Mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasis

Mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasis

Several forebrain and brainstem neurochemical circuitries interact with peripheral neural and humoral signals to collaboratively maintain both the volume and osmolality of extracellular fluids. Although much progress has been made over the past decades in the understanding of complex mechanisms underlying neuroendocrine control of hydromineral homeostasis, several issues still remain to be clarified. The use of techniques such as molecular biology, neuronal tracing, electrophysiology, immunohistochemistry, and microinfusions has significantly improved our ability to identify neuronal phenotypes and their signals, including those related to neuron-glia interactions. Accordingly, neurons have been shown to produce and release a large number of chemical mediators (neurotransmitters, neurohormones and neuromodulators) into the interstitial space, which include not only classic neurotransmitters, such as acetylcholine, amines (noradrenaline, serotonin) and amino acids (glutamate, GABA), but also gaseous (nitric oxide, carbon monoxide and hydrogen sulfide) and lipid-derived (endocannabinoids) mediators. This efferent response, initiated within the neuronal environment, recruits several peripheral effectors, such as hormones (glucocorticoids, angiotensin II, estrogen), which in turn modulate central nervous system responsiveness to systemic challenges. Therefore, in this review, we shall evaluate in an integrated manner the physiological control of body fluid homeostasis from the molecular aspects to the systemic and integrated responses.

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Main Authors: Antunes-Rodrigues,J., Ruginsk,S.G., Mecawi,A.S., Margatho,L.O., Cruz,J.C., Vilhena-Franco,T., Reis,W.L., Ventura,R.R., Reis,L.C., Vivas,L.M., Elias,L.L.K.
Format: Digital revista
Language:English
Published: Associação Brasileira de Divulgação Científica 2013
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0100-879X2013000400327
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spelling oai:scielo:S0100-879X20130004003272015-10-08Mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasisAntunes-Rodrigues,J.Ruginsk,S.G.Mecawi,A.S.Margatho,L.O.Cruz,J.C.Vilhena-Franco,T.Reis,W.L.Ventura,R.R.Reis,L.C.Vivas,L.M.Elias,L.L.K. Hypothalamus Gaseous neuromodulators Neuropeptides Endocannabinoids Glial cells Neurotransmitters Several forebrain and brainstem neurochemical circuitries interact with peripheral neural and humoral signals to collaboratively maintain both the volume and osmolality of extracellular fluids. Although much progress has been made over the past decades in the understanding of complex mechanisms underlying neuroendocrine control of hydromineral homeostasis, several issues still remain to be clarified. The use of techniques such as molecular biology, neuronal tracing, electrophysiology, immunohistochemistry, and microinfusions has significantly improved our ability to identify neuronal phenotypes and their signals, including those related to neuron-glia interactions. Accordingly, neurons have been shown to produce and release a large number of chemical mediators (neurotransmitters, neurohormones and neuromodulators) into the interstitial space, which include not only classic neurotransmitters, such as acetylcholine, amines (noradrenaline, serotonin) and amino acids (glutamate, GABA), but also gaseous (nitric oxide, carbon monoxide and hydrogen sulfide) and lipid-derived (endocannabinoids) mediators. This efferent response, initiated within the neuronal environment, recruits several peripheral effectors, such as hormones (glucocorticoids, angiotensin II, estrogen), which in turn modulate central nervous system responsiveness to systemic challenges. Therefore, in this review, we shall evaluate in an integrated manner the physiological control of body fluid homeostasis from the molecular aspects to the systemic and integrated responses.info:eu-repo/semantics/openAccessAssociação Brasileira de Divulgação CientíficaBrazilian Journal of Medical and Biological Research v.46 n.4 20132013-04-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0100-879X2013000400327en10.1590/1414-431X20132788
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language English
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author Antunes-Rodrigues,J.
Ruginsk,S.G.
Mecawi,A.S.
Margatho,L.O.
Cruz,J.C.
Vilhena-Franco,T.
Reis,W.L.
Ventura,R.R.
Reis,L.C.
Vivas,L.M.
Elias,L.L.K.
spellingShingle Antunes-Rodrigues,J.
Ruginsk,S.G.
Mecawi,A.S.
Margatho,L.O.
Cruz,J.C.
Vilhena-Franco,T.
Reis,W.L.
Ventura,R.R.
Reis,L.C.
Vivas,L.M.
Elias,L.L.K.
Mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasis
author_facet Antunes-Rodrigues,J.
Ruginsk,S.G.
Mecawi,A.S.
Margatho,L.O.
Cruz,J.C.
Vilhena-Franco,T.
Reis,W.L.
Ventura,R.R.
Reis,L.C.
Vivas,L.M.
Elias,L.L.K.
author_sort Antunes-Rodrigues,J.
title Mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasis
title_short Mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasis
title_full Mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasis
title_fullStr Mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasis
title_full_unstemmed Mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasis
title_sort mapping and signaling of neural pathways involved in the regulation of hydromineral homeostasis
description Several forebrain and brainstem neurochemical circuitries interact with peripheral neural and humoral signals to collaboratively maintain both the volume and osmolality of extracellular fluids. Although much progress has been made over the past decades in the understanding of complex mechanisms underlying neuroendocrine control of hydromineral homeostasis, several issues still remain to be clarified. The use of techniques such as molecular biology, neuronal tracing, electrophysiology, immunohistochemistry, and microinfusions has significantly improved our ability to identify neuronal phenotypes and their signals, including those related to neuron-glia interactions. Accordingly, neurons have been shown to produce and release a large number of chemical mediators (neurotransmitters, neurohormones and neuromodulators) into the interstitial space, which include not only classic neurotransmitters, such as acetylcholine, amines (noradrenaline, serotonin) and amino acids (glutamate, GABA), but also gaseous (nitric oxide, carbon monoxide and hydrogen sulfide) and lipid-derived (endocannabinoids) mediators. This efferent response, initiated within the neuronal environment, recruits several peripheral effectors, such as hormones (glucocorticoids, angiotensin II, estrogen), which in turn modulate central nervous system responsiveness to systemic challenges. Therefore, in this review, we shall evaluate in an integrated manner the physiological control of body fluid homeostasis from the molecular aspects to the systemic and integrated responses.
publisher Associação Brasileira de Divulgação Científica
publishDate 2013
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0100-879X2013000400327
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