Acute Effects of Four Major Trace Amines on Zebrafish Behavioral, Neurochemical, and Neuroendocrine Responses

Thalia M. Quintanilha; Pietra M. Costa; Ana L.S. Cardoso; Gabrieli S. Battú; Leonardo M. Bastos; Bruno P. dos Santos; Talise E. Müller; Tiago F. de Oliveira; Angelo Piato; Allan V. Kalueff; Murilo S. de Abreu

doi:10.1111/jnc.70116

Acute Effects of Four Major Trace Amines on Zebrafish Behavioral, Neurochemical, and Neuroendocrine Responses

Thalia M. Quintanilha, Pietra M. Costa, Ana L.S. Cardoso, Gabrieli S. Battú, Leonardo M. Bastos, Bruno P. dos Santos, Talise E. Müller, Tiago F. de Oliveira, Angelo Piato, Allan V. Kalueff^*, Murilo S. de Abreu^*

^*Corresponding author for this work

Department of Biosciences and Bioinformatics

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

Abstract

Trace amines are biologically active compounds endogenously synthesized in the brain in small amounts and structurally resembling biogenic amines. Acting via specific trace amine-associated receptors (TAARs), they induce robust behavioral and physiological effects in humans and animals. However, although TAAR ligands have recently been suggested as novel putative anxiolytics, their central effects and evolutionary conservation of activity remain poorly understood. Here, we evaluated the acute effects of four major trace amines (beta-phenylethylamine, tryptamine, tyramine, and octopamine) on zebrafish anxiety-like and social (shoaling) behavior, as well as neurochemical and neuroendocrine (cortisol) responses. Beta-phenylethylamine, at a low concentration (12 μg/L), caused overt anxiolytic-like effects and reduced brain acetylcholine levels; at a high concentration (1000 μg/L) increased zebrafish anxiety-like behavior and whole-body cortisol levels. Acute tryptamine exposure (7 mg/L) evoked an anxiogenic-like effect, reduced shoaling and social interaction, and elevated brain acetylcholine and whole-body cortisol. Acute exposure to tyramine (15 μg/L) and octopamine (125, 500, and 1500 μg/L) induced similar anxiogenic-like effects, accompanied by increased whole-body cortisol without altering brain acetylcholine levels. Collectively, these findings not only emphasize the important role of trace amines in brain and behavior but support the growing complexity of their CNS effects in vivo across taxa and highlight the relevance of zebrafish models for drug screening based on targeting brain TAARs. (Figure presented.).

Original language	English
Article number	e70116
Journal	Journal of Neurochemistry
Volume	169
Issue number	6
DOIs	https://doi.org/10.1111/jnc.70116
Publication status	Published - Jun 2025

Keywords

acetylcholine
anxiety
behavior
cortisol
trace amines
zebrafish

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10.1111/jnc.70116

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Quintanilha, T. M., Costa, P. M., Cardoso, A. L. S., Battú, G. S., Bastos, L. M., dos Santos, B. P., Müller, T. E., de Oliveira, T. F., Piato, A., Kalueff, A. V., & de Abreu, M. S. (2025). Acute Effects of Four Major Trace Amines on Zebrafish Behavioral, Neurochemical, and Neuroendocrine Responses. Journal of Neurochemistry, 169(6), Article e70116. https://doi.org/10.1111/jnc.70116

@article{19fb57b74b5b4bc79542d90dc63f27f9,

title = "Acute Effects of Four Major Trace Amines on Zebrafish Behavioral, Neurochemical, and Neuroendocrine Responses",

abstract = "Trace amines are biologically active compounds endogenously synthesized in the brain in small amounts and structurally resembling biogenic amines. Acting via specific trace amine-associated receptors (TAARs), they induce robust behavioral and physiological effects in humans and animals. However, although TAAR ligands have recently been suggested as novel putative anxiolytics, their central effects and evolutionary conservation of activity remain poorly understood. Here, we evaluated the acute effects of four major trace amines (beta-phenylethylamine, tryptamine, tyramine, and octopamine) on zebrafish anxiety-like and social (shoaling) behavior, as well as neurochemical and neuroendocrine (cortisol) responses. Beta-phenylethylamine, at a low concentration (12 μg/L), caused overt anxiolytic-like effects and reduced brain acetylcholine levels; at a high concentration (1000 μg/L) increased zebrafish anxiety-like behavior and whole-body cortisol levels. Acute tryptamine exposure (7 mg/L) evoked an anxiogenic-like effect, reduced shoaling and social interaction, and elevated brain acetylcholine and whole-body cortisol. Acute exposure to tyramine (15 μg/L) and octopamine (125, 500, and 1500 μg/L) induced similar anxiogenic-like effects, accompanied by increased whole-body cortisol without altering brain acetylcholine levels. Collectively, these findings not only emphasize the important role of trace amines in brain and behavior but support the growing complexity of their CNS effects in vivo across taxa and highlight the relevance of zebrafish models for drug screening based on targeting brain TAARs. (Figure presented.).",

keywords = "acetylcholine, anxiety, behavior, cortisol, trace amines, zebrafish",

author = "Quintanilha, {Thalia M.} and Costa, {Pietra M.} and Cardoso, {Ana L.S.} and Batt{\'u}, {Gabrieli S.} and Bastos, {Leonardo M.} and {dos Santos}, {Bruno P.} and M{\"u}ller, {Talise E.} and {de Oliveira}, {Tiago F.} and Angelo Piato and Kalueff, {Allan V.} and {de Abreu}, {Murilo S.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Journal of Neurochemistry published by John Wiley & Sons Ltd on behalf of International Society for Neurochemistry.",

year = "2025",

month = jun,

doi = "10.1111/jnc.70116",

language = "English",

volume = "169",

journal = "Journal of Neurochemistry",

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T1 - Acute Effects of Four Major Trace Amines on Zebrafish Behavioral, Neurochemical, and Neuroendocrine Responses

AU - Quintanilha, Thalia M.

AU - Costa, Pietra M.

AU - Cardoso, Ana L.S.

AU - Battú, Gabrieli S.

AU - Bastos, Leonardo M.

AU - dos Santos, Bruno P.

AU - Müller, Talise E.

AU - de Oliveira, Tiago F.

AU - Piato, Angelo

AU - Kalueff, Allan V.

AU - de Abreu, Murilo S.

PY - 2025/6

Y1 - 2025/6

N2 - Trace amines are biologically active compounds endogenously synthesized in the brain in small amounts and structurally resembling biogenic amines. Acting via specific trace amine-associated receptors (TAARs), they induce robust behavioral and physiological effects in humans and animals. However, although TAAR ligands have recently been suggested as novel putative anxiolytics, their central effects and evolutionary conservation of activity remain poorly understood. Here, we evaluated the acute effects of four major trace amines (beta-phenylethylamine, tryptamine, tyramine, and octopamine) on zebrafish anxiety-like and social (shoaling) behavior, as well as neurochemical and neuroendocrine (cortisol) responses. Beta-phenylethylamine, at a low concentration (12 μg/L), caused overt anxiolytic-like effects and reduced brain acetylcholine levels; at a high concentration (1000 μg/L) increased zebrafish anxiety-like behavior and whole-body cortisol levels. Acute tryptamine exposure (7 mg/L) evoked an anxiogenic-like effect, reduced shoaling and social interaction, and elevated brain acetylcholine and whole-body cortisol. Acute exposure to tyramine (15 μg/L) and octopamine (125, 500, and 1500 μg/L) induced similar anxiogenic-like effects, accompanied by increased whole-body cortisol without altering brain acetylcholine levels. Collectively, these findings not only emphasize the important role of trace amines in brain and behavior but support the growing complexity of their CNS effects in vivo across taxa and highlight the relevance of zebrafish models for drug screening based on targeting brain TAARs. (Figure presented.).

AB - Trace amines are biologically active compounds endogenously synthesized in the brain in small amounts and structurally resembling biogenic amines. Acting via specific trace amine-associated receptors (TAARs), they induce robust behavioral and physiological effects in humans and animals. However, although TAAR ligands have recently been suggested as novel putative anxiolytics, their central effects and evolutionary conservation of activity remain poorly understood. Here, we evaluated the acute effects of four major trace amines (beta-phenylethylamine, tryptamine, tyramine, and octopamine) on zebrafish anxiety-like and social (shoaling) behavior, as well as neurochemical and neuroendocrine (cortisol) responses. Beta-phenylethylamine, at a low concentration (12 μg/L), caused overt anxiolytic-like effects and reduced brain acetylcholine levels; at a high concentration (1000 μg/L) increased zebrafish anxiety-like behavior and whole-body cortisol levels. Acute tryptamine exposure (7 mg/L) evoked an anxiogenic-like effect, reduced shoaling and social interaction, and elevated brain acetylcholine and whole-body cortisol. Acute exposure to tyramine (15 μg/L) and octopamine (125, 500, and 1500 μg/L) induced similar anxiogenic-like effects, accompanied by increased whole-body cortisol without altering brain acetylcholine levels. Collectively, these findings not only emphasize the important role of trace amines in brain and behavior but support the growing complexity of their CNS effects in vivo across taxa and highlight the relevance of zebrafish models for drug screening based on targeting brain TAARs. (Figure presented.).

KW - acetylcholine

KW - anxiety

KW - behavior

KW - cortisol

KW - trace amines

KW - zebrafish

UR - http://www.scopus.com/inward/record.url?scp=105007602825&partnerID=8YFLogxK

U2 - 10.1111/jnc.70116

DO - 10.1111/jnc.70116

M3 - Article

C2 - 40476341

AN - SCOPUS:105007602825

SN - 0022-3042

VL - 169

JO - Journal of Neurochemistry

JF - Journal of Neurochemistry

IS - 6

M1 - e70116

ER -

Acute Effects of Four Major Trace Amines on Zebrafish Behavioral, Neurochemical, and Neuroendocrine Responses

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Keywords

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