Adverse neuro-immune–endocrine interactions in patients with active tuberculosis

The nervous, endocrine and immune systems play a crucial role in maintaining homeostasis and interact with each other for a successful defensive strategy against injurious agents. However, the situation is different in long-term diseases with marked inflammation, in which defensive mechanisms become...

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Veröffentlicht in:	Molecular and cellular neuroscience 2013-03, Vol.53, p.77-85
Hauptverfasser:	Bottasso, Oscar, Bay, María Luisa, Besedovsky, Hugo, del Rey, Adriana
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptive immunity Cell culture Chronic inflammation Cytokines - immunology Defense mechanisms Dehydroepiandrosterone - immunology Depression Energy gamma -Interferon Homeostasis Humans Hydrocortisone Immune response Inflammation Inflammation - immunology Metabolism Mycobacterium Nervous system Neurodegeneration Neuroendocrine regulation Neuroimmunomodulation Peripheral blood mononuclear cells Sickness behavior Steroid hormones Stress, Psychological - immunology Transforming Growth Factor beta - immunology Transforming growth factor- beta Tuberculosis Tuberculosis, Pulmonary - immunology Weight loss
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container_title	Molecular and cellular neuroscience
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creator	Bottasso, Oscar Bay, María Luisa Besedovsky, Hugo del Rey, Adriana
description	The nervous, endocrine and immune systems play a crucial role in maintaining homeostasis and interact with each other for a successful defensive strategy against injurious agents. However, the situation is different in long-term diseases with marked inflammation, in which defensive mechanisms become altered. In the case of tuberculosis (TB), this is highlighted by several facts: an imbalance of plasma immune and endocrine mediators, that results in an adverse environment for mounting an adequate response against mycobacteria and controlling inflammation; the demonstration that dehidroepiandrosterone (DHEA) secretion by a human adrenal cell line can be inhibited by culture supernatants from Mycobacterium tuberculosis-stimulated peripheral blood mononuclear cells – PBMC – of TB patients, with this effect being partly reverted when neutralizing transforming growth factor-β in such supernantants; the in vitro effects of adrenal steroids on the specific immune response of PBMC from TB patients, that is a cortisol inhibition of mycobacterial antigen-driven lymphoproliferation and interferon-γ production as well as a suppression of TGF-β production in DHEA-treated PBMC; and lastly the demonstration that immune and endocrine compounds participating in the regulation of energy sources and immune activity correlated with the consumption state of TB patients. Collectively, immune-endocrine disturbances of TB patients are involved in critical components of disease pathology with implications in the impaired clinical status and unfavorable disease outcome. This article is part of a Special Issue entitled ‘Neuroinflammation in neurodegeneration and neurodysfunction’.
doi_str_mv	10.1016/j.mcn.2012.11.002
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However, the situation is different in long-term diseases with marked inflammation, in which defensive mechanisms become altered. In the case of tuberculosis (TB), this is highlighted by several facts: an imbalance of plasma immune and endocrine mediators, that results in an adverse environment for mounting an adequate response against mycobacteria and controlling inflammation; the demonstration that dehidroepiandrosterone (DHEA) secretion by a human adrenal cell line can be inhibited by culture supernatants from Mycobacterium tuberculosis-stimulated peripheral blood mononuclear cells – PBMC – of TB patients, with this effect being partly reverted when neutralizing transforming growth factor-β in such supernantants; the in vitro effects of adrenal steroids on the specific immune response of PBMC from TB patients, that is a cortisol inhibition of mycobacterial antigen-driven lymphoproliferation and interferon-γ production as well as a suppression of TGF-β production in DHEA-treated PBMC; and lastly the demonstration that immune and endocrine compounds participating in the regulation of energy sources and immune activity correlated with the consumption state of TB patients. Collectively, immune-endocrine disturbances of TB patients are involved in critical components of disease pathology with implications in the impaired clinical status and unfavorable disease outcome. 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subjects	Adaptive immunity Cell culture Chronic inflammation Cytokines - immunology Defense mechanisms Dehydroepiandrosterone - immunology Depression Energy gamma -Interferon Homeostasis Humans Hydrocortisone Immune response Inflammation Inflammation - immunology Metabolism Mycobacterium Nervous system Neurodegeneration Neuroendocrine regulation Neuroimmunomodulation Peripheral blood mononuclear cells Sickness behavior Steroid hormones Stress, Psychological - immunology Transforming Growth Factor beta - immunology Transforming growth factor- beta Tuberculosis Tuberculosis, Pulmonary - immunology Weight loss
title	Adverse neuro-immune–endocrine interactions in patients with active tuberculosis
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