Understanding acute stress-mediated immunity in teleost fish

•Stress/immune interactions are conserved between teleosts and mammals.•In mammals chronic stress is immunosuppressive, acute stress can be immunoenhansive.•In teleosts chronic stress is immunosuppressive, but effects of acute stress are not clear.•Teleost acute stress has different effects than chr...

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Published inFish and shellfish immunology reports Vol. 2; p. 100010
Main Authors Guo, Huming, Dixon, Brian
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2021
Elsevier
Subjects
Acute stress
Catecholamines
cortisol
Fish
immune response
immune system
Immunity
Immunomodulation
immunosuppression
mammals
shellfish
Stress hormones
Teleost
Teleost
Acute stress
Immunomodulation
Fish
Catecholamines
Immunity
Stress hormones
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Abstract •Stress/immune interactions are conserved between teleosts and mammals.•In mammals chronic stress is immunosuppressive, acute stress can be immunoenhansive.•In teleosts chronic stress is immunosuppressive, but effects of acute stress are not clear.•Teleost acute stress has different effects than chronic stress but needs more study. The abilities and ways in which organisms respond to stress have long been demonstrated to affect the immune response of the organism. In mammalian studies, researchers have observed that chronic/long-term stress has a pronounced immunosuppressive effect, while studies in acute stress have demonstrated some immunoenhansive properties. These dynamics have been somewhat conserved in fish, as the effects of cortisol and chronic stress on the fish immune system are distinctly immunosuppressive, however, acute stress mediated immunomodulation is still poorly understood. This review explores the lesser studied non-cortisol stress hormones relevant to acute stress, and how they affect the immune response in Fish. Additionally, the effects of acute stress on various innate immune parameters and the regulation of immune related transcripts are discussed. Subsequently, this review attempts to establish the temporal transition between acute and chronic stress in the context of immune mediation. The conclusions of this review suggest that the modulating effects acute stress has on fish immunity is significantly different than that of chronic stress, yet more focused research must be conducted to further elucidate the mechanisms in greater detail.
AbstractList The abilities and ways in which organisms respond to stress have long been demonstrated to affect the immune response of the organism. In mammalian studies, researchers have observed that chronic/long-term stress has a pronounced immunosuppressive effect, while studies in acute stress have demonstrated some immunoenhansive properties. These dynamics have been somewhat conserved in fish, as the effects of cortisol and chronic stress on the fish immune system are distinctly immunosuppressive, however, acute stress mediated immunomodulation is still poorly understood. This review explores the lesser studied non-cortisol stress hormones relevant to acute stress, and how they affect the immune response in Fish. Additionally, the effects of acute stress on various innate immune parameters and the regulation of immune related transcripts are discussed. Subsequently, this review attempts to establish the temporal transition between acute and chronic stress in the context of immune mediation. The conclusions of this review suggest that the modulating effects acute stress has on fish immunity is significantly different than that of chronic stress, yet more focused research must be conducted to further elucidate the mechanisms in greater detail.
• Stress/immune interactions are conserved between teleosts and mammals. • In mammals chronic stress is immunosuppressive, acute stress can be immunoenhansive. • In teleosts chronic stress is immunosuppressive, but effects of acute stress are not clear. • Teleost acute stress has different effects than chronic stress but needs more study. The abilities and ways in which organisms respond to stress have long been demonstrated to affect the immune response of the organism. In mammalian studies, researchers have observed that chronic/long-term stress has a pronounced immunosuppressive effect, while studies in acute stress have demonstrated some immunoenhansive properties. These dynamics have been somewhat conserved in fish, as the effects of cortisol and chronic stress on the fish immune system are distinctly immunosuppressive, however, acute stress mediated immunomodulation is still poorly understood. This review explores the lesser studied non-cortisol stress hormones relevant to acute stress, and how they affect the immune response in Fish. Additionally, the effects of acute stress on various innate immune parameters and the regulation of immune related transcripts are discussed. Subsequently, this review attempts to establish the temporal transition between acute and chronic stress in the context of immune mediation. The conclusions of this review suggest that the modulating effects acute stress has on fish immunity is significantly different than that of chronic stress, yet more focused research must be conducted to further elucidate the mechanisms in greater detail.
•Stress/immune interactions are conserved between teleosts and mammals.•In mammals chronic stress is immunosuppressive, acute stress can be immunoenhansive.•In teleosts chronic stress is immunosuppressive, but effects of acute stress are not clear.•Teleost acute stress has different effects than chronic stress but needs more study. The abilities and ways in which organisms respond to stress have long been demonstrated to affect the immune response of the organism. In mammalian studies, researchers have observed that chronic/long-term stress has a pronounced immunosuppressive effect, while studies in acute stress have demonstrated some immunoenhansive properties. These dynamics have been somewhat conserved in fish, as the effects of cortisol and chronic stress on the fish immune system are distinctly immunosuppressive, however, acute stress mediated immunomodulation is still poorly understood. This review explores the lesser studied non-cortisol stress hormones relevant to acute stress, and how they affect the immune response in Fish. Additionally, the effects of acute stress on various innate immune parameters and the regulation of immune related transcripts are discussed. Subsequently, this review attempts to establish the temporal transition between acute and chronic stress in the context of immune mediation. The conclusions of this review suggest that the modulating effects acute stress has on fish immunity is significantly different than that of chronic stress, yet more focused research must be conducted to further elucidate the mechanisms in greater detail.
The abilities and ways in which organisms respond to stress have long been demonstrated to affect the immune response of the organism. In mammalian studies, researchers have observed that chronic/long-term stress has a pronounced immunosuppressive effect, while studies in acute stress have demonstrated some immunoenhansive properties. These dynamics have been somewhat conserved in fish, as the effects of cortisol and chronic stress on the fish immune system are distinctly immunosuppressive, however, acute stress mediated immunomodulation is still poorly understood. This review explores the lesser studied non-cortisol stress hormones relevant to acute stress, and how they affect the immune response in Fish. Additionally, the effects of acute stress on various innate immune parameters and the regulation of immune related transcripts are discussed. Subsequently, this review attempts to establish the temporal transition between acute and chronic stress in the context of immune mediation. The conclusions of this review suggest that the modulating effects acute stress has on fish immunity is significantly different than that of chronic stress, yet more focused research must be conducted to further elucidate the mechanisms in greater detail.The abilities and ways in which organisms respond to stress have long been demonstrated to affect the immune response of the organism. In mammalian studies, researchers have observed that chronic/long-term stress has a pronounced immunosuppressive effect, while studies in acute stress have demonstrated some immunoenhansive properties. These dynamics have been somewhat conserved in fish, as the effects of cortisol and chronic stress on the fish immune system are distinctly immunosuppressive, however, acute stress mediated immunomodulation is still poorly understood. This review explores the lesser studied non-cortisol stress hormones relevant to acute stress, and how they affect the immune response in Fish. Additionally, the effects of acute stress on various innate immune parameters and the regulation of immune related transcripts are discussed. Subsequently, this review attempts to establish the temporal transition between acute and chronic stress in the context of immune mediation. The conclusions of this review suggest that the modulating effects acute stress has on fish immunity is significantly different than that of chronic stress, yet more focused research must be conducted to further elucidate the mechanisms in greater detail.
ArticleNumber 100010
Author Dixon, Brian
Guo, Huming
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  surname: Guo
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  surname: Dixon
  fullname: Dixon, Brian
  email: bdixon@uwaterloo.ca
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Keywords Teleost
Acute stress
Immunomodulation
Fish
Catecholamines
Immunity
Stress hormones
Language English
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Snippet •Stress/immune interactions are conserved between teleosts and mammals.•In mammals chronic stress is immunosuppressive, acute stress can be immunoenhansive.•In...
The abilities and ways in which organisms respond to stress have long been demonstrated to affect the immune response of the organism. In mammalian studies,...
• Stress/immune interactions are conserved between teleosts and mammals. • In mammals chronic stress is immunosuppressive, acute stress can be immunoenhansive....
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SubjectTerms Acute stress
Catecholamines
cortisol
Fish
immune response
immune system
Immunity
Immunomodulation
immunosuppression
mammals
shellfish
Stress hormones
Teleost
Title Understanding acute stress-mediated immunity in teleost fish
URI https://dx.doi.org/10.1016/j.fsirep.2021.100010
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