Contrôle de la voie de l’AMPc vasculaire par les phosphodiestérases en situation physiopathologique. / Contribution of the phosphodiesterases in the regulation of vascular cAMP in pathophysiological situation

Belacel Ouari, Milia

08 December 2016

L’AMPc est un second messager exerçant un rôle vasculoprotecteur majeur, par ses effets relaxants et inhibiteurs de la prolifération et de la migration cellulaires. Les concentrations intracellulaires d’AMPc sont finement régulées par leur synthèse via les adénylates cyclases et leur dégradation par les phosphodiestérases (PDEs). Nous avons évalué l’impact de l’environnement cellulaire sur la voie de signalisation couplée au récepteur β-adrénergique (β-AR/AMPc/PDE) dans les cellules musculaires lisses vasculaires (CMLVs), ainsi que les altérations potentielles de celle-ci en situation pathologique d’insuffisance cardiaque (IC).Notre première étude montre que dans les CMLs d’aorte de rat en culture, adoptant un phénotype synthétique, la voie de signalisation β-AR/AMPc/PDE est hautement modulée par la densité cellulaire Ainsi, une faible densité cellulaire est associée à une régulation négative de l’expression fonctionnelle du récepteur β1-AR, à une activité hydrolytique des PDEs-AMPc plus faible et à des concentrations d’AMPc intracellulaire plus élevées que celles observées dans des cellules confluentes.Notre deuxième étude montre que dans l’aorte de rat, l’IC est associée à une dysfonction endothéliale (DE), une hyperréactivité aux agents contractants et une altération de la fonction et de l’expression des PDEs-AMPc. Nos résultats suggèrent que l’altération de la voie du NO/GMPc suite à la DE conduit à une hyper-activation de la PDE3, qui masque la fonction de la PDE4 et altère la relaxation β-AR.L’ensemble de ce travail met en évidence le rôle critique de l'environnement cellulaire dans le contrôle de la voie β-AR/AMPc/PDE des CMLVsMots clés : Muscle lisse vasculaire, récepteur β-adrénergique, AMPc, phosphodiestérases, densité cellulaire, insuffisance cardiaque / CAMP is second messenger which plays a prominent vasculoprotective role by its relaxing effects and inhibition of cell proliferation and migration. Intracellular cAMP level is regulated by its synthesis by adenylate cyclase and its degradation by phosphodiesterases (PDEs). We evaluated the influence of cellular environment on signaling pathway coupled to β-adrenoceptors (β-AR/cAMP/PDE) on vascular smooth muscle cells (VSMCs), as well as potential alterations in heart failure (HF).The first study showed that in cultured rat aortic SMCs exhibiting synthetic phenotype, the β-AR/cAMP/PDE signaling pathway is highly modulated by the cellular density.Thus, the low density state being associated to a downregulation of the β1-AR, a lower cAMP-PDE activity and a higher basal [cAMP]i compared to confluent cells.Our second study showed that in rat aorta, HF is associated with endothelial dysfunction, hyper-reactivity to contractile agents and an alteration of function and expression of cAMP-PDEs. Our results suggest that NO/cGMP pathway alteration following the ED in HF leads to hyper-activation of PDE3 which masks PDE4 function and alters β-adrenoceptor relaxationThus, our works highlights the critical role of the cellular environment in controlling the vascular β-AR signaling.Keywords: Vascular smooth muscle, β-adrenoceptor, cAMP, phosphodiesterases, cellular density, heart failure.

Cellule musculaire lisse vasculaire

Signalisation

AMPc

Récepteurs béta-Adrénergiques

Phosphodiestérases

Vascular physiology and pathophysiology

Vascular smooth muscle cell

Signaling

Camp

Beta-Adrenergic receptors

Phosphodiesterases

Vliv chronického působení morfínu na funkci signálních systémů řízených trimérními G-proteiny v srdci potkana / Effect of chronic morphine treatment of rats on myocardial signaling systems regulated by trimeric G-proteins

Škrabalová, Jitka

January 2011

It has recently been discovered that the effect of morphine can significantly reduce the tissue damage that occurs during myocardial ischemia. The molecular mechanisms by which morphine acts on the heart are still little understood. The aim of this thesis was to monitor the effect of chronic 27-day and 10-day administration of low (1 mg/kg/day) and high (10 mg/kg/ day) doses of morphine on the expression of selected G-protein-coupled receptors (GPCR) and on the expression and activity of adenylyl cyclase (AC). Chronic (27 days) morphine treatment reduced the expression of к-opioids receptors, but 10-day morphine exposure did not influence the expression of these receptors. Assessment of β1- and β2-AR by immunoblot technique did not show any significant change in the expression, but the more accurate determination of β-AR expression using the saturation binding studies revealed that 27-day treatment with high doses of morphine appreciable increased the total number of these receptors. Administration of high doses of morphine led to marked up-regulation of adenylyl cyclase (AC) isoforms V/VI, and the amount of AC decreased proportionally with the time of discontinuation of morphine administration. Low doses of morphine up- regulated AC only during 27-day administration. Chronic morphine exposure did...

Social Stress Induces Immunoenhancement During Allergic Airway Inflammation and Infection

Reader, Brenda Faye

January 2013

No description available.

Dentistry

Psychology

Psychobiology

Neurosciences

Microbiology

Medicine

Immunology

psychoneuroimmunology

NPY

IL-1

Porphyromonas gingivalis

Aspergillus fumigatus

neutrophils

inflammation

allergic airway inflammation

stress

anxiety

adrenergic receptors

Alpha1-Adrenergic Receptor Activation Mimics Ischemic Postconditioning in Cardiac Myocytes

Janota, Danielle Marie

04 August 2014

No description available.

Biomedical Research

Biology

alpha1-adrenergic receptors

cardiac, heart

myocardial infarction

ischemia

reperfusion

postconditioning

autophagy

apoptosis

cell death

myocytes

cardiomyocytes

HL-1

Functional Analysis of Nuclear beta-Adrenergic Receptors in the Myocardium

Vaniotis, George

09 1900

Récemment plusieurs récepteurs couplés aux protéines G (RCPGs) ont été caractérisés au niveau des membranes intracellulaires, dont la membrane nucléaire. Notre objectif était de déterminer si les sous-types de récepteurs β-adrénergiques (βAR) et leurs machineries de signalisation étaient fonctionnels et localisés à la membrane nucléaire des cardiomyocytes. Nous avons démontré la présence des β1AR et β3AR, mais pas du β2AR à la membrane nucléaire de myocytes ventriculaires adultes par immunobuvardage, par microscopie confocale, et par des essais fonctionnels. De plus, certains partenaires de signalisation comme les protéines GαS, Gαi, l’adénylate cyclase II, et V/VI y étaient également localisés. Les sous-types de βAR nucléaires étaient fonctionnels puisqu'ils pouvaient lier leurs ligands et activer leurs effecteurs. En utilisant des noyaux isolés, nous avons observé que l'agoniste non-sélectif isoprotérénol (ISO), et que le BRL37344, un ligand sélectif du β3AR, stimulaient l'initiation de la synthèse de l’ARN, contrairement à l'agoniste sélectif du β1AR, le xamotérol. Cette synthèse était abolie par la toxine pertussique (PTX). Cependant, la stimulation des récepteurs nucléaires de type B de l’endothéline (ETB) causaient une réduction de l'initiation de la synthèse d’ARN. Les voies de signalisations impliquées dans la régulation de la synthèse d’ARN par les RCPGs ont ensuite été étudiées en utilisant des noyaux isolés stimulés par des agonistes en présence ou absence de différents inhibiteurs des voies MAP Kinases (proteines kinases activées par mitogènes) et de la voie PI3K/PKB. Les protéines impliquées dans les voies de signalisation de p38, JNK, ERK MAP Kinase et PKB étaient présents dans les noyaux isolés. L'inhibition de PKB par la triciribine, inhibait la synthèse d’ARN. Nous avons ensuite pu mettre en évidence par qPCR que la stimulation par l’ISO entrainait une augmentation du niveau d'ARNr 18S ainsi qu’une diminution de l'expression d’ARNm de NFκB. En contraste, l’ET-1 n’avait aucun effet sur le niveau d’expression de l’ARNr 18S. Nous avons ensuite montré que la stimulation par l’ISO réduisait l’expression de plusieurs gènes impliqués dans l'activation de NFκB, tandis que l’inhibition de ERK1/2 et PKB renversait cet effet. Un microarray global nous a ensuite permis de démontrer que les βARs et les ETRs nucléaires régulaient un grand nombre de gènes distincts. Finalement, les βARs et ETRs nucléaires augmentaient aussi une production de NO de noyaux isolés, ce qui pouvait être inhibée par le LNAME. Ces résultats ont été confirmés dans des cardiomyocytes intacts en utilisant des analogues cagés et perméables d’ISO et de l'ET-1: l'augmentation de NO nucléaire détectée par DAF2-DA, causée par l'ET-1 et l'ISO, pouvait être prévenue par le LNAME. Finalement, l’augmentation de l’initiation de la transcription induite par l'ISO était aussi bloquée par le L-NAME ou par un inbitheur de PKG, le KT5823, suggérant que la voie NO-GC-PKG est impliquée dans la régulation de la transcription par les βAR. En conclusion, les βARs et les ETRs nucléaires utilisent des voies de signalisation différentes et exercent ainsi des effets distincts sur l’expression des gènes cardiaques. Ils représentent donc une avenue intéressante pour le développement de drogues pharmacologiques. / Recently several G protein-coupled receptors (GPCRs) have been shown to localize to intracellular membranes, in particular the nuclear membrane. As such, we sought to determine if the β-adrenergic receptor (βAR) subtypes and their associated signalling machinery are functionally localized to nuclear membranes. We demonstrated the presence of β1AR and the β3AR, but not the β2AR, in adult ventricular myocyte nuclei by western blotting, confocal microscopy and functional assays. Downstream signalling partners such as GαS, Gαi and adenylyl cyclase II and V/VI were also present. Nuclear-localized βARs were functional with respect to ligand binding and effector activation. In isolated nuclei, the non-selective βAR agonist isoproterenol (ISO) and the β3AR-selective ligand BRL37344, but not the β1AR-selective xamoterol, stimulated transcription initiation in a pertussis toxin (PTX)-sensitive manner. In contrast, stimulation of type B endothelin receptors (ETB), another GPCR family shown to be present on the nuclear membrane, decreased de novo RNA synthesis. To investigate the signalling pathway(s) involved in GPCR-mediated regulation of RNA synthesis, nuclei were isolated from intact adult rat hearts and treated with receptor agonists in the presence or absence of inhibitors of the PI3K/PKB and mitogen-activated protein kinase (MAPK) pathways. Components of p38, JNK, and ERK1/2 MAPK cascades as well as PKB were detected in nuclear preparations. Inhibition of PKB with triciribine converted the activation of the βAR from stimulatory to inhibitory with regards to transcription initiation. Analysis by qPCR indicated isoproterenol treatment increased 18S rRNA but decreased NFκB mRNA. In contrast, ET-1 had no effect on 18S rRNA expression. Further investigation using pathway-specific PCR arrays revealed that isoproterenol treatment also reduced the expression of several other genes involved in the activation of NFκB and that ERK1/2 and PKB inhibitors attenuated this effect. Subsequent genome-wide microarray analysis has revealed that nuclear βAR and ETB regulated a host of genes in an overlapping but distinct manner. Moreover, both ET-1 and ISO produced an L-NAME-sensitive increase in NO production in isolated cardiac nuclei. These observations were confirmed in intact cardiomyocytes using novel caged analogues of ISO and ET-1 and the cell-permable NO-sensitive fluorescent dye, DAF-2 DA. Briefly, both ET-1 and isoproterenol increased NO production, and this increase was prevented upon preincubation with L-NAME. Moreover, the ability of isoproterenol to increase transcription initiation in isolated nuclei was blocked by L-NAME or the PKG inhibitor KT5823, indicating the NO-GC-PKG pathway is involved in the regulation of gene expression by nuclear βARs. Hence, we have shown that βARs and ETRs in the nuclear membrane activate distinct signalling pathways, resulting in different effects on gene transcription and thus represent potentially important targets for drug development.

Heart

beta-Adrenergic receptors

Endothelin Receptors

G protein coupled receptor (GPCR)

Nuclear membrane

transcription

Nitric Oxide

Récepteur beta-adrénergiques

Récepteurs aux endothelin

coeur

Membrane nucléaire

Transcription

Oxide nitrique

Functional Analysis of Nuclear beta-Adrenergic Receptors in the Myocardium

Vaniotis, George

09 1900

Récemment plusieurs récepteurs couplés aux protéines G (RCPGs) ont été caractérisés au niveau des membranes intracellulaires, dont la membrane nucléaire. Notre objectif était de déterminer si les sous-types de récepteurs β-adrénergiques (βAR) et leurs machineries de signalisation étaient fonctionnels et localisés à la membrane nucléaire des cardiomyocytes. Nous avons démontré la présence des β1AR et β3AR, mais pas du β2AR à la membrane nucléaire de myocytes ventriculaires adultes par immunobuvardage, par microscopie confocale, et par des essais fonctionnels. De plus, certains partenaires de signalisation comme les protéines GαS, Gαi, l’adénylate cyclase II, et V/VI y étaient également localisés. Les sous-types de βAR nucléaires étaient fonctionnels puisqu'ils pouvaient lier leurs ligands et activer leurs effecteurs. En utilisant des noyaux isolés, nous avons observé que l'agoniste non-sélectif isoprotérénol (ISO), et que le BRL37344, un ligand sélectif du β3AR, stimulaient l'initiation de la synthèse de l’ARN, contrairement à l'agoniste sélectif du β1AR, le xamotérol. Cette synthèse était abolie par la toxine pertussique (PTX). Cependant, la stimulation des récepteurs nucléaires de type B de l’endothéline (ETB) causaient une réduction de l'initiation de la synthèse d’ARN. Les voies de signalisations impliquées dans la régulation de la synthèse d’ARN par les RCPGs ont ensuite été étudiées en utilisant des noyaux isolés stimulés par des agonistes en présence ou absence de différents inhibiteurs des voies MAP Kinases (proteines kinases activées par mitogènes) et de la voie PI3K/PKB. Les protéines impliquées dans les voies de signalisation de p38, JNK, ERK MAP Kinase et PKB étaient présents dans les noyaux isolés. L'inhibition de PKB par la triciribine, inhibait la synthèse d’ARN. Nous avons ensuite pu mettre en évidence par qPCR que la stimulation par l’ISO entrainait une augmentation du niveau d'ARNr 18S ainsi qu’une diminution de l'expression d’ARNm de NFκB. En contraste, l’ET-1 n’avait aucun effet sur le niveau d’expression de l’ARNr 18S. Nous avons ensuite montré que la stimulation par l’ISO réduisait l’expression de plusieurs gènes impliqués dans l'activation de NFκB, tandis que l’inhibition de ERK1/2 et PKB renversait cet effet. Un microarray global nous a ensuite permis de démontrer que les βARs et les ETRs nucléaires régulaient un grand nombre de gènes distincts. Finalement, les βARs et ETRs nucléaires augmentaient aussi une production de NO de noyaux isolés, ce qui pouvait être inhibée par le LNAME. Ces résultats ont été confirmés dans des cardiomyocytes intacts en utilisant des analogues cagés et perméables d’ISO et de l'ET-1: l'augmentation de NO nucléaire détectée par DAF2-DA, causée par l'ET-1 et l'ISO, pouvait être prévenue par le LNAME. Finalement, l’augmentation de l’initiation de la transcription induite par l'ISO était aussi bloquée par le L-NAME ou par un inbitheur de PKG, le KT5823, suggérant que la voie NO-GC-PKG est impliquée dans la régulation de la transcription par les βAR. En conclusion, les βARs et les ETRs nucléaires utilisent des voies de signalisation différentes et exercent ainsi des effets distincts sur l’expression des gènes cardiaques. Ils représentent donc une avenue intéressante pour le développement de drogues pharmacologiques. / Recently several G protein-coupled receptors (GPCRs) have been shown to localize to intracellular membranes, in particular the nuclear membrane. As such, we sought to determine if the β-adrenergic receptor (βAR) subtypes and their associated signalling machinery are functionally localized to nuclear membranes. We demonstrated the presence of β1AR and the β3AR, but not the β2AR, in adult ventricular myocyte nuclei by western blotting, confocal microscopy and functional assays. Downstream signalling partners such as GαS, Gαi and adenylyl cyclase II and V/VI were also present. Nuclear-localized βARs were functional with respect to ligand binding and effector activation. In isolated nuclei, the non-selective βAR agonist isoproterenol (ISO) and the β3AR-selective ligand BRL37344, but not the β1AR-selective xamoterol, stimulated transcription initiation in a pertussis toxin (PTX)-sensitive manner. In contrast, stimulation of type B endothelin receptors (ETB), another GPCR family shown to be present on the nuclear membrane, decreased de novo RNA synthesis. To investigate the signalling pathway(s) involved in GPCR-mediated regulation of RNA synthesis, nuclei were isolated from intact adult rat hearts and treated with receptor agonists in the presence or absence of inhibitors of the PI3K/PKB and mitogen-activated protein kinase (MAPK) pathways. Components of p38, JNK, and ERK1/2 MAPK cascades as well as PKB were detected in nuclear preparations. Inhibition of PKB with triciribine converted the activation of the βAR from stimulatory to inhibitory with regards to transcription initiation. Analysis by qPCR indicated isoproterenol treatment increased 18S rRNA but decreased NFκB mRNA. In contrast, ET-1 had no effect on 18S rRNA expression. Further investigation using pathway-specific PCR arrays revealed that isoproterenol treatment also reduced the expression of several other genes involved in the activation of NFκB and that ERK1/2 and PKB inhibitors attenuated this effect. Subsequent genome-wide microarray analysis has revealed that nuclear βAR and ETB regulated a host of genes in an overlapping but distinct manner. Moreover, both ET-1 and ISO produced an L-NAME-sensitive increase in NO production in isolated cardiac nuclei. These observations were confirmed in intact cardiomyocytes using novel caged analogues of ISO and ET-1 and the cell-permable NO-sensitive fluorescent dye, DAF-2 DA. Briefly, both ET-1 and isoproterenol increased NO production, and this increase was prevented upon preincubation with L-NAME. Moreover, the ability of isoproterenol to increase transcription initiation in isolated nuclei was blocked by L-NAME or the PKG inhibitor KT5823, indicating the NO-GC-PKG pathway is involved in the regulation of gene expression by nuclear βARs. Hence, we have shown that βARs and ETRs in the nuclear membrane activate distinct signalling pathways, resulting in different effects on gene transcription and thus represent potentially important targets for drug development.

Heart

beta-Adrenergic receptors

Endothelin Receptors

G protein coupled receptor (GPCR)

Nuclear membrane

transcription

Nitric Oxide

Récepteur beta-adrénergiques

Récepteurs aux endothelin

coeur

Membrane nucléaire

Transcription

Oxide nitrique

Papel dos receptores β-adrenérgicos no reparo cutâneo de lesões crônicas em camundongos: modelo não invasivo de lesão por isquemia e reperfusão / Role of β-adrenergic in mice chronic wound repair: non invasive model induced by ischemia and reperfusion

Thatiana Luiza Assis de Brito Carvalho

24 February 2014

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Os receptores β1- e β2-adrenérgicos estão presentes em inúmeras células que participam do processo de reparo como fibroblastos, queratinócitos, células inflamatórias e células endoteliais. Diversos trabalhos demonstram que estes receptores modulam o processo de reparo tecidual. Entretanto, nenhum trabalho demonstrou se o bloqueio destes receptores compromete o reparo de úlceras de pressão. O objetivo deste estudo foi avaliar o efeito do bloqueio dos receptores β1- e β2-adrenérgicos no reparo de úlceras de pressão em camundongos, para isto utilizamos um modelo não invasivo de lesão por isquemia e reperfusão. No presente estudo, utilizamos animais que foram tratados por gavagem com propranolol (um antagonista não seletivo dos receptores β1- e β2-adrenérgicos). A administração do antagonista teve início um dia antes do início dos ciclos de isquemia e reperfusão e se manteve diariamente até a eutanásia. Para desenvolver a úlcera de pressão, um par de magnetos foi aplicado no dorso dos animais previamente depilado. O período de permanência do magneto é caracterizado como período de isquemia, enquanto sua retirada é caracterizada como período de reperfusão. Os ciclos de isquemia e reperfusão foram repetidos duas vezes, e ao final do último ciclo, duas úlceras circulares foram criadas no dorso dos animais. Os animais foram mortos 3, 7, 14 e 21 dias após a lesão. Após o último ciclo de isquemia, o fluxo sanguíneo da área comprimida foi nulo, 7 horas após a compressão o fluxo sanguíneo estava elevado, com níveis superiores ao da pele normal. Após 24 e 48 horas, o fluxo sanguíneo estava reduzido e abaixo dos níveis da pele normal. O bloqueio dos receptores β1- e β2-adrenérgicos aumentou os níveis de peróxidos lipídicos 3 dias após a lesão, comprometeu a migração dos queratinócitos, levando a um aumento da proliferação epitelial, resultando em uma re-epitelização atrasada. O retardo na formação da neo-epiderme induzido pelo bloqueio destes receptores prejudicou a remoção do tecido necrótico. O bloqueio dos receptores β1- e β2-adrenérgicos aumentou o número de células inflamatórias (neutrófilos e macrófagos), os níveis proteicos de elastase neutrofílica 3 dias após a lesão e reduziu os níveis proteicos de MCP-1 3 dias após a lesão e os níveis proteicos de MMP-12 7 dias após a lesão. O bloqueio dos receptores β1- e β2-adrenérgicos aumentou a proliferação celular e apoptose no tecido conjuntivo 7 dias após a lesão e aumentou a densidade de vasos sanguíneos 14 e 21 dias após a lesão. O bloqueio dos receptores β1- e β2-adrenérgicos retardou a diferenciação miofibroblástica e reduziu os níveis proteicos de TGF-β 1/2/3 3 dias após a lesão e a contração da lesão. Vinte e um dias após a lesão, o bloqueio dos receptores β1- e β2-adrenérgicos aumentou a espessura da neo-epiderme e a expressão de tenascina-C em fibroblastos e reduziu a deposição de colágeno. Em conclusão, o bloqueio dos receptores β1- e β2-adrenérgicos atrasa o reparo tecidual em úlceras de pressão. / β1- and β2-adrenergic receptors are present in several cells that participate in tissue repair such as fibroblasts, keratinocytes, inflammatory cells and endothelial cells. Several studies demonstrate that these receptors modulate cutaneous wound healing. However, neither study demonstrated if the blockade of theses receptors compromises the cutaneous wound healing of pressure ulcers. Thus, the aim of this study was to evaluate the effect of blockade of β1- and β2-adrenergic receptors in wound healing of pressure ulcer in mice using a noninvasive model of lesion induced by ischemia and reperfusion. In this study, animals were also treated with propranolol (a nonselective antagonist of β1- and β2-adrenergic receptors). Antagonism administration began one day before ischemia-reperfusion cycles and daily maintained until euthanasia. In order to develop a pressure ulcer, a shaved skin was placed between a pair of magnet disks. The period of magnet placement is characterized as ischemia period, whereas release period as reperfusion period. Two cycles of ischemia and reperfusion were performed, and after last cycle, two circular ulcers per animal were created in the animal dorsum. Animals were killed 3, 7, 14 and 21 days after wounding. After last ischemia cycle, blood flow of compressed area was nulled, 7 hours after compressed area underwent reperfusion during subsequent hours reaching blood flow 98% superior of normal skin. After 24 and 48 hours, blood flow of compressed area was again reduced when compared with normal skin. Blockade of β1- and β2-adrenergic receptors increased the levels of lipid peroxydes 3 days after wounding, compromised keratinocyte migration leading to an increase epithelial proliferation and impairment in the re-epithelialization. The impairment in the neo-epidermis formation induced by β1- and β2-adrenergic receptor blockade delayed the necrotic tissue loss. Blockade of β1- and β2-adrenergic receptors increased the inflammatory cell number (macrophages and neutrophils), protein levels of neutrophil elastase 3 days after wounding and reduced protein levels of MCP-1 3 days after wounding and protein levels of MMP-12 7 days after wounding. Blockade of β1- and β2-adrenergic receptors increased cell proliferation and apoptosis in connective tissue 7 days after wounding and blood vessel density 14 and 21 days after wounding. Blockade of β1- and β2-adrenergic receptors impaired myofibroblastic differentiation and reduced protein levels of TGF-β 1/2/3 3 days after wounding and lesion contraction. Twenty-one days after wounding, β1- and β2-adrenergic receptor blockade increased neo-epidermis thickness and tenascin-C-positive fibroblast number and reduced collagen deposition. In conclusion, blockade of β1- and β2-adrenergic receptors delays cutaneous wound healing of pressure ulcers.

Receptores β-adrenérgicos

Reparo tecidual

Lesão cutânea

Úlcera de pressão

Isquemia

Reperfusão

Cutaneous lesion

Tissue repair

β-Adrenergic receptors

Pressure ulcer

MORFOLOGIA

Mecanismos dos núcleos central da amígdala e parabraquial lateral no controle da ingestão de sódio

Franzé, Gláucia Maria Fabrício de Andrade

27 February 2015

Made available in DSpace on 2016-06-02T19:22:13Z (GMT). No. of bitstreams: 1 6708.pdf: 2113975 bytes, checksum: 30511a391fdfda439671c285b41c07c1 (MD5) Previous issue date: 2015-02-27 / Financiadora de Estudos e Projetos / The central nucleus of the amygdala (CeA) and the lateral parabrachial nucleus (LPBN) are important areas for the control of sodium appetite. The functional integrity of the CeA is critical to sodium and water intake when LPBN the inhibitory mechanisms are deactivated. Therefore, the aims of this study were to investigate the role of different neurotransmitters of the CeA in the control of sodium and water intake induced by a) sodium depletion and b) after blockade of LPBN inhibitory mechanisms. Male Holtzman rats with stainless steel guide cannula implanted bilaterally only in CeA or both into the CeA and LPBN were used. Sodium (0.3 M NaCl) intake was evaluated in satiated, hyperosmotic and sodium-depleted rats. In sodium-depleted animals, bilateral administration of α2- adrenergic/imidazoline receptor agonist moxonidine (10 nmol) into CeA reduced 0.3 M NaCl and water intake. Moreover, bilateral injections of muscimol (0.25 nmol) into CeA reduced sodium intake without change water intake. Oxytocin receptors activation or its blockade in the CeA, blockade of muscarinic cholinergic receptor or activation of 5HT2A/2C serotonergic receptor into the CeA did not change 0.3 M NaCl or water intake in sodium-depleted animals. Bilateral injections of opioid receptor antagonist naloxone (40 μg) into the CeA did not significantly change 0.3 M NaCl and water intake in sodium-depleted animals. However, sodium and water intake induced by bilateral injections of muscimol (0.5 nmol) into the LPBN in satiated animals were completely abolished after bilateral injections of naloxone (40 μg) into CeA. Furthermore, paradoxical sodium intake observed in rats that received oral gavage with 2 M NaCl (2 ml/rat) combined with bilateral injections of moxonidine (0.5 nmol) in LPBN was also blocked by bilateral naloxone (40 μg) into the CeA. 0.3 M NaCl and water intake induced by bilateral muscimol injections (0.5 nmol) into LPBN in satiated animals were abolished by blocking AT1 angiotensin receptors (losartan - 20 μg) in CeA. In sodium-depleted animals, bilateral injections of losartan (20 μg) into the CeA significantly reduced water intake but did not affect sodium intake. Bilateral injections of the aldosterone antagonist RU 28318 (50 ng) did not change sodium and water intake induced by sodium depletion. Present results suggest that ocitocinergic, cholinergic muscarinic, 5-HT2A/2C serotonergic receptors and aldosterone receptors of the CeA do not participate in the control of 0.3 M NaCl intake induced by sodium depletion. Moreover, present results suggest that GABAergic and α2-adrenergic receptors of the CeA have an inhibitory role for sodium appetite in this situation. Although opioids and angiotensinergic mechanisms of the CeA apparently do not contribute to sodium depletion-induced sodium intake, opioidergic and angiotensinergic mechanisms in CeA are essential for sodium intake when the LPBN inhibitory mechanisms are blockade by LPBN muscimol injection. In addition, opioidergic mechanisms in CeA are also essential for the paradoxical sodium intake by hyperosmotic animals when the inhibitory mechanisms are attenuated by LPBN moxonidine. Therefore, the activation of opioidergic and angiotensinergic receptors of the CeA is required for sodium intake observed after removal or attenuation of LPBN inhibitory mechanisms. / O núcleo central da amígdala (CeA) e o núcleo parabraquial lateral (NPBL) são regiões importantíssimas para o controle da ingestão sódio e água. A integridade funcional do CeA é fundamental para a ingestão de sódio e água quando ocorre redução da atividade dos mecanismos inibitórios do NPBL. Portanto, os objetivos do presente estudo foram investigar a participação de alguns neurotransmissores no CeA no controle da ingestão de sódio e água induzida a) por desidratação extracelular e b) após o bloqueio dos mecanismos inibitórios do NPBL. Para tanto foram utilizados ratos Holtzman com cânulas guia de aço inoxidável implantadas bilateralmente apenas no CeA ou bilateralmente no CeA e no NPBL. A ingestão de NaCl 1,8% foi avaliada em animais saciados, hiperosmóticos ou com depleção de sódio. Em animais depletados de sódio, a administração bilateral do agonista de receptores adrenérgicos α2/imidazólicos moxonidina (10 nmol), assim como a de muscimol (0,25 nmol) no CeA reduziram a ingestão de NaCl 1,8%. A ativação ou bloqueio dos receptores de ocitocina, o bloqueio de receptores muscarínicos, ativação de receptores serotenérgicos 5-HT2A/2C, ou ainda o bloqueio de receptores de aldosterona no CeA não modificaram a ingestão de sódio e água. Contudo, injeções bilaterais de losartan (20 μg) no CeA reduziram a ingestão de água, mas não modificaram a ingestão de sódio em animais depletados. Já a ingestão de sódio e água induzidas por muscimol (0,5 nmol) no NPBL em animais saciados foram abolidas após bloqueio de receptores AT1 de angiotensina com administração de losartan no CeA. Administração bilateral de naloxona (40 μg) no CeA não modificou a ingestão de NaCl 1,8% e de água em animais desidratados. No entanto, a ingestão de sódio e água induzidas por injeções bilaterais de muscimol (0,5 nmol) no NPBL em animais saciados foram completamente bloqueadas após injeções bilaterais de naloxona no CeA. Além disso, a ingestão paradoxal de NaCl 0,3 M observada em ratos hiperosmóticos após o tratamento bilateral de moxonidina no NPBL também foi bloqueada pelas injeções de naloxona no CeA. Os presentes resultados sugerem que receptores ocitocinérgicos, colinérgicos muscarínicos, serotoninérgicos 5-HT2 e receptores de aldosterona no CeA não participam do controle da ingestão de NaCl 1,8% induzida por depleção de sódio. Por outro lado, os presentes resultados sugerem que receptores GABAérgicos e receptores adrenérgicos α2 no CeA apresentam um papel inibitório para o apetite ao sódio nessa situação. Embora os mecanismos opióides e angiotensinérgicos no CeA aparentemente não contribuam para a ingestão de sódio induzida pela depleção de sódio, os mecanismos opióides e angiotensinérgicos no CeA são essenciais para a ingestão de sódio observada quando os mecanismos inibitórios do NPBL são desativados pela ação do muscimol nessa área. Além disso, os mecanismos opióides no CeA também são essenciais para a ingestão paradoxal de sódio em animais hiperosmóticos quando os mecanismos inibitórios são atenuados pela ação da moxonidina no NPBL. Portanto, a ativação de receptores opióides e de receptores angiotensinérgicos no CeA é necessária para a ingestão de sódio observada após a remoção ou atenuação dos mecanismos inibitórios NPBL.

Fisiologia

Apetite ao sódio

Núcleo parabraquial lateral

Núcleo central da amígdala

GABA (Ácido Gama Amino Butírico)

Opióide

Sodium appetite

Thirst

Lateral parabrachial nucleus

Central nucleus of the amygdala

GABA

Adrenergic receptors

Opioids

CIENCIAS BIOLOGICAS::FISIOLOGIA

Papel dos receptores β-adrenérgicos no reparo cutâneo de lesões crônicas em camundongos: modelo não invasivo de lesão por isquemia e reperfusão / Role of β-adrenergic in mice chronic wound repair: non invasive model induced by ischemia and reperfusion

Thatiana Luiza Assis de Brito Carvalho

24 February 2014

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Os receptores β1- e β2-adrenérgicos estão presentes em inúmeras células que participam do processo de reparo como fibroblastos, queratinócitos, células inflamatórias e células endoteliais. Diversos trabalhos demonstram que estes receptores modulam o processo de reparo tecidual. Entretanto, nenhum trabalho demonstrou se o bloqueio destes receptores compromete o reparo de úlceras de pressão. O objetivo deste estudo foi avaliar o efeito do bloqueio dos receptores β1- e β2-adrenérgicos no reparo de úlceras de pressão em camundongos, para isto utilizamos um modelo não invasivo de lesão por isquemia e reperfusão. No presente estudo, utilizamos animais que foram tratados por gavagem com propranolol (um antagonista não seletivo dos receptores β1- e β2-adrenérgicos). A administração do antagonista teve início um dia antes do início dos ciclos de isquemia e reperfusão e se manteve diariamente até a eutanásia. Para desenvolver a úlcera de pressão, um par de magnetos foi aplicado no dorso dos animais previamente depilado. O período de permanência do magneto é caracterizado como período de isquemia, enquanto sua retirada é caracterizada como período de reperfusão. Os ciclos de isquemia e reperfusão foram repetidos duas vezes, e ao final do último ciclo, duas úlceras circulares foram criadas no dorso dos animais. Os animais foram mortos 3, 7, 14 e 21 dias após a lesão. Após o último ciclo de isquemia, o fluxo sanguíneo da área comprimida foi nulo, 7 horas após a compressão o fluxo sanguíneo estava elevado, com níveis superiores ao da pele normal. Após 24 e 48 horas, o fluxo sanguíneo estava reduzido e abaixo dos níveis da pele normal. O bloqueio dos receptores β1- e β2-adrenérgicos aumentou os níveis de peróxidos lipídicos 3 dias após a lesão, comprometeu a migração dos queratinócitos, levando a um aumento da proliferação epitelial, resultando em uma re-epitelização atrasada. O retardo na formação da neo-epiderme induzido pelo bloqueio destes receptores prejudicou a remoção do tecido necrótico. O bloqueio dos receptores β1- e β2-adrenérgicos aumentou o número de células inflamatórias (neutrófilos e macrófagos), os níveis proteicos de elastase neutrofílica 3 dias após a lesão e reduziu os níveis proteicos de MCP-1 3 dias após a lesão e os níveis proteicos de MMP-12 7 dias após a lesão. O bloqueio dos receptores β1- e β2-adrenérgicos aumentou a proliferação celular e apoptose no tecido conjuntivo 7 dias após a lesão e aumentou a densidade de vasos sanguíneos 14 e 21 dias após a lesão. O bloqueio dos receptores β1- e β2-adrenérgicos retardou a diferenciação miofibroblástica e reduziu os níveis proteicos de TGF-β 1/2/3 3 dias após a lesão e a contração da lesão. Vinte e um dias após a lesão, o bloqueio dos receptores β1- e β2-adrenérgicos aumentou a espessura da neo-epiderme e a expressão de tenascina-C em fibroblastos e reduziu a deposição de colágeno. Em conclusão, o bloqueio dos receptores β1- e β2-adrenérgicos atrasa o reparo tecidual em úlceras de pressão. / β1- and β2-adrenergic receptors are present in several cells that participate in tissue repair such as fibroblasts, keratinocytes, inflammatory cells and endothelial cells. Several studies demonstrate that these receptors modulate cutaneous wound healing. However, neither study demonstrated if the blockade of theses receptors compromises the cutaneous wound healing of pressure ulcers. Thus, the aim of this study was to evaluate the effect of blockade of β1- and β2-adrenergic receptors in wound healing of pressure ulcer in mice using a noninvasive model of lesion induced by ischemia and reperfusion. In this study, animals were also treated with propranolol (a nonselective antagonist of β1- and β2-adrenergic receptors). Antagonism administration began one day before ischemia-reperfusion cycles and daily maintained until euthanasia. In order to develop a pressure ulcer, a shaved skin was placed between a pair of magnet disks. The period of magnet placement is characterized as ischemia period, whereas release period as reperfusion period. Two cycles of ischemia and reperfusion were performed, and after last cycle, two circular ulcers per animal were created in the animal dorsum. Animals were killed 3, 7, 14 and 21 days after wounding. After last ischemia cycle, blood flow of compressed area was nulled, 7 hours after compressed area underwent reperfusion during subsequent hours reaching blood flow 98% superior of normal skin. After 24 and 48 hours, blood flow of compressed area was again reduced when compared with normal skin. Blockade of β1- and β2-adrenergic receptors increased the levels of lipid peroxydes 3 days after wounding, compromised keratinocyte migration leading to an increase epithelial proliferation and impairment in the re-epithelialization. The impairment in the neo-epidermis formation induced by β1- and β2-adrenergic receptor blockade delayed the necrotic tissue loss. Blockade of β1- and β2-adrenergic receptors increased the inflammatory cell number (macrophages and neutrophils), protein levels of neutrophil elastase 3 days after wounding and reduced protein levels of MCP-1 3 days after wounding and protein levels of MMP-12 7 days after wounding. Blockade of β1- and β2-adrenergic receptors increased cell proliferation and apoptosis in connective tissue 7 days after wounding and blood vessel density 14 and 21 days after wounding. Blockade of β1- and β2-adrenergic receptors impaired myofibroblastic differentiation and reduced protein levels of TGF-β 1/2/3 3 days after wounding and lesion contraction. Twenty-one days after wounding, β1- and β2-adrenergic receptor blockade increased neo-epidermis thickness and tenascin-C-positive fibroblast number and reduced collagen deposition. In conclusion, blockade of β1- and β2-adrenergic receptors delays cutaneous wound healing of pressure ulcers.

Receptores β-adrenérgicos

Reparo tecidual

Lesão cutânea

Úlcera de pressão

Isquemia

Reperfusão

Cutaneous lesion

Tissue repair

β-Adrenergic receptors

Pressure ulcer

MORFOLOGIA

EFFECTIVENESS OF AQUEOUS EXTRACT OF Maytenus rigida Mart. (CELASTRACEAE) IN ETHANOL-INDUCED DAMAGE GASTRIC IN MICE: ANALYSIS OF INVOLVEMENT OF NITRIC OXIDE, PROSTAGLANDINS, OPIOIDS RECEPTORS AND α-2-ADRENERGICS. / EficÃcia do extrato aquoso de maytenus rigida mart. (celastraceae) na lesÃo gÃstrica induzida por etanol em camundongos: anÃlise do envolvimento de Ãxido nÃtrico, prostaglandinas, receptores opioides e α-2-adrenÃrgicos

Ãngela MagalhÃes Vieira

28 February 2013

FundaÃÃo de Amparo à Pesquisa do Estado do Cearà / Maytenus rigida Mart. (Celastraceae) pupularly known as âbom-homemâ, âbom-nomeâ, âCabelo de Negroâ, âCasca-grossaâ, ChapÃu de couroâ or âpau-de-colherâ is a native species in the northeast region of Brazil, used in folk medicine in the tratament of inflammatory diseases, gastrointestinal disorders such diarrhea, dysentery and ulcers, kidney problems, hypertension, impotence and rheumatism. The aim of this work was to demonstrate the possible mechanism (s) of action underlying the gastroprotective effect of aqueous extract (AE) of Maytenus rigida in Swiss mice, in the gastric injury model induced by absolute ethanol. Fasted mice received AE (100, 200 or 400 mg/Kg, p.o.) 1h prior to oral administration of absolute ethanol (0,2 mL/animal). Groups treated with saline and ranitidine were used as controls. The stomachs were macroscopically and microscopically examined. Additionally, different pharmacologixal tools (naloxone, morphine, misoprostol, indomethacin, L-NAME, L-arginine, clonidine or yohimbine) were used in different tests, trying to clarify the possible mechanism (s) of action of AE. The macro and microscopic gastroprotective effect of AE was compared to that showed by ranitidine, on ethanol-induced model (p<0.05); the use of pharmacological tools revealed that the protective effect of AE involves the activation of &#945;-2-adrenergic receptors, opioid receptor and nitric oxide, but do not depends on prostaglandins. The EA has a gastroprotective effects, supporting its traditional use. Its effect is multifactorial, involving the participation of &#945;-2-adrenergic receptors, nitric oxide release and activation of opioids receptors. / Maytenus rigida Mart., (Celastraceae) popularmente conhecida como âbom-homemâ, âbom-nomeâ, âcabelo de negroâ, âcasca-grossaâ, âchapÃu de couroâ ou âpau-de-colherâ à uma espÃcie nativa do nordeste brasileiro, utilizada na medicina popular no tratamento das doenÃas inflamatÃrias, desordens gastrointestinais como diarreia, disenteria e Ãlceras, problemas renais, hipertensÃo, impotÃncia sexual e reumatismo. O objetivo deste trabalho foi evidenciar o(s) possÃvel(is) mecanismo(s) de aÃÃo subjaentes ao efeito gastroprotetor do extrato aquoso (EA) de Maytenus rigida em camundongos suÃÃos, no modelo de lesÃo gÃstrica induzida por etanol absoluto. Camundongos em jejum receberam EA (100, 200 ou 400 mg/Kg, p.o.) 1 h antes da administraÃÃo oral de etanol absoluto (0,2ml/animal). Grupos tratados com salina e ranitidina foram utilizados como controles. Os estÃmagos foram analisados macro e microscopicamente. Adicionalmente, foram utilizadas diferentes ferramentas farmacolÃgicas (naloxona, morfina, misoprostol, indometacina, L-NAME, L-arginina, clonidina ou ioimbina) em diferentes ensaios, para tentar esclarecer o(s) possÃvel(is) mecanismo(s) de aÃÃo do EA. O efeito gastroprotetor macro e microscÃpico do EA foi comparado ao exercido pela ranitidina no modelo etanol-induzido (p < 0,05); a utilizaÃÃo de ferramentas farmacolÃgicas revelou que o efeito protetor do EA envolve a ativaÃÃo de receptores &#945;2-adrenÃrgicos, receptores opioides, Ãxido nÃtrico, mas nÃo depende de prostaglandinas. O EA possui efeito gastroprotetor, corroborando com seu uso tradicional. Seu efeito à multifatorial, envolvendo a participaÃÃo de receptores &#945;2-adrenÃrgicos, liberaÃÃo de Ãxido nÃtrico, e ativaÃÃo de receptores opioides.

Maytenus rigida

LESÃO GÃSTRICA

ÃXIDO NÃTRICO

PROSTAGLANDINAS

RECEPTORES OPIOIDES

RECEPTORES &#945

-2-ADRENÃRGICOS

Maytenus rigida

Receptores &#945

2-adrenÃrgicos

Maytenus rigida

Celastraceae

Damage gastric

&#945

-2-adrenergic receptors

Opioids receptors

Nitric oxide

FARMACOLOGIA GERAL