S. Mor; M.L. Vasyutina; E.V. Efimova; T.O. Kolesnikova; R.R. Gainetdinov; T. Strekalova; T.G. Amstislavskaya; M.S. de Abreu; A.V. Kalueff

doi:10.1016/j.jneumeth.2020.108637

The zebrafish tail immobilization (ZTI) test as a new tool to assess stress-related behavior and a potential screen for drugs affecting despair-like states

K.A. Demin^*, A.M. Lakstygal, M.V. Chernysh, N.A. Krotova, A.S. Taranov, N.P. Ilyin, M.V. Seredinskaya, N. Tagawa, A.K. Savva, M.S. Mor, M.L. Vasyutina, E.V. Efimova, T.O. Kolesnikova, R.R. Gainetdinov, T. Strekalova, T.G. Amstislavskaya, M.S. de Abreu, A.V. Kalueff^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Background: Affective disorders, especially depression and anxiety, are highly prevalent, debilitating mental illnesses. Animal experimental models are a valuable tool in translational affective neuroscience research. A hallmark phenotype of clinical and experimental depression, the learned helplessness, has become a key target for 'behavioral despair'-based animal models of depression. The zebrafish (Danio rerio) has recently emerged as a promising novel organism for affective disease modeling and CNS drug screening. Despite being widely used to assess stress and anxiety-like behaviors, there are presently no clear-cut despair-like models in zebrafish.New Method: Here, we introduce a novel behavioral paradigm, the zebrafish tail immobilization (ZTI) test, as a potential tool to assess zebrafish despair-like behavior. Conceptually similar to rodent 'despair' models, the ZTI protocol involves immobilizing the caudal half of the fish body for 5 min, leaving the cranial part to move freely, suspended vertically in a small beaker with water.Results: To validate this model, we used exposure to low-voltage electric shock, alarm pheromone, selected antidepressants (sertraline and amitriptyline) and an anxiolytic drug benzodiazepine (phenazepam), assessing the number of mobility episodes, time spent 'moving', total distance moved and other activity measures of the cranial part of the body, using video-tracking. Both electric shock and alarm pheromone decreased zebrafish activity in this test, antidepressants increased it, and phenazepam was inactive. Furthermore, a 5-min ZTI exposure increased serotonin turnover, elevating the 5-hydroxyindoleacetic acid/serotonin ratio in zebrafish brain, while electric shock prior to ZTI elevated both this and the 3,4-dihydroxyphenylacetic acid/dopamine ratios. In contrast, preexposure to antidepressants sertraline and amitriptyline lowered both ratios, compared to the ZTI test-exposed fish.Comparison with ExistingMethod(s): The ZTI test is the first despair-like experimental model in zebrafish.Conclusions: Collectively, this study suggests the ZTI test as a potentially useful protocol to assess stress-/despairrelated behaviors, potentially relevant to CNS drug screening and behavioral phenotyping of zebrafish.

Original language	English
Article number	108637
Number of pages	14
Journal	Journal of Neuroscience Methods
Volume	337
DOIs	https://doi.org/10.1016/j.jneumeth.2020.108637
Publication status	Published - 1 May 2020

Keywords

acute restraint stress
adult zebrafish
animal-models
anxiety-like behavior
assessing antidepressant activity
behavioral despair
chronic mild stress
depression
depression-like behavior
drug screening
forced swim test
immobilization
methyl-d-aspartate
suspension test
zebrafish
Immobilization
CHRONIC MILD STRESS
FORCED SWIM TEST
Drug screening
ANXIETY-LIKE BEHAVIOR
ANIMAL-MODELS
ACUTE RESTRAINT STRESS
ASSESSING ANTIDEPRESSANT ACTIVITY
Zebrafish
Depression
ADULT ZEBRAFISH
Behavioral despair
SUSPENSION TEST
DEPRESSION-LIKE BEHAVIOR
METHYL-D-ASPARTATE

Access to Document

10.1016/j.jneumeth.2020.108637

Cite this

Demin, K. A., Lakstygal, A. M., Chernysh, M. V., Krotova, N. A., Taranov, A. S., Ilyin, N. P., Seredinskaya, M. V., Tagawa, N., Savva, A. K., Mor, M. S., Vasyutina, M. L., Efimova, E. V., Kolesnikova, T. O., Gainetdinov, R. R., Strekalova, T., Amstislavskaya, T. G., de Abreu, M. S., & Kalueff, A. V. (2020). The zebrafish tail immobilization (ZTI) test as a new tool to assess stress-related behavior and a potential screen for drugs affecting despair-like states. Journal of Neuroscience Methods, 337, Article 108637. https://doi.org/10.1016/j.jneumeth.2020.108637

@article{1b215eca73734ee18455ffe21f677576,

title = "The zebrafish tail immobilization (ZTI) test as a new tool to assess stress-related behavior and a potential screen for drugs affecting despair-like states",

abstract = "Background: Affective disorders, especially depression and anxiety, are highly prevalent, debilitating mental illnesses. Animal experimental models are a valuable tool in translational affective neuroscience research. A hallmark phenotype of clinical and experimental depression, the learned helplessness, has become a key target for 'behavioral despair'-based animal models of depression. The zebrafish (Danio rerio) has recently emerged as a promising novel organism for affective disease modeling and CNS drug screening. Despite being widely used to assess stress and anxiety-like behaviors, there are presently no clear-cut despair-like models in zebrafish.New Method: Here, we introduce a novel behavioral paradigm, the zebrafish tail immobilization (ZTI) test, as a potential tool to assess zebrafish despair-like behavior. Conceptually similar to rodent 'despair' models, the ZTI protocol involves immobilizing the caudal half of the fish body for 5 min, leaving the cranial part to move freely, suspended vertically in a small beaker with water.Results: To validate this model, we used exposure to low-voltage electric shock, alarm pheromone, selected antidepressants (sertraline and amitriptyline) and an anxiolytic drug benzodiazepine (phenazepam), assessing the number of mobility episodes, time spent 'moving', total distance moved and other activity measures of the cranial part of the body, using video-tracking. Both electric shock and alarm pheromone decreased zebrafish activity in this test, antidepressants increased it, and phenazepam was inactive. Furthermore, a 5-min ZTI exposure increased serotonin turnover, elevating the 5-hydroxyindoleacetic acid/serotonin ratio in zebrafish brain, while electric shock prior to ZTI elevated both this and the 3,4-dihydroxyphenylacetic acid/dopamine ratios. In contrast, preexposure to antidepressants sertraline and amitriptyline lowered both ratios, compared to the ZTI test-exposed fish.Comparison with ExistingMethod(s): The ZTI test is the first despair-like experimental model in zebrafish.Conclusions: Collectively, this study suggests the ZTI test as a potentially useful protocol to assess stress-/despairrelated behaviors, potentially relevant to CNS drug screening and behavioral phenotyping of zebrafish.",

keywords = "acute restraint stress, adult zebrafish, animal-models, anxiety-like behavior, assessing antidepressant activity, behavioral despair, chronic mild stress, depression, depression-like behavior, drug screening, forced swim test, immobilization, methyl-d-aspartate, suspension test, zebrafish, Immobilization, CHRONIC MILD STRESS, FORCED SWIM TEST, Drug screening, ANXIETY-LIKE BEHAVIOR, ANIMAL-MODELS, ACUTE RESTRAINT STRESS, ASSESSING ANTIDEPRESSANT ACTIVITY, Zebrafish, Depression, ADULT ZEBRAFISH, Behavioral despair, SUSPENSION TEST, DEPRESSION-LIKE BEHAVIOR, METHYL-D-ASPARTATE",

author = "K.A. Demin and A.M. Lakstygal and M.V. Chernysh and N.A. Krotova and A.S. Taranov and N.P. Ilyin and M.V. Seredinskaya and N. Tagawa and A.K. Savva and M.S. Mor and M.L. Vasyutina and E.V. Efimova and T.O. Kolesnikova and R.R. Gainetdinov and T. Strekalova and T.G. Amstislavskaya and {de Abreu}, M.S. and A.V. Kalueff",

note = "Funding Information: The research was supported by the Russian Foundation for Basic Research (RFBR) grant 18‐34‐00996 . KAD is supported by the President of Russia Graduate Fellowship and the Special Rector's Productivity Fellowship for SPSU PhD Students . The laboratory is supported by the Russian Science Foundation grant 19‐15‐00053 . AVK is the Chair of the International Zebrafish Neuroscience Research Consortium (ZNRC) and President of the International Stress and Behavior Society (ISBS, www.stress-and-behavior.com ) that coordinated this collaborative multi-laboratory project. He is supported by the Southwest University Zebrafish Platform Construction Fund . The funders had no role in the design, analyses and interpretation of the submitted study, or decision to publish. The authors declare no conflicts of interest. Funding Information: The research was supported by the Russian Foundation for Basic Research (RFBR) grant 18?34?00996. KAD is supported by the President of Russia Graduate Fellowship and the Special Rector's Productivity Fellowship for SPSU PhD Students. The laboratory is supported by the Russian Science Foundation grant 19?15?00053. AVK is the Chair of the International Zebrafish Neuroscience Research Consortium (ZNRC) and President of the International Stress and Behavior Society (ISBS, www.stress-and-behavior.com) that coordinated this collaborative multi-laboratory project. He is supported by the Southwest University Zebrafish Platform Construction Fund. The funders had no role in the design, analyses and interpretation of the submitted study, or decision to publish. The authors declare no conflicts of interest. Publisher Copyright: {\textcopyright} 2020 Elsevier B.V.",

year = "2020",

month = may,

day = "1",

doi = "10.1016/j.jneumeth.2020.108637",

language = "English",

volume = "337",

journal = "Journal of Neuroscience Methods",

issn = "0165-0270",

publisher = "Elsevier Science",

}

Demin, KA, Lakstygal, AM, Chernysh, MV, Krotova, NA, Taranov, AS, Ilyin, NP, Seredinskaya, MV, Tagawa, N, Savva, AK, Mor, MS, Vasyutina, ML, Efimova, EV, Kolesnikova, TO, Gainetdinov, RR, Strekalova, T, Amstislavskaya, TG, de Abreu, MS & Kalueff, AV 2020, 'The zebrafish tail immobilization (ZTI) test as a new tool to assess stress-related behavior and a potential screen for drugs affecting despair-like states', Journal of Neuroscience Methods, vol. 337, 108637. https://doi.org/10.1016/j.jneumeth.2020.108637

TY - JOUR

T1 - The zebrafish tail immobilization (ZTI) test as a new tool to assess stress-related behavior and a potential screen for drugs affecting despair-like states

AU - Demin, K.A.

AU - Lakstygal, A.M.

AU - Chernysh, M.V.

AU - Krotova, N.A.

AU - Taranov, A.S.

AU - Ilyin, N.P.

AU - Seredinskaya, M.V.

AU - Tagawa, N.

AU - Savva, A.K.

AU - Mor, M.S.

AU - Vasyutina, M.L.

AU - Efimova, E.V.

AU - Kolesnikova, T.O.

AU - Gainetdinov, R.R.

AU - Strekalova, T.

AU - Amstislavskaya, T.G.

AU - de Abreu, M.S.

AU - Kalueff, A.V.

N1 - Funding Information: The research was supported by the Russian Foundation for Basic Research (RFBR) grant 18‐34‐00996 . KAD is supported by the President of Russia Graduate Fellowship and the Special Rector's Productivity Fellowship for SPSU PhD Students . The laboratory is supported by the Russian Science Foundation grant 19‐15‐00053 . AVK is the Chair of the International Zebrafish Neuroscience Research Consortium (ZNRC) and President of the International Stress and Behavior Society (ISBS, www.stress-and-behavior.com ) that coordinated this collaborative multi-laboratory project. He is supported by the Southwest University Zebrafish Platform Construction Fund . The funders had no role in the design, analyses and interpretation of the submitted study, or decision to publish. The authors declare no conflicts of interest. Funding Information: The research was supported by the Russian Foundation for Basic Research (RFBR) grant 18?34?00996. KAD is supported by the President of Russia Graduate Fellowship and the Special Rector's Productivity Fellowship for SPSU PhD Students. The laboratory is supported by the Russian Science Foundation grant 19?15?00053. AVK is the Chair of the International Zebrafish Neuroscience Research Consortium (ZNRC) and President of the International Stress and Behavior Society (ISBS, www.stress-and-behavior.com) that coordinated this collaborative multi-laboratory project. He is supported by the Southwest University Zebrafish Platform Construction Fund. The funders had no role in the design, analyses and interpretation of the submitted study, or decision to publish. The authors declare no conflicts of interest. Publisher Copyright: © 2020 Elsevier B.V.

PY - 2020/5/1

Y1 - 2020/5/1

N2 - Background: Affective disorders, especially depression and anxiety, are highly prevalent, debilitating mental illnesses. Animal experimental models are a valuable tool in translational affective neuroscience research. A hallmark phenotype of clinical and experimental depression, the learned helplessness, has become a key target for 'behavioral despair'-based animal models of depression. The zebrafish (Danio rerio) has recently emerged as a promising novel organism for affective disease modeling and CNS drug screening. Despite being widely used to assess stress and anxiety-like behaviors, there are presently no clear-cut despair-like models in zebrafish.New Method: Here, we introduce a novel behavioral paradigm, the zebrafish tail immobilization (ZTI) test, as a potential tool to assess zebrafish despair-like behavior. Conceptually similar to rodent 'despair' models, the ZTI protocol involves immobilizing the caudal half of the fish body for 5 min, leaving the cranial part to move freely, suspended vertically in a small beaker with water.Results: To validate this model, we used exposure to low-voltage electric shock, alarm pheromone, selected antidepressants (sertraline and amitriptyline) and an anxiolytic drug benzodiazepine (phenazepam), assessing the number of mobility episodes, time spent 'moving', total distance moved and other activity measures of the cranial part of the body, using video-tracking. Both electric shock and alarm pheromone decreased zebrafish activity in this test, antidepressants increased it, and phenazepam was inactive. Furthermore, a 5-min ZTI exposure increased serotonin turnover, elevating the 5-hydroxyindoleacetic acid/serotonin ratio in zebrafish brain, while electric shock prior to ZTI elevated both this and the 3,4-dihydroxyphenylacetic acid/dopamine ratios. In contrast, preexposure to antidepressants sertraline and amitriptyline lowered both ratios, compared to the ZTI test-exposed fish.Comparison with ExistingMethod(s): The ZTI test is the first despair-like experimental model in zebrafish.Conclusions: Collectively, this study suggests the ZTI test as a potentially useful protocol to assess stress-/despairrelated behaviors, potentially relevant to CNS drug screening and behavioral phenotyping of zebrafish.

AB - Background: Affective disorders, especially depression and anxiety, are highly prevalent, debilitating mental illnesses. Animal experimental models are a valuable tool in translational affective neuroscience research. A hallmark phenotype of clinical and experimental depression, the learned helplessness, has become a key target for 'behavioral despair'-based animal models of depression. The zebrafish (Danio rerio) has recently emerged as a promising novel organism for affective disease modeling and CNS drug screening. Despite being widely used to assess stress and anxiety-like behaviors, there are presently no clear-cut despair-like models in zebrafish.New Method: Here, we introduce a novel behavioral paradigm, the zebrafish tail immobilization (ZTI) test, as a potential tool to assess zebrafish despair-like behavior. Conceptually similar to rodent 'despair' models, the ZTI protocol involves immobilizing the caudal half of the fish body for 5 min, leaving the cranial part to move freely, suspended vertically in a small beaker with water.Results: To validate this model, we used exposure to low-voltage electric shock, alarm pheromone, selected antidepressants (sertraline and amitriptyline) and an anxiolytic drug benzodiazepine (phenazepam), assessing the number of mobility episodes, time spent 'moving', total distance moved and other activity measures of the cranial part of the body, using video-tracking. Both electric shock and alarm pheromone decreased zebrafish activity in this test, antidepressants increased it, and phenazepam was inactive. Furthermore, a 5-min ZTI exposure increased serotonin turnover, elevating the 5-hydroxyindoleacetic acid/serotonin ratio in zebrafish brain, while electric shock prior to ZTI elevated both this and the 3,4-dihydroxyphenylacetic acid/dopamine ratios. In contrast, preexposure to antidepressants sertraline and amitriptyline lowered both ratios, compared to the ZTI test-exposed fish.Comparison with ExistingMethod(s): The ZTI test is the first despair-like experimental model in zebrafish.Conclusions: Collectively, this study suggests the ZTI test as a potentially useful protocol to assess stress-/despairrelated behaviors, potentially relevant to CNS drug screening and behavioral phenotyping of zebrafish.

KW - acute restraint stress

KW - adult zebrafish

KW - animal-models

KW - anxiety-like behavior

KW - assessing antidepressant activity

KW - behavioral despair

KW - chronic mild stress

KW - depression

KW - depression-like behavior

KW - drug screening

KW - forced swim test

KW - immobilization

KW - methyl-d-aspartate

KW - suspension test

KW - zebrafish

KW - Immobilization

KW - CHRONIC MILD STRESS

KW - FORCED SWIM TEST

KW - Drug screening

KW - ANXIETY-LIKE BEHAVIOR

KW - ANIMAL-MODELS

KW - ACUTE RESTRAINT STRESS

KW - ASSESSING ANTIDEPRESSANT ACTIVITY

KW - Zebrafish

KW - Depression

KW - ADULT ZEBRAFISH

KW - Behavioral despair

KW - SUSPENSION TEST

KW - DEPRESSION-LIKE BEHAVIOR

KW - METHYL-D-ASPARTATE

U2 - 10.1016/j.jneumeth.2020.108637

DO - 10.1016/j.jneumeth.2020.108637

M3 - Article

C2 - 32081675

SN - 0165-0270

VL - 337

JO - Journal of Neuroscience Methods

JF - Journal of Neuroscience Methods

M1 - 108637

ER -