Immunology, signal transduction, and behavior in hypothalamic-pituitary- adrenal axis-related genetic mouse models
A classical view of the neuroendocrine-immune network assumes bidirectional interactions where pro-inflammatory cytokines influence hypothalamic-pituitary- adrenal (HPA) axis-derived hormones that subsequently affect cytokines in a permanently servo-controlled circle. Nevertheless, this picture has...
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paper:paper_00778923_v1153_n_p120_Silberstein2023-06-08T15:07:29Z Immunology, signal transduction, and behavior in hypothalamic-pituitary- adrenal axis-related genetic mouse models Silberstein Cuña, Susana Iris Bonfiglio, Juan José Refojo, Damián Behavior CRF CRH ERK Forced swim test HPA axis MAPK Mouse models Stress Stress-coping behavior β-endorphin beta endorphin corticotropin releasing factor corticotropin releasing factor receptor 1 cytokine mitogen activated protein kinase central nervous system conference paper coping behavior cytokine production gene overexpression genetic engineering human hypothalamus hypophysis adrenal system immune system immunocompetent cell immunomodulation neuroendocrine system nonhuman protein expression signal transduction A classical view of the neuroendocrine-immune network assumes bidirectional interactions where pro-inflammatory cytokines influence hypothalamic-pituitary- adrenal (HPA) axis-derived hormones that subsequently affect cytokines in a permanently servo-controlled circle. Nevertheless, this picture has been continuously evolving over the last years as a result of the discovery of redundant expression and extended functions of many of the molecules implicated. Thus, cytokines are not only expressed in cells of the immune system but also in the central nervous system, and many hormones present at hypothalamic- pituitary level are also functionally expressed in the brain as well as in other peripheral organs, including immune cells. Because of this intermingled network of molecules redundantly expressed, the elucidation of the unique roles of HPA axis-related molecules at every level of complexity is one of the major challenges in the field. Genetic engineering in the mouse offers the most convincing method for dissecting in vivo the specific roles of distinct molecules acting in complex networks. Thus, various immunological, behavioral, and signal transduction studies performed with different HPA axis-related mutant mouse lines to delineate the roles of β-endorphin, the type 1 receptor of corticotropin-releasing hormone (CRHR1), and its ligand CRH will be discussed here. © 2009 New York Academy of Sciences. Fil:Silberstein, S. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Bonfiglio, J.J. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Refojo, D. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2009 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00778923_v1153_n_p120_Silberstein http://hdl.handle.net/20.500.12110/paper_00778923_v1153_n_p120_Silberstein |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Behavior CRF CRH ERK Forced swim test HPA axis MAPK Mouse models Stress Stress-coping behavior β-endorphin beta endorphin corticotropin releasing factor corticotropin releasing factor receptor 1 cytokine mitogen activated protein kinase central nervous system conference paper coping behavior cytokine production gene overexpression genetic engineering human hypothalamus hypophysis adrenal system immune system immunocompetent cell immunomodulation neuroendocrine system nonhuman protein expression signal transduction |
spellingShingle |
Behavior CRF CRH ERK Forced swim test HPA axis MAPK Mouse models Stress Stress-coping behavior β-endorphin beta endorphin corticotropin releasing factor corticotropin releasing factor receptor 1 cytokine mitogen activated protein kinase central nervous system conference paper coping behavior cytokine production gene overexpression genetic engineering human hypothalamus hypophysis adrenal system immune system immunocompetent cell immunomodulation neuroendocrine system nonhuman protein expression signal transduction Silberstein Cuña, Susana Iris Bonfiglio, Juan José Refojo, Damián Immunology, signal transduction, and behavior in hypothalamic-pituitary- adrenal axis-related genetic mouse models |
topic_facet |
Behavior CRF CRH ERK Forced swim test HPA axis MAPK Mouse models Stress Stress-coping behavior β-endorphin beta endorphin corticotropin releasing factor corticotropin releasing factor receptor 1 cytokine mitogen activated protein kinase central nervous system conference paper coping behavior cytokine production gene overexpression genetic engineering human hypothalamus hypophysis adrenal system immune system immunocompetent cell immunomodulation neuroendocrine system nonhuman protein expression signal transduction |
description |
A classical view of the neuroendocrine-immune network assumes bidirectional interactions where pro-inflammatory cytokines influence hypothalamic-pituitary- adrenal (HPA) axis-derived hormones that subsequently affect cytokines in a permanently servo-controlled circle. Nevertheless, this picture has been continuously evolving over the last years as a result of the discovery of redundant expression and extended functions of many of the molecules implicated. Thus, cytokines are not only expressed in cells of the immune system but also in the central nervous system, and many hormones present at hypothalamic- pituitary level are also functionally expressed in the brain as well as in other peripheral organs, including immune cells. Because of this intermingled network of molecules redundantly expressed, the elucidation of the unique roles of HPA axis-related molecules at every level of complexity is one of the major challenges in the field. Genetic engineering in the mouse offers the most convincing method for dissecting in vivo the specific roles of distinct molecules acting in complex networks. Thus, various immunological, behavioral, and signal transduction studies performed with different HPA axis-related mutant mouse lines to delineate the roles of β-endorphin, the type 1 receptor of corticotropin-releasing hormone (CRHR1), and its ligand CRH will be discussed here. © 2009 New York Academy of Sciences. |
author |
Silberstein Cuña, Susana Iris Bonfiglio, Juan José Refojo, Damián |
author_facet |
Silberstein Cuña, Susana Iris Bonfiglio, Juan José Refojo, Damián |
author_sort |
Silberstein Cuña, Susana Iris |
title |
Immunology, signal transduction, and behavior in hypothalamic-pituitary- adrenal axis-related genetic mouse models |
title_short |
Immunology, signal transduction, and behavior in hypothalamic-pituitary- adrenal axis-related genetic mouse models |
title_full |
Immunology, signal transduction, and behavior in hypothalamic-pituitary- adrenal axis-related genetic mouse models |
title_fullStr |
Immunology, signal transduction, and behavior in hypothalamic-pituitary- adrenal axis-related genetic mouse models |
title_full_unstemmed |
Immunology, signal transduction, and behavior in hypothalamic-pituitary- adrenal axis-related genetic mouse models |
title_sort |
immunology, signal transduction, and behavior in hypothalamic-pituitary- adrenal axis-related genetic mouse models |
publishDate |
2009 |
url |
https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00778923_v1153_n_p120_Silberstein http://hdl.handle.net/20.500.12110/paper_00778923_v1153_n_p120_Silberstein |
work_keys_str_mv |
AT silbersteincunasusanairis immunologysignaltransductionandbehaviorinhypothalamicpituitaryadrenalaxisrelatedgeneticmousemodels AT bonfigliojuanjose immunologysignaltransductionandbehaviorinhypothalamicpituitaryadrenalaxisrelatedgeneticmousemodels AT refojodamian immunologysignaltransductionandbehaviorinhypothalamicpituitaryadrenalaxisrelatedgeneticmousemodels |
_version_ |
1768546715188592640 |