A triple urocortin knockout mouse model reveals an essential role for urocortins in stress recovery

Adi Neufeld-Cohen; Michael M. Tsoory; Andrew K. Evans; Dmitriy Getselter; Shosh Gil; Christopher A. Lowry; Wylie W. Vale; Alon Chen

doi:10.1073/pnas.1013761107

A triple urocortin knockout mouse model reveals an essential role for urocortins in stress recovery

Adi Neufeld-Cohen, Michael M. Tsoory, Andrew K. Evans, Dmitriy Getselter, Shosh Gil, Christopher A. Lowry, Wylie W. Vale, Alon Chen

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

82 Scopus citations

Abstract

Responding to stressful events requires numerous adaptive actions involving integrated changes in the central nervous and neuroendocrine systems. Numerous studies have implicated dysregulation of stress-response mechanisms in the etiology of stress-induced psychopathophysiologies. The urocortin neuropeptides are members of the corticotropin-releasing factor family and are associated with the central stress response. In the current study, a tripleknockout (tKO) mouse model lacking all three urocortin genes was generated. Intriguingly, these urocortin tKO mice exhibit increased anxiety-like behaviors 24 h following stress exposure but not under unstressed conditions or immediately following exposure to acute stress. The inability of these mutants to recover properly from the exposure to an acute stress was associated with robust alterations in the expression profile of amygdalar genes and with dysregulated serotonergic function in stress-related neurocircuits. These findings position the urocortins as essential factors in the stress-recovery process and suggest the tKO mouse line as a useful stress-sensitive mouse model.

Original language	English
Pages (from-to)	19020-19025
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	107
Issue number	44
DOIs	https://doi.org/10.1073/pnas.1013761107
State	Published - 2 Nov 2010
Externally published	Yes

Funding

Funders	Funder number
National Institute of Diabetes and Digestive and Kidney Diseases	P01DK026741

Keywords

Amygdala
Anxiety-like behaviors
Corticotropin-releasing factor receptor type 2
Corticotropinreleasing factor
Serotonergic system

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10.1073/pnas.1013761107

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abstract = "Responding to stressful events requires numerous adaptive actions involving integrated changes in the central nervous and neuroendocrine systems. Numerous studies have implicated dysregulation of stress-response mechanisms in the etiology of stress-induced psychopathophysiologies. The urocortin neuropeptides are members of the corticotropin-releasing factor family and are associated with the central stress response. In the current study, a tripleknockout (tKO) mouse model lacking all three urocortin genes was generated. Intriguingly, these urocortin tKO mice exhibit increased anxiety-like behaviors 24 h following stress exposure but not under unstressed conditions or immediately following exposure to acute stress. The inability of these mutants to recover properly from the exposure to an acute stress was associated with robust alterations in the expression profile of amygdalar genes and with dysregulated serotonergic function in stress-related neurocircuits. These findings position the urocortins as essential factors in the stress-recovery process and suggest the tKO mouse line as a useful stress-sensitive mouse model.",

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AU - Tsoory, Michael M.

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AU - Getselter, Dmitriy

AU - Gil, Shosh

AU - Lowry, Christopher A.

AU - Vale, Wylie W.

AU - Chen, Alon

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AB - Responding to stressful events requires numerous adaptive actions involving integrated changes in the central nervous and neuroendocrine systems. Numerous studies have implicated dysregulation of stress-response mechanisms in the etiology of stress-induced psychopathophysiologies. The urocortin neuropeptides are members of the corticotropin-releasing factor family and are associated with the central stress response. In the current study, a tripleknockout (tKO) mouse model lacking all three urocortin genes was generated. Intriguingly, these urocortin tKO mice exhibit increased anxiety-like behaviors 24 h following stress exposure but not under unstressed conditions or immediately following exposure to acute stress. The inability of these mutants to recover properly from the exposure to an acute stress was associated with robust alterations in the expression profile of amygdalar genes and with dysregulated serotonergic function in stress-related neurocircuits. These findings position the urocortins as essential factors in the stress-recovery process and suggest the tKO mouse line as a useful stress-sensitive mouse model.

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A triple urocortin knockout mouse model reveals an essential role for urocortins in stress recovery

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