Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais

Detalhes bibliográficos
Ano de defesa: 2013
Autor(a) principal: David, Richard Boarato
Orientador(a): Luca Júnior, Laurival Antonio de lattes
Banca de defesa: Não Informado pela instituição
Tipo de documento: Tese
Tipo de acesso: Acesso aberto
Idioma: por
Instituição de defesa: Universidade Federal de São Carlos
Programa de Pós-Graduação: Programa Interinstitucional de Pós-Graduação em Ciências Fisiológicas - PIPGCF
Departamento: Não Informado pela instituição
País: BR
Palavras-chave em Português:
Fisiologia humana
Núcleo parabraquial lateral
Desidratação celular
Ocitocina
Esvaziamento gástrico
Natriorexigênese
Saciedade
Recompensa
Autoestimulação do hipotálamo lateral
Palavras-chave em Inglês:
Lateral parabrachial nucleus
Cell dehydration
Natriorexigenesis
Oxytocin
Gastric emptying
Satiety
Reward
Lateral hypothalamus self-stimulation
Área do conhecimento CNPq:
CIENCIAS BIOLOGICAS::FISIOLOGIA
Link de acesso: https://repositorio.ufscar.br/handle/20.500.14289/1246
Resumo: Sodium intake is induced by facilitatory signals, like angiotensin II and aldosterone Cell dehydration, a classical inhibitory signal for sodium intake, may also induce paradoxical sodium intake if the sodium intake inhibition by the ocitocinergic hypothalamic mechanism or by the lateral parabraquial nucleus (LPBN) is absent. Thus, the LPBN deactivation could modify the activity of hypothalamic oxytocinergic pathways or the gastric emptying control system, another inhibitory system, as well as facilitatory areas and the reward system. The aim of this study was to investigate the effect of LPBN injections of methysergide (4 μg/0.2 μl, serotonergic antagonist) in cell dehydrated animals on: activity of brain areas involved in ingestive behavior by measuring c-Fos protein immunoreactivity and tissue levels of dopamine, serotonin and metabolites or plasma hormone levels; pre-systemic satiety involving gastric emptying; selectivity of paradoxical sodium intake. The effect of disinhibition of the natriorexigenesis on the reward system was tested by repeated deactivations of the LPBN with muscimol (2 nmol/0.2 μl; GABAA agonist) and its effect on ingestive behavior sensitization and water deprivation with partial rehydration followed by sodium access (WD-PR protocol) on the lateral hypothalamus self-stimulation (LHSS). Holtzman or Sprague-Dawley rats (280-320 g), intacts or operated (femoral vein cannulation and/or guide cannulas implanted in direction to the LPBN or bipolar electrode implanted in the hypothalamus), were used in the experiments. Animals treated with methysergide and hyperosmotic by gavage of 2 M NaCl (2 ml) compared to the control treatment (vehicle) showed: (a) increase in ir-Fos in the area postrema and intermediate nucleus of the solitary tract, subfornical organ and non-oxytocinergic neurons of the ventral portion of the paraventricular nucleus of the hypothalamus; (b) increase in tissue levels of dopamine in the amygdala, but not in the accumbens; (c) unchanged activity of oxytocinergic system (ir-Fos in oxytocinergic neurons and oxytocin plasma levels similar to control group). Hyperosmotic rats (iv infusion of 2 ml of 2 M NaCl) treated with methysergide and a gavage of 0.3 M NaCl (3 ml) showed a hypertonic gastric and intestinal content similar to the control group (vehicle) after gavage. In hydrated animals with a history of two previous treatments of muscimol into the LPBN, the hypertonic NaCl intake induced by muscimol was higher than the control animals pretreated with vehicle. The LHSS was not altered at any stage of WD-PR protocol, as well as in cell dehydrated animals in comparison with hydrated control group. The results demonstrate that the deactivation of the LPBN enhances specifically the intake of solutions containing sodium and suggest the involvement of the brain stem and the amygdala during the appetitive phase of the paradoxical sodium intake, while the deactivation of other inhibitory mechanisms (oxytocin and gastric retention) seems not to be essential. Furthermore, the repetition of LPBN deactivation sensitizes hydrated animals for sodium intake. Removing the inhibition of sodium appetite by partial rehydration in WD-PR does not change the LHSS reward.
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spelling David, Richard BoaratoLuca Júnior, Laurival Antonio dehttp://lattes.cnpq.br/03392537559718907915b994-20e5-4a49-994e-abed3243fbcd2016-06-02T19:22:09Z2013-09-112016-06-02T19:22:09Z2013-03-22DAVID, Richard Boarato. Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais. 2013. 130 f. Tese (Doutorado em Ciências Biológicas) - Universidade Federal de São Carlos, Araraquara, 2013.https://repositorio.ufscar.br/handle/20.500.14289/1246Sodium intake is induced by facilitatory signals, like angiotensin II and aldosterone Cell dehydration, a classical inhibitory signal for sodium intake, may also induce paradoxical sodium intake if the sodium intake inhibition by the ocitocinergic hypothalamic mechanism or by the lateral parabraquial nucleus (LPBN) is absent. Thus, the LPBN deactivation could modify the activity of hypothalamic oxytocinergic pathways or the gastric emptying control system, another inhibitory system, as well as facilitatory areas and the reward system. The aim of this study was to investigate the effect of LPBN injections of methysergide (4 μg/0.2 μl, serotonergic antagonist) in cell dehydrated animals on: activity of brain areas involved in ingestive behavior by measuring c-Fos protein immunoreactivity and tissue levels of dopamine, serotonin and metabolites or plasma hormone levels; pre-systemic satiety involving gastric emptying; selectivity of paradoxical sodium intake. The effect of disinhibition of the natriorexigenesis on the reward system was tested by repeated deactivations of the LPBN with muscimol (2 nmol/0.2 μl; GABAA agonist) and its effect on ingestive behavior sensitization and water deprivation with partial rehydration followed by sodium access (WD-PR protocol) on the lateral hypothalamus self-stimulation (LHSS). Holtzman or Sprague-Dawley rats (280-320 g), intacts or operated (femoral vein cannulation and/or guide cannulas implanted in direction to the LPBN or bipolar electrode implanted in the hypothalamus), were used in the experiments. Animals treated with methysergide and hyperosmotic by gavage of 2 M NaCl (2 ml) compared to the control treatment (vehicle) showed: (a) increase in ir-Fos in the area postrema and intermediate nucleus of the solitary tract, subfornical organ and non-oxytocinergic neurons of the ventral portion of the paraventricular nucleus of the hypothalamus; (b) increase in tissue levels of dopamine in the amygdala, but not in the accumbens; (c) unchanged activity of oxytocinergic system (ir-Fos in oxytocinergic neurons and oxytocin plasma levels similar to control group). Hyperosmotic rats (iv infusion of 2 ml of 2 M NaCl) treated with methysergide and a gavage of 0.3 M NaCl (3 ml) showed a hypertonic gastric and intestinal content similar to the control group (vehicle) after gavage. In hydrated animals with a history of two previous treatments of muscimol into the LPBN, the hypertonic NaCl intake induced by muscimol was higher than the control animals pretreated with vehicle. The LHSS was not altered at any stage of WD-PR protocol, as well as in cell dehydrated animals in comparison with hydrated control group. The results demonstrate that the deactivation of the LPBN enhances specifically the intake of solutions containing sodium and suggest the involvement of the brain stem and the amygdala during the appetitive phase of the paradoxical sodium intake, while the deactivation of other inhibitory mechanisms (oxytocin and gastric retention) seems not to be essential. Furthermore, the repetition of LPBN deactivation sensitizes hydrated animals for sodium intake. Removing the inhibition of sodium appetite by partial rehydration in WD-PR does not change the LHSS reward.A ingestão de sódio é induzida por sinais facilitadores, como a angiotensina II e a aldosterona. Apesar de classicamente considerada antinatriorexigênica, a desidratação celular também se mostra facilitadora da ingestão paradoxal de sódio quando a inibição da ingestão de sódio pelo mecanismo ocitocinérgico do hipotálamo ou pelo núcleo parabraquial lateral (NPBL) está desativada. A desativação do NPBL poderia, então, atuar sobre o mecanismo ocitocinérgico ou de controle do esvaziamento gástrico, ambos inibidores, ou ainda modificar a atividade de áreas facilitadoras ou envolvidas na recompensa. O objetivo deste estudo foi investigar o efeito da injeção de metisergida (4 μg/0,2 μl, antagonista serotonérgico) no NPBL em animais com desidratação celular sobre a: atividade de áreas encefálicas envolvidas no comportamento ingestivo, medindo-se imunorreatividade para proteína c-Fos e dosagem tecidual de dopamina, serotonina e metabólitos em áreas de interesse ou dosagem hormonal; saciedade pré-sistêmica envolvendo esvaziamento gástrico; seletividade da ingestão paradoxal de sódio. Também foi avaliado o possível efeito da desinibição da natriorexigênese sobre o sistema de recompensa através da sensibilização por desativações repetidas do NPBL pelo muscimol (2 nmol/0,2 μl; agonista GABAA) e na privação hídrica com reidratação parcial e posterior acesso ao sódio (modelo PH-RP) sobre a autoestimulação elétrica do hipotálamo lateral (AEHL). Ratos (280-320 g) Holtzman ou Sprague-Dawley, intactos ou operados (canulação da veia femoral e/ou cânulas-guia direcionadas ao NPBL ou eletrodo bipolar no hipotálamo), foram utilizados nos experimentos. Animais tratados com metisergida e hiperosmóticos por gavagem de NaCl 2 M (2 ml) apresentaram, em relação ao tratamento controle (veículo): (a) aumento da ir-Fos na área postrema e núcleo do trato solitário intermediário, no órgão subfornical e em neurônios não ocitocinérgicos da porção ventral do núcleo paraventricular do hipotálamo; (b) aumento da concentração tecidual de dopamina na amígdala, mas não no accumbens; (c) atividade do sistema ocitocinérgico inalterada (ir-Fos em neurônios ocitocinérgicos e ocitocina plasmática semelhantes ao controle). Ratos tratados com metisergida e hiperosmóticos por infusão iv de NaCl 2 M (1,5 ml), que receberam uma gavagem de NaCl 0,3 M (3 ml) apresentaram conteúdo gástrico e intestinal hipertônico semelhantes ao controle (veículo) após a gavagem. Em animais hidratados com histórico de dois tratamentos prévios de muscimol no NPBL, a ingestão de NaCl hipertônico induzida por muscimol foi superior aos animais controle tratados previamente com veículo. A AEHL não foi alterada em nenhuma fase do protocolo PH-RP, assim como em animais com desidratação celular, em relação aos controles hidratados. Os resultados demonstram que a desativação do NPBL potencializa especificamente a ingestão de solução contendo sódio e sugerem a participação do tronco encefálico e da amígdala na fase apetitiva da ingestão paradoxal de sódio, enquanto a desativação de outros mecanismos inibidores (ocitocina e retenção gástrica) parece não ser essencial. Ainda, a repetição da desativação do NPBL sensibiliza a ingestão de sódio em animais hidratados. A remoção da inibição ao apetite ao sódio pela reidratação parcial na PHRP não altera a recompensa na AEHL.application/pdfporUniversidade Federal de São CarlosPrograma Interinstitucional de Pós-Graduação em Ciências Fisiológicas - PIPGCFUFSCarBRFisiologia humanaNúcleo parabraquial lateralDesidratação celularOcitocinaEsvaziamento gástricoNatriorexigêneseEsvaziamento gástricoSaciedadeRecompensaAutoestimulação do hipotálamo lateralLateral parabrachial nucleusCell dehydrationNatriorexigenesisOxytocinGastric emptyingSatietyRewardLateral hypothalamus self-stimulationCIENCIAS BIOLOGICAS::FISIOLOGIANatriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentaisinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesis83b39322-007b-4a2f-8b17-52d5c84f9d22info:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFSCARinstname:Universidade Federal de São Carlos (UFSCAR)instacron:UFSCARORIGINAL5394.pdfapplication/pdf2154328https://repositorio.ufscar.br/bitstreams/c3821b48-d843-4b87-ae1d-44456dbce2f2/download49114074adb778dc78d219f32b8ee5b4MD51trueAnonymousREADTEXT5394.pdf.txt5394.pdf.txtExtracted texttext/plain0https://repositorio.ufscar.br/bitstreams/8257a906-85d7-4ee7-83a1-b5385bd4382a/downloadd41d8cd98f00b204e9800998ecf8427eMD54falseAnonymousREADTHUMBNAIL5394.pdf.jpg5394.pdf.jpgIM Thumbnailimage/jpeg8534https://repositorio.ufscar.br/bitstreams/d602a0c4-4120-41eb-9cc9-3a4e2ae5857c/downloadced81d26792ec69511307f0ba83db076MD55falseAnonymousREAD20.500.14289/12462025-02-06 04:07:13.811open.accessoai:repositorio.ufscar.br:20.500.14289/1246https://repositorio.ufscar.brRepositório InstitucionalPUBhttps://repositorio.ufscar.br/oai/requestrepositorio.sibi@ufscar.bropendoar:43222025-02-06T07:07:13Repositório Institucional da UFSCAR - Universidade Federal de São Carlos (UFSCAR)false
dc.title.por.fl_str_mv Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais
title Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais
spellingShingle Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais
David, Richard Boarato
Fisiologia humana
Núcleo parabraquial lateral
Desidratação celular
Ocitocina
Esvaziamento gástrico
Natriorexigênese
Esvaziamento gástrico
Saciedade
Recompensa
Autoestimulação do hipotálamo lateral
Lateral parabrachial nucleus
Cell dehydration
Natriorexigenesis
Oxytocin
Gastric emptying
Satiety
Reward
Lateral hypothalamus self-stimulation
CIENCIAS BIOLOGICAS::FISIOLOGIA
title_short Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais
title_full Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais
title_fullStr Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais
title_full_unstemmed Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais
title_sort Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais
author David, Richard Boarato
author_facet David, Richard Boarato
author_role author
dc.contributor.author.fl_str_mv David, Richard Boarato
dc.contributor.advisor1.fl_str_mv Luca Júnior, Laurival Antonio de
dc.contributor.advisor1Lattes.fl_str_mv http://lattes.cnpq.br/0339253755971890
dc.contributor.authorID.fl_str_mv 7915b994-20e5-4a49-994e-abed3243fbcd
contributor_str_mv Luca Júnior, Laurival Antonio de
dc.subject.por.fl_str_mv Fisiologia humana
Núcleo parabraquial lateral
Desidratação celular
Ocitocina
Esvaziamento gástrico
Natriorexigênese
Esvaziamento gástrico
Saciedade
Recompensa
Autoestimulação do hipotálamo lateral
topic Fisiologia humana
Núcleo parabraquial lateral
Desidratação celular
Ocitocina
Esvaziamento gástrico
Natriorexigênese
Esvaziamento gástrico
Saciedade
Recompensa
Autoestimulação do hipotálamo lateral
Lateral parabrachial nucleus
Cell dehydration
Natriorexigenesis
Oxytocin
Gastric emptying
Satiety
Reward
Lateral hypothalamus self-stimulation
CIENCIAS BIOLOGICAS::FISIOLOGIA
dc.subject.eng.fl_str_mv Lateral parabrachial nucleus
Cell dehydration
Natriorexigenesis
Oxytocin
Gastric emptying
Satiety
Reward
Lateral hypothalamus self-stimulation
dc.subject.cnpq.fl_str_mv CIENCIAS BIOLOGICAS::FISIOLOGIA
description Sodium intake is induced by facilitatory signals, like angiotensin II and aldosterone Cell dehydration, a classical inhibitory signal for sodium intake, may also induce paradoxical sodium intake if the sodium intake inhibition by the ocitocinergic hypothalamic mechanism or by the lateral parabraquial nucleus (LPBN) is absent. Thus, the LPBN deactivation could modify the activity of hypothalamic oxytocinergic pathways or the gastric emptying control system, another inhibitory system, as well as facilitatory areas and the reward system. The aim of this study was to investigate the effect of LPBN injections of methysergide (4 μg/0.2 μl, serotonergic antagonist) in cell dehydrated animals on: activity of brain areas involved in ingestive behavior by measuring c-Fos protein immunoreactivity and tissue levels of dopamine, serotonin and metabolites or plasma hormone levels; pre-systemic satiety involving gastric emptying; selectivity of paradoxical sodium intake. The effect of disinhibition of the natriorexigenesis on the reward system was tested by repeated deactivations of the LPBN with muscimol (2 nmol/0.2 μl; GABAA agonist) and its effect on ingestive behavior sensitization and water deprivation with partial rehydration followed by sodium access (WD-PR protocol) on the lateral hypothalamus self-stimulation (LHSS). Holtzman or Sprague-Dawley rats (280-320 g), intacts or operated (femoral vein cannulation and/or guide cannulas implanted in direction to the LPBN or bipolar electrode implanted in the hypothalamus), were used in the experiments. Animals treated with methysergide and hyperosmotic by gavage of 2 M NaCl (2 ml) compared to the control treatment (vehicle) showed: (a) increase in ir-Fos in the area postrema and intermediate nucleus of the solitary tract, subfornical organ and non-oxytocinergic neurons of the ventral portion of the paraventricular nucleus of the hypothalamus; (b) increase in tissue levels of dopamine in the amygdala, but not in the accumbens; (c) unchanged activity of oxytocinergic system (ir-Fos in oxytocinergic neurons and oxytocin plasma levels similar to control group). Hyperosmotic rats (iv infusion of 2 ml of 2 M NaCl) treated with methysergide and a gavage of 0.3 M NaCl (3 ml) showed a hypertonic gastric and intestinal content similar to the control group (vehicle) after gavage. In hydrated animals with a history of two previous treatments of muscimol into the LPBN, the hypertonic NaCl intake induced by muscimol was higher than the control animals pretreated with vehicle. The LHSS was not altered at any stage of WD-PR protocol, as well as in cell dehydrated animals in comparison with hydrated control group. The results demonstrate that the deactivation of the LPBN enhances specifically the intake of solutions containing sodium and suggest the involvement of the brain stem and the amygdala during the appetitive phase of the paradoxical sodium intake, while the deactivation of other inhibitory mechanisms (oxytocin and gastric retention) seems not to be essential. Furthermore, the repetition of LPBN deactivation sensitizes hydrated animals for sodium intake. Removing the inhibition of sodium appetite by partial rehydration in WD-PR does not change the LHSS reward.
publishDate 2013
dc.date.available.fl_str_mv 2013-09-11
2016-06-02T19:22:09Z
dc.date.issued.fl_str_mv 2013-03-22
dc.date.accessioned.fl_str_mv 2016-06-02T19:22:09Z
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dc.identifier.uri.fl_str_mv https://repositorio.ufscar.br/handle/20.500.14289/1246
identifier_str_mv DAVID, Richard Boarato. Natriorexigênese paradoxal: núcleo parabraquial lateral e mecanismos centrais, sistêmicos e comportamentais. 2013. 130 f. Tese (Doutorado em Ciências Biológicas) - Universidade Federal de São Carlos, Araraquara, 2013.
url https://repositorio.ufscar.br/handle/20.500.14289/1246
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