N-acetilcisteína previne a piora da memória espacial induzida por ácido glutárico e lipopolissacarídio em ratos jovens / N-acetylcysteine prevents spatial memory impairment induced by chronic early postnatal glutaric acid and lipopolysaccharide in rat pups

Rodrigues, Fernanda Silva

10 March 2014

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Glutaric aciduria type I (GA-I) is an inborn error of metabolism (EIM) characterized biochemically by accumulation of glutaric acid (GA). The clinical manifestations are mainly neurological and develop during childhood. Among these changes, there are the seizures and cognitive deficits, which may be precipitated by infectious processes. Although growing evidence supports that inflammation and oxidative damage are both involved in learning impairment, it is not known whether inflammatory and oxidative stress markers facilitate GA-induced memory impairment. From this, the main objective of this study was to investigate the performance of rat pups chronically injected with GA and lipopolysaccharide (LPS) in spatial memory test on Barnes maze. To evaluate antioxidant defenses, cytokines levels, Na+, K+-ATPase activity, and hippocampal volume. Furthermore, we also evaluated wheter N-acetylcysteine (NAC) could improve these behavioral, biochemical or structural changes induced by GA and LPS administration. For this, the rat pups were injected with GA (5umol g of body weight-1, subcutaneously; twice per day; from 5th to 28th day of life), and were supplemented with NAC (150 mg/kg/day; intragastric gavage; for the same period). In order to mimic a severe infection state, LPS (2 mg/kg; E.coli 055 B5) or vehicle (saline 0.9%) was injected intraperitoneally, once per day, from 25th to 28th day of life.Oxidative stress biomarkers, antioxidant activity and hippocampal volume were assessed. In this study, GA caused spatial learning deficit in the Barnes maze, and that LPS potentiated the memory impairment induced by GA in rat pups. In addition, GA and LPS increased proinflammatory cytokine levels (TNF- and IL-1), and the co-administration of these compounds potentiated the increase of IL-1 levels but not TNF- levels in the hippocampus of this animals. Although GA and LPS administration increased TBARS (thiobarbituric acid-reactive substance) content, reduced antioxidant defenses and inhibited Na+,K+-ATPase activity (total and subunit α1), GA and LPS co-administration did not have additive effect on oxidative stress markers and Na+, K+ pump. The hippocampal volume did not change after GA or LPS administration. N-acetylcysteine protected against impairment of spatial learning and increase of cytokines levels induced by GA and LPS. The NAC also protected against deleterious effects induced by GA and LPS, as characterized by inhibition of Na+,K+-ATPase activity (total and subunit α1)and increase of TBARS content, as well as the reduction of antioxidant defenses(non protein thiols and glutathione content, superoxide dismutase and catalase activities).These results suggest that inflammatory and oxidative markers may underlie at least in part of the neuropathology of GA-I in this model. Pharmacological protection with NAC during encephalopatic crises could be considered as an adjuvant therapy to prevent hippocampal dysfunction and the progression of disease in children with GA-I. / A acidemia glutrárica do tipo I (AG-I) é um erro inato do metabolismo (EIM) caracterizada bioquimicamente pelo pelo acúmulo de ácido glutárico (AG). As manifestações clínicas são predominantemente neurológicas, e desenvolvem-se principalmente na infância. Entre essas alterações, as quais são precipitadas por processos infecciosos, pode-se citar o déficit cognitivo. Embora estudos recentes sugerem que a inflamação e o estresse oxidativo estão envolvidos no déficit cognitivo, não se sabe se os marcadores inflamatórios e oxidativos facilitam o prejuízo de memória após a administração de AG. A partir disso, o objetivo desta dissertação foi investigar o desempenho de ratos jovens injetados cronicamente com AG e lipopolissacarídeo (LPS) no teste de memória espacial no labirinto de Barnes. Além disso, foi avaliado os níveis das defesas antioxidantes, níveis de citocinas, atividade da enzima Na+, K+-ATPase e volume hipocampal. Como a N-acetilcisteína (NAC) possui propriedades antioxidantes e antiinflamatórias, foi testado se esse composto poderia melhorar as alterações comportamentais, bioquímicas e estruturais induzidas pela administração de AG e LPS. Para isso, os ratos jovens foram injetados com AG (5 μmol/g do peso corporal-1; subcutaneamente; duas vezes por dia; do 5º ao 28º dia de vida), e foram suplementados com NAC (150 mg/kg/dia; por gavagem; pelo mesmo período). A fim de mimetizar um estado infeccioso, LPS (2 mg/Kg: E. coli 055 B5) ou veículo (salina 0.9%) foi injetado intraperitonealmente uma vez por dia, do 25º ao 28º dia de vida. Nesse estudo, AG causou déficit de aprenizagem espacial no labirinto de Barnes, e o LPS potencializou esse prejuízo de memória induzido pelo AG nos ratos jovens. Em adição, a administração de AG e LPS aumentou os níveis de citocinas pró-inflamatórias (TNF- and IL-1), e a associação desses compostos potencializou o aumento dos níveis de IL-1, mas não de TNF-α no hipocampo dos animais. Embora a associação de AG e LPS tenha causado o aumento o conteúdo TBARS (espécies reativas ao ácido tiobarbitúrico), a redução das defesas antioxidantes e inibição da atividade da Na+,K+-ATPase (total e subunidade α1), a associação de AG e LPS não teve efeito aditivo nos marcadores de estresse oxidativo e na atividade da bomba de Na+ e K+. O volume hipocampal não foi alterado após a administração do AG e LPS. A N-acetilcisteína protegeu contra o prejuízo de aprendizagem espacial e aumento de citocinas inflamatórias induzido pelo AG e LPS. A NAC também protegeu contra os efeitos deletérios induzidos pelo AG e LPS, caracterizado pela inibição da atividade da Na+,K+-ATPase (total e subunidade α1) e aumento do conteúdo de TBARS, bem como a redução das defesas antioxidantes (tiós não-proteicos, conteúdo de glutationa, avitidade da superóxido dismutase e catalase). Esses resultados sugerem que marcadores inflamatórios e oxidativos podem estar envolvidos, em parte, na neuropatologia da AG-I neste modelo. Dessa forma, a proteção farmacológica com a NAC durante crises encefalopáticas pode ser considerada como uma terapia adjuvante para prevenir a disfunção hipocampal e a progressão da doença em crianças com AG-I.

AG

LPS

IL-1β

TNF-α

Memória

Hipocampo

Atividade da Na+

K+-ATPase

GA

LPS

IL-1β

TNF-α

Memory

Hippocampus

Na+,K+-ATPase activity

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Studium membránových receptorů pomocí vazby radioligandů / The study of membrane receptors by radioligands binding

Rejhová, Alexandra

January 2011

Drug addiction, opiates respectively, is a social problem which seriousness is currently on the rise. One of key elements causing addiction is tolerance to increasing doses of drug causing abstinence syndrome during withdrawal and craving. Opioid receptors are members of a large group of receptors coupled with heterotrimeric G-proteins (GPCR), whose properties can be investigated using agonist- stimulated binding [35 S] GTPγS. Many extracellular signals are transferred into a cell through GPCR. Opioid receptor agonists inhibit the activity of adenylyl cyclase and are coupled with G-protein group Gi/Go. This work is devoted to the study of changes in isolated plasma membranes of rat forebrain containing opioid receptors of healthy subjects with membranes acquired from morphine addicted subjects. The rats were long-term morphine treated in increasing doses, to develop the dependency. The comparison is done firstly by binding of [3 H]ouabain to Na,K-ATPase, which proves to be a negative standard of changes, secondly by binding [35 S]GTPγS to G-proteins, thereby providing the functional activity of G-protein in stimulating the binding by the agonist of δ-opioid receptors DADLE or agonist of µ-opioid receptors DAMGO. Furthermore, it has been studied the influence of prostaglandin E1 on binding [35...

Butyrate Permeation across the Isolated Ovine Reticulum Epithelium

Rackwitz, Reiko, Dengler, Franziska, Gäbel, Gotthold

13 April 2023

We hypothesized that, due to the high pH of this compartment, the reticulum epithelium displays particular features in the transport of short-chain fatty acids (SCFA). Ovine reticulum epithelium was incubated in Ussing chambers using a bicarbonate-free buffer solution containing butyrate (20 mmol L−1). p-hydroxymercuribenzoic acid (pHMB), 5-(N-Ethyl-N-isopropyl)amiloride (EIPA), or ouabain were added to the buffer solution as inhibitors of monocarboxylate transporters, sodium-proton-exchangers, or the Na+/K+-ATPase, respectively. The short-circuit current (Isc) and transepithelial conductance (Gt) were monitored continuously while the flux rates of 14C-labelled butyrate were measured in the mucosal-to-serosal (Jmsbut) or serosal-to-mucosal direction (Jsmbut). Under control conditions, the mean values of Isc and Gt amounted to 2.54 ± 0.46 µEq cm−2 h−1 and 6.02 ± 3.3 mS cm−2, respectively. Jmsbut was 2.1 ± 1.01 µmol cm−2 h−1 on average and about twice as high as Jsmbut. Incubation with ouabain reduced Jmsbut, while Jsmbut was not affected. The serosal addition of EIPA did not affect Jmsbut but reduced Jsmbut by about 10%. The addition of pHMB to the mucosal or serosal solution reduced Jmsbut but had no effect on Jsmbut. Mucosally applied pHMB provoked a transient increase in the Isc. The serosal pHMB sharply reduced Isc. Our results demonstrate that butyrate can be effectively transported across the reticulum epithelium. The mechanisms involved in this absorption differ from those known from the rumen epithelium.

info:eu-repo/classification/ddc/590

ddc:590

Development of Analytical Methods to Assist with the Purification & Characterization of Novel Endogenous Cardiotonic Steroids Extracted from Sus domesticas Skeletal Muscle

Stiner, Cory A.

24 July 2018

No description available.

Analytical Chemistry

High Performance Liquid Chromatography

Cardiotonic Steroids

Na, K-ATPase

Metal Analysis

Metal Ion Flux

Implication de l'aldostérone dans les changements hémodynamiques de la grossesse

Provencher, Mylène

03 1900

La grossesse s’accompagne d’importantes modifications hormonales et hémodynamiques. Parmi celles-ci, le système rénine-angiotensine-aldostérone (SRAA) est activé très tôt durant la grossesse. De plus, cette augmentation du SRAA est accompagnée d’élévations du débit cardiaque et du volume plasmatique ainsi que des baisses paradoxales de la pression artérielle et de la résistance vasculaire périphérique. Ceci suggère que la grossesse induit un remaniement des réponses physiologiques normales au SRAA. Une résistance vasculaire à l’action des vasopresseurs est également observée durant la gestation. Ce phénomène serait causé par la modification de la fonction des canaux calciques et potassiques. De plus, il serait possiblement dû à la participation de la Na+/K+-ATPase, par son influence sur le potentiel membranaire des cellules des muscles lisses vasculaires (VSMC). La présence des récepteurs minéralocorticoïdes (MR) dans les VSMC laisse croire que l’aldostérone peut influencer le tonus vasculaire par des effets génomiques et non-génomiques. Compte tenu des connaissances actuelles, nous avons émis l’hypothèse que l’augmentation des taux sériques d’aldostérone durant la grossesse est responsable des changements hémodynamiques observés et que ces effets sont causés par l’activation des MR. Des rates gestantes ont été traitées avec du canrénoate de potassium (20 mg/kg•jr), un antagoniste des MR, durant la dernière semaine de gestation (sur 3). Sur des anneaux aortiques dénudés de leur endothélium, nous avons mesuré les réponses contractiles à la phényléphrine (PhE) et au KCl en présence d’un bloqueur des canaux calciques dépendants du voltage (VDCC), la nifédipine, et d’activateurs des canaux potassiques à large conductance (BKCa) et ceux dépendants de l’ATP (KATP), respectivement le NS-1619 et la cromakalim. Les réponses à la PhE et au KCl sont réduites à partir du 17e jour de gestation et le traitement au canrénoate augmente ces réponses dans tous les groupes. Les modulateurs de canaux ioniques atténuent les réponses à la PhE et au KCl. Cependant, le canrénoate modifie aussi les effets des modulateurs sur les aortes. Aucun effet ou une baisse des réponses est observable chez les rates non gestantes, tandis qu’une hausse de leur effet inhibiteur est notée chez les rates gestantes. Ces effets du canrénoate font croire que l’aldostérone participe à l’adaptation de la réactivité vasculaire durant la grossesse. Par ailleurs, le potentiel membranaire des VSMC pourrait être affecté dans la gestation. Pour vérifier cette hypothèse, nous avons évalué l’activité de la Na+/K+-ATPase, impliquée dans le contrôle du potentiel membranaire. Nos résultats démontrent que l’activité de la pompe est inhibée à partir du 19e jour de gestation. Cet effet est renversé par le canrénoate. Toutefois, comme le renversement de l’inhibition de la pompe est également présent chez les rates gestantes traitées avec du PST 2238, un antagoniste de l’ouabaïne sur la Na+/K+-ATPase, et que le canrénoate agit également comme agoniste partiel de la pompe, nous croyons que la diminution d’activité associée à la gestation est liée à une inhibition de la Na+/K+-ATPase par des stéroïdes cardiotoniques plutôt qu’à un effet des minéralocorticoïdes. L’augmention d’activité de la pompe liée au canrénoate s’accompagne d’une diminution de l’expression de la sous-unité α1, suggérant que la sous-unité α2 est responsable des variations de contractilité de l’aorte, puisque son expression n’est pas modifiée par le canrénoate. Les effets de la diminution de l’expression de la sous-unité α1, influencée par la signalisation du MR, restent à être déterminés. Néanmoins, nos résultats montrent que les modifications d’activité de la Na+/K+-ATPase influencent l’activité des canaux potassiques et que la pompe pourraient être un des éléments primordiaux dans le contrôle de la réactivité vasculaire durant la grossesse. Comme le canrénoate modifie la réactivité vasculaire, nous voulions déterminer ses impacts sur la pression artérielle. Des rates gestantes ont été traitées avec du canrénoate (20 ou 60 mg/kg•jr) et les paramètres hémodynamiques ont été évalués par radiotélémétrie. Aucune modification de la pression artérielle, du rythme cardiaque et de la pression pulsée ne sont mesurées chez les rates recevant le traitement. Toutefois, des augmentations de l’osmolalité, des taux sériques d’aldostérone et de corticostérone ainsi que de l’activité rénine plasmatique sont observées chez les animaux recevant 60 mg/kg•jr. Le canrénoate bloque donc le rétrocontrôle du SRAA. Par contre, les MR ne sont pas les principaux responsables du contrôle de la pression artérielle durant la grossesse. En conclusion, nous avons démontré que le traitement des rates au canrénoate influence la réactivité vasculaire de l’aorte durant la gestation. Cet effet est causé par la modification de l’activité de certains canaux ioniques (VDCC, BKCa et KATP). De plus, le canrénoate renverse l’inhibition de la Na+/K+-ATPase observée durant la gestation. Finalement, les actions locales de cet antagoniste des MR sur les vaisseaux sanguins ne se répercutent pas sur l’effet systémique global et aucune modification de la pression artérielle n’est observée. D’autres études seront toutefois nécessaires pour déterminer les voies de signalisation par lesquelles l’aldostérone module les réponses des canaux ioniques dans les VSMC. / Pregnancy is accompanied by important hormonal and hemodynamic modifications. Among them, the renin-angiotensin-aldosterone system (RAAS) is activated early during pregnancy. Furthermore, this increase of RAAS is accompanied by raises of cardiac output and blood volume as well as paradoxal decreases in blood pressure and peripheral vascular resistance. These suggest that pregnancy induces reorganization of the normal physiological responses to RAAS. In addition, a decreased vascular reactivity to vasoconstrictive agents is observed during pregnancy. Modifications of calcium and potassium channels function would be implicated in this phenomenon. Furthermore, an implication of the Na+/K+-ATPase is suspected, through its influence on the membrane potential of vascular smooth muscle cells (VSMC). Aldosterone, through the presence of mineralocorticoid receptors (MR) in VSMC, could control vascular tone by its genomic and non-genomic effects. With our knowledge at this time, we submit the hypothesis that the increased serum aldosterone levels of pregnancy are responsible for the hemodynamic changes associated with pregnancy and that these effects are caused by the activation of MR. Pregnant rats were treated with potassium canrenoate (20 mg/kg•d), a MR antagonist, during the last week of pregnancy (out of 3 weeks). Vascular reactivity of endothelium-denuded aortic rings was measured. Contractile responses to phenylephrine (PhE) and KCl were studied in the presence of a voltage-dependent calcium channel (VDCC) blocker, nifedipine, as well as calcium-actived (BKCa) and ATP-dependent (KATP) potassium channels activators, NS-1619 and cromakalim respectively. Vascular responses to PhE and KCl were reduced as of the 17th day of gestation. Canrenoate increased the responses to both agonists in the aortas of all the groups. Ionic channel modulators reduced the contractile responses to PhE and KCl. However, canrenoate also modified the responses to the modulators. In the aortas of non pregnant rats, no effect or a decrease of their inhibitory effect were observed while with the pregnant rats we noticed an increased effect. These results suggest that aldosterone could be implicated in the adaptation of vascular responses to pregnancy. On the other hand, VSMC membrane potential could be affected during pregnancy. To verify this hypothesis, Na+/K+-ATPase activity was evaluated since it is implicated in its control. Our results demonstrated that the pump is inhibited as of the 19th day of pregnancy. This effect was reversed by canrenoate. However, since the reversal of the inhibition of the pump was also present in pregnant rats treated with PST 2238, an ouabain antagonist on the Na+/K+-ATPase, and because canrenoate can also act as a partial agonist of the pump, we believe that the decreased activity associated with pregnancy is linked to the inhibition of the Na+/K+-ATPase by cardiotonic steroids rather than the effect of mineralocorticoids. The increased activity of the pump by canrenoate is linked with a decreased of the α1 subunit expression. This suggests that the α2 subunit of the pump would be responsible for the variations of aortic contractility since its expression is not modified by canrénoate. The effects of the diminished expression of the α1 subunit, influenced by the MR signalization, still need to be determined. Nevertheless, our results showed that modifications of Na+/K+-ATPase activity had an impact on the activity of potassium channels and that the pump could be one of the principal elements implicated in the control of vascular reactivity during pregnancy. Since canrenoate modified vascular reactivity, we wanted to determine its impact on blood pressure. Pregnant rats were treated with canrenoate (20 or 60 mg/kg•d) and hemodynamic functions were determined by radiotelemetry. No modification was observed in blood pressure, cardiac output and pulse pressure among the treated rats. However, increases in osmolality, aldosterone and corticosterone levels as well as plasma renin activity were observed in the animal receiving the 60 mg/kg•d canrénoate. Thus, canrenoate blocks the negative feedback of the RAAS. However, MR are not the principal element responsible for the control of blood pressure during pregnancy. In conclusion, we have demonstrated that canrenoate affects aortic vascular reactivity during pregnancy. This effect is perpetuated by modifying the activity of certain ionic channels (VDCC, BKCa and KATP). Furthermore, canrenoate is able to reverse the inhibition of the Na+/K+-ATPase observed during pregnancy. Finally, the local actions of this MR antagonist on blood vessels are not reflected by the global systemic effect and no modification of the blood pressure was observed. Other studies will be necessary to determine the signaling pathways by which aldosterone modulate ionic channel responses in VSMC.

Grossesse

Récepteurs de minéralocorticoïdes

Réactivité vasculaire

Pression artérielle

Aorte

Canaux calciques

Canaux potassiques

Na+/K+-ATPase

Pregnancy

Renin-angiotensin-aldosterone system

Mineralocorticoid receptors

Vascular reactivity

Blood pressure

Aorta

Calcium channels

Potassium channels

Na+/K+-ATPase

Implication de l'aldostérone dans les changements hémodynamiques de la grossesse

Provencher, Mylène

03 1900

La grossesse s’accompagne d’importantes modifications hormonales et hémodynamiques. Parmi celles-ci, le système rénine-angiotensine-aldostérone (SRAA) est activé très tôt durant la grossesse. De plus, cette augmentation du SRAA est accompagnée d’élévations du débit cardiaque et du volume plasmatique ainsi que des baisses paradoxales de la pression artérielle et de la résistance vasculaire périphérique. Ceci suggère que la grossesse induit un remaniement des réponses physiologiques normales au SRAA. Une résistance vasculaire à l’action des vasopresseurs est également observée durant la gestation. Ce phénomène serait causé par la modification de la fonction des canaux calciques et potassiques. De plus, il serait possiblement dû à la participation de la Na+/K+-ATPase, par son influence sur le potentiel membranaire des cellules des muscles lisses vasculaires (VSMC). La présence des récepteurs minéralocorticoïdes (MR) dans les VSMC laisse croire que l’aldostérone peut influencer le tonus vasculaire par des effets génomiques et non-génomiques. Compte tenu des connaissances actuelles, nous avons émis l’hypothèse que l’augmentation des taux sériques d’aldostérone durant la grossesse est responsable des changements hémodynamiques observés et que ces effets sont causés par l’activation des MR. Des rates gestantes ont été traitées avec du canrénoate de potassium (20 mg/kg•jr), un antagoniste des MR, durant la dernière semaine de gestation (sur 3). Sur des anneaux aortiques dénudés de leur endothélium, nous avons mesuré les réponses contractiles à la phényléphrine (PhE) et au KCl en présence d’un bloqueur des canaux calciques dépendants du voltage (VDCC), la nifédipine, et d’activateurs des canaux potassiques à large conductance (BKCa) et ceux dépendants de l’ATP (KATP), respectivement le NS-1619 et la cromakalim. Les réponses à la PhE et au KCl sont réduites à partir du 17e jour de gestation et le traitement au canrénoate augmente ces réponses dans tous les groupes. Les modulateurs de canaux ioniques atténuent les réponses à la PhE et au KCl. Cependant, le canrénoate modifie aussi les effets des modulateurs sur les aortes. Aucun effet ou une baisse des réponses est observable chez les rates non gestantes, tandis qu’une hausse de leur effet inhibiteur est notée chez les rates gestantes. Ces effets du canrénoate font croire que l’aldostérone participe à l’adaptation de la réactivité vasculaire durant la grossesse. Par ailleurs, le potentiel membranaire des VSMC pourrait être affecté dans la gestation. Pour vérifier cette hypothèse, nous avons évalué l’activité de la Na+/K+-ATPase, impliquée dans le contrôle du potentiel membranaire. Nos résultats démontrent que l’activité de la pompe est inhibée à partir du 19e jour de gestation. Cet effet est renversé par le canrénoate. Toutefois, comme le renversement de l’inhibition de la pompe est également présent chez les rates gestantes traitées avec du PST 2238, un antagoniste de l’ouabaïne sur la Na+/K+-ATPase, et que le canrénoate agit également comme agoniste partiel de la pompe, nous croyons que la diminution d’activité associée à la gestation est liée à une inhibition de la Na+/K+-ATPase par des stéroïdes cardiotoniques plutôt qu’à un effet des minéralocorticoïdes. L’augmention d’activité de la pompe liée au canrénoate s’accompagne d’une diminution de l’expression de la sous-unité α1, suggérant que la sous-unité α2 est responsable des variations de contractilité de l’aorte, puisque son expression n’est pas modifiée par le canrénoate. Les effets de la diminution de l’expression de la sous-unité α1, influencée par la signalisation du MR, restent à être déterminés. Néanmoins, nos résultats montrent que les modifications d’activité de la Na+/K+-ATPase influencent l’activité des canaux potassiques et que la pompe pourraient être un des éléments primordiaux dans le contrôle de la réactivité vasculaire durant la grossesse. Comme le canrénoate modifie la réactivité vasculaire, nous voulions déterminer ses impacts sur la pression artérielle. Des rates gestantes ont été traitées avec du canrénoate (20 ou 60 mg/kg•jr) et les paramètres hémodynamiques ont été évalués par radiotélémétrie. Aucune modification de la pression artérielle, du rythme cardiaque et de la pression pulsée ne sont mesurées chez les rates recevant le traitement. Toutefois, des augmentations de l’osmolalité, des taux sériques d’aldostérone et de corticostérone ainsi que de l’activité rénine plasmatique sont observées chez les animaux recevant 60 mg/kg•jr. Le canrénoate bloque donc le rétrocontrôle du SRAA. Par contre, les MR ne sont pas les principaux responsables du contrôle de la pression artérielle durant la grossesse. En conclusion, nous avons démontré que le traitement des rates au canrénoate influence la réactivité vasculaire de l’aorte durant la gestation. Cet effet est causé par la modification de l’activité de certains canaux ioniques (VDCC, BKCa et KATP). De plus, le canrénoate renverse l’inhibition de la Na+/K+-ATPase observée durant la gestation. Finalement, les actions locales de cet antagoniste des MR sur les vaisseaux sanguins ne se répercutent pas sur l’effet systémique global et aucune modification de la pression artérielle n’est observée. D’autres études seront toutefois nécessaires pour déterminer les voies de signalisation par lesquelles l’aldostérone module les réponses des canaux ioniques dans les VSMC. / Pregnancy is accompanied by important hormonal and hemodynamic modifications. Among them, the renin-angiotensin-aldosterone system (RAAS) is activated early during pregnancy. Furthermore, this increase of RAAS is accompanied by raises of cardiac output and blood volume as well as paradoxal decreases in blood pressure and peripheral vascular resistance. These suggest that pregnancy induces reorganization of the normal physiological responses to RAAS. In addition, a decreased vascular reactivity to vasoconstrictive agents is observed during pregnancy. Modifications of calcium and potassium channels function would be implicated in this phenomenon. Furthermore, an implication of the Na+/K+-ATPase is suspected, through its influence on the membrane potential of vascular smooth muscle cells (VSMC). Aldosterone, through the presence of mineralocorticoid receptors (MR) in VSMC, could control vascular tone by its genomic and non-genomic effects. With our knowledge at this time, we submit the hypothesis that the increased serum aldosterone levels of pregnancy are responsible for the hemodynamic changes associated with pregnancy and that these effects are caused by the activation of MR. Pregnant rats were treated with potassium canrenoate (20 mg/kg•d), a MR antagonist, during the last week of pregnancy (out of 3 weeks). Vascular reactivity of endothelium-denuded aortic rings was measured. Contractile responses to phenylephrine (PhE) and KCl were studied in the presence of a voltage-dependent calcium channel (VDCC) blocker, nifedipine, as well as calcium-actived (BKCa) and ATP-dependent (KATP) potassium channels activators, NS-1619 and cromakalim respectively. Vascular responses to PhE and KCl were reduced as of the 17th day of gestation. Canrenoate increased the responses to both agonists in the aortas of all the groups. Ionic channel modulators reduced the contractile responses to PhE and KCl. However, canrenoate also modified the responses to the modulators. In the aortas of non pregnant rats, no effect or a decrease of their inhibitory effect were observed while with the pregnant rats we noticed an increased effect. These results suggest that aldosterone could be implicated in the adaptation of vascular responses to pregnancy. On the other hand, VSMC membrane potential could be affected during pregnancy. To verify this hypothesis, Na+/K+-ATPase activity was evaluated since it is implicated in its control. Our results demonstrated that the pump is inhibited as of the 19th day of pregnancy. This effect was reversed by canrenoate. However, since the reversal of the inhibition of the pump was also present in pregnant rats treated with PST 2238, an ouabain antagonist on the Na+/K+-ATPase, and because canrenoate can also act as a partial agonist of the pump, we believe that the decreased activity associated with pregnancy is linked to the inhibition of the Na+/K+-ATPase by cardiotonic steroids rather than the effect of mineralocorticoids. The increased activity of the pump by canrenoate is linked with a decreased of the α1 subunit expression. This suggests that the α2 subunit of the pump would be responsible for the variations of aortic contractility since its expression is not modified by canrénoate. The effects of the diminished expression of the α1 subunit, influenced by the MR signalization, still need to be determined. Nevertheless, our results showed that modifications of Na+/K+-ATPase activity had an impact on the activity of potassium channels and that the pump could be one of the principal elements implicated in the control of vascular reactivity during pregnancy. Since canrenoate modified vascular reactivity, we wanted to determine its impact on blood pressure. Pregnant rats were treated with canrenoate (20 or 60 mg/kg•d) and hemodynamic functions were determined by radiotelemetry. No modification was observed in blood pressure, cardiac output and pulse pressure among the treated rats. However, increases in osmolality, aldosterone and corticosterone levels as well as plasma renin activity were observed in the animal receiving the 60 mg/kg•d canrénoate. Thus, canrenoate blocks the negative feedback of the RAAS. However, MR are not the principal element responsible for the control of blood pressure during pregnancy. In conclusion, we have demonstrated that canrenoate affects aortic vascular reactivity during pregnancy. This effect is perpetuated by modifying the activity of certain ionic channels (VDCC, BKCa and KATP). Furthermore, canrenoate is able to reverse the inhibition of the Na+/K+-ATPase observed during pregnancy. Finally, the local actions of this MR antagonist on blood vessels are not reflected by the global systemic effect and no modification of the blood pressure was observed. Other studies will be necessary to determine the signaling pathways by which aldosterone modulate ionic channel responses in VSMC.

Grossesse

Récepteurs de minéralocorticoïdes

Réactivité vasculaire

Pression artérielle

Aorte

Canaux calciques

Canaux potassiques

Na+/K+-ATPase

Pregnancy

Renin-angiotensin-aldosterone system

Mineralocorticoid receptors

Vascular reactivity

Blood pressure

Aorta

Calcium channels

Potassium channels

Na+/K+-ATPase

Efeito do monossialogangliosídeo gm1 sobre as alterações comportamentais, euroquímicas e eletrográficas induzidas pelo ácido glutárico e nas defesas antioxidantes no SNC de ratos / Effect of monosialoganglioside gm1 on glutaric acid-induced behavioral, neurochemical and electrographic alterations and cns antioxidant defenses of rats

Fighera, Michele Rechia

12 May 2006

Monosialoganglioside (GM1) is a component of most cell membranes and is thought to play a role in development, recognition and cellular differentiation. Furthermore, GM1 is a neuroprotective agent that has been reported to scavenge free radicals generated during reperfusion and to protect receptors and enzymes from oxidative damage. In the present study we investigate the effect of GM1 on the catalase (CAT), superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) activities, on the spontaneous chemiluminescence and total radical-trapping potential (TRAP) in cortex of rats ex vivo and in vitro. Systemic GM1 administration (50 mg/kg, i.p.; twice) reduced spontaneous chemiluminescence and increased CAT activity ex vivo. On the other hand, GM1 (103-104 nM) reduced CAT activity in vitro. The other parameters were not affected by GM1 administration. These findings agree with the view that the antioxidant action of GM1 is not due to an intrinsic antioxidant activity of this glycolipid, but due to a secondary decrease of reactive species generation and/or increase of antioxidant defenses. Moreover, we evaluated whether GM1 could have a neuroprotective action on the experimental model of glutaric acidemia, an inherited metabolic disorder characterized by glutaric acid (GA) accumulation and neurological dysfunction, as striatal degeneration and convulsion. The systemic GM1 administration (50 mg/kg, i.p. twice) protected against the convulsions, oxidative damage markers increase (total protein carbonylation and thiobarbituric acid-reactive substances - TBARS) production and Na+,K+-ATPase activity inhibition induced by GA (4 mol/ 2 l) in striatum of rats. Furthermore, convulsive episodes induced by GA strongly correlated with Na+,K+-ATPase activity inhibition in the injected striatum, but not with oxidative stress marker measures. In addition, GM1 (50-200 M) protected against Na+,K+-ATPase inhibition induced by GA (6 mM), but not against oxidative damage in vitro. Intrastriatal administration of muscimol (46 pmol/striatum), a GABAA receptor agonist, but not glutamatergic receptor antagonists MK-801 (3 nmol/striatum) and DNQX (8 nmol/striatum), prevented GA-induced convulsions and inhibition of Na+,K+-ATPase activity. The protection of GM1 and muscimol against GA-induced seizures strongly correlated with Na+,K+-ATPase activity maintenance in the injected striatum with GA. Since GM1 and muscimol prevented neurotoxic effects induced by GA, we investigated the GM1 action after intrastriatal administration of pentylenetetrazole (PTZ), a GABAA receptor antagonist. GM1 treatment prevented seizures, Na+,K+-ATPase inhibition, and increase of TBARS and protein carbonyl induced by PTZ (1.8 mol/striatum) in the rats striatum. Furthermore, these data suggest that Na+,K+-ATPase and GABAA receptor-mediated mechanisms may play important roles in GA-induced seizures and in their prevention by GM1. / O monossialogangliosídeo (GM1) é um componente natural de membrana plasmática que está envolvido no crescimento, reconhecimento e diferenciação celular, além de proteger o SNC da ação dos radicais livres. No presente estudo investigou-se o efeito do GM1 sobre a atividade das enzimas antioxidantes catalase (CAT), superóxido dismutase (SOD) e glutationa peroxidase (GPx), assim como na quimiluminescência e capacidade antioxidante total (TRAP) em córtex cerebral de ratos machos adultos ex vivo e in vitro. A administração sistêmica de GM1 (50 mg/kg, i.p.; duas doses: 24 horas e 30 minutos antes do sacrifício) reduziu a quimiluminescência e aumentou significativamente a atividade da CAT ex vivo. A adição de GM1 (103-104 nM) ao meio de incubação diminuiu a atividade da CAT in vitro. Estes resultados sugerem que o efeito neuroprotetor do GM1 não é devido à ação antioxidante intrínseca deste glicoesfingolipídeo, mas devido ao aumento secundário das defesas antioxidantes e/ou uma redução da geração de radicais livres. Além disso, avaliamos se o GM1 tinha efeito neuroprotetor em um modelo experimental da acidemia glutárica, um erro inato do metabolismo caracterizado pelo acúmulo tecidual de ácido glutárico (GA) e alterações neurológicas, como degeneração estriatal e convulsões. A administração de GM1 preveniu as convulsões, o aumento da produção dos marcadores do dano oxidativo (carbonilação protéica total e substâncias reativas do ácido tiobarbitúrico - TBARS) e a inibição da atividade da Na+,K+-ATPase induzidas pelo GA (4 mol/2 µl) em estriado de ratos. Além disso, os episódios convulsivos induzidos por GA apresentaram uma correlação significativa com a inibição da atividade da Na+,K+-ATPase no estriado injetado, mas não com os níveis dos marcadores do estresse oxidativo. A adição de GM1 (50 200  ao meio de incubação preveniu a inibição da Na+,K+-ATPase, mas não reduziu o dano oxidativo induzido por GA (6 mM) in vitro. A administração intraestriatal de muscimol (46 pmol/0,5 l), um agonista de receptor GABAA, mas não dos antagonistas de receptores glutamatérgicos, MK-801 (3 nmol/0,5 l) e DNQX (8 nmol/0,5 l), preveniu as convulsões e a inibição da atividade da Na+,K+-ATPase induzidas por GA. A proteção do GM1 e muscimol contra as convulsões induzidas por GA apresentou uma correlação significativa com a manutenção da atividade da Na+,K+-ATPase no estriado injetado com GA. Desde que o GM1 e o muscimol preveniram os efeitos neurotóxicos induzidos pelo GA, investigou-se a ação do GM1 após a administração intraestriatal de pentilenotetrazol (PTZ), um antagonista de receptores GABAA. O tratamento com GM1 preveniu as convulsões, o dano oxidativo e a inibição da atividade da Na+,K+-ATPase induzidas por PTZ (1,8 µmol/2 µl). Esses dados sugerem que a atividade da Na+,K+-ATPase e mecanismos mediados pela ativação de receptores GABAérgicos podem ser de grande importância para a atividade convulsiva induzida por GA, bem como nos mecanismos de neuroproteção induzidos pelo GM1.

Monossialogangliosídeo

Radicais livres

Defesas antioxidantes

Ácido glutárico

TBARS

Carbonilação protéica

Na+,K+-ATPase, convulsões

MK-801

Muscimol

DNQX

Pentilenotetrazol

Monosialoganglioside

Free radicals

Antioxidant defenses

Glutaric acid

TBARS

Protein carbonylation

Na+,K+-ATPase

Seizures

MK-801

Muscimol

DNQX

Pentilenotetrazole.

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Vliv ethinylestradiolu na Na+, K+ - ATPázu / The effect of ethinylestradiol on Na+, K+ - ATPase

Kettnerová, Karolína

January 2014

This diploma thesis is oriented to analysis of physiological effect of synthetic estrogen ethinylestradiol (EE), which represents the main component of steroid-based substance used in hormonal contraception. From wide range of physiologically important protein molecules, which might be effected by this steroid, thesis focuses to the study of the sodium plus potassium activated, magnesium dependent adenosinetriphosphatase (Na+, K+ - ATPase), which is selectively inhibited by cardiac glycosides such as ouabain (g strophantine). Na+, K+ - ATPase represents an important plasma membrane bound enzyme, which catalyzes the active transport of sodium and potassium across plasma membrane. In the first part of this work, Na+, K+ - ATPase was determined by binding of radioactively labeled selective inhibitor of this enzyme [3H]ouabain, used for this purpose. In the second part of this work, plasma membrane fluidity was analyzed by steady-state fluorescence anisotropy of DPH. The effect of EE on [3H]ouabain binding was studied first under in vitro conditions by using human embryonic kidney cells (HEK293) which were cultivated for 24 hours in the presence of EE in tissue culture medium. Second, the effect of EE was also studied under in vivo conditions, by subcutaneous application of EE to the female rats of Wistar...

Stabilization of Hypoxia Inducible Factor by Cobalt Chloride Can Alter Renal Transepithelial Transport

Nag, Subhra Sankar

20 September 2018

No description available.

Biophysics

Biomedical Research

Biology

Cellular Biology

Kidney Cyst

PKD

Renal Transepithelial Transport

Active Na Transport

Passive Transport

Electrophysiology

TER

Equivalent Current

CoCl2

Hypoxia

HIF

Epithelial Tight Junction

FITC-dextran Permeability

ZO1

Na-K-ATPase

ENaC

Non-canonical amino acid incorporation as a strategy for labeling membrane bound Na+/K+-ATPase for fluorescence microscopy imaging

Johansson Holopainen, Adam

January 2023

Natrium-kaliumpumpen spelar en väsentlig roll i en rad fysiologiska funktioner då den upprätthåller den elektrokemiska gradienten över cellmembranet. Ytterligare så är störningar i dess funktion associerade med flera neurologiska sjukdomar. Proteinet är en heterodimer av α– och β–subenheter, ibland även associerat med en tredje γ (FXYD) subenhet, vilket gör det problematiskt att studera dess högre ordningens organisation i cellmembranet med hjälp av konventionella, relativt storskaliga inmärkiningsprober såsom antikroppar. Inkorporering av icke-kanoniska aminosyror är ett nyutvecklat och växande område som erbjuder en lösning. Genom CuAAC– och SPIEDAC–klickkonjugationsreaktioner kan organiska färgämnen (fluoroforer) snabbt och specifikt fästas i sidokedjor med motsvarande reaktiva grupper på jonpumpen, vilket skapar en liten och icke-invasiv inmärkningsprob för fluorescensmikroskopi. För att specifikt studera alla tre subenheter samtidigt krävs inmärkning med tre olika fluoroforer). Syftet med detta projekt var att lyckas med trefärgsinmärkning genom inkorporering av icke-kanoniska aminosyror, och därigenom underlätta studerandet av hur natrium-kaliumpumpens subenheter ordnar sig i cellmembranet. Transient transfekterade HEK293T-celler med membraninmärkta jonpumpar studerades med hjälp av fluorescensmikroskopi, vilket kompletterades med gelfluorescensavbildning och immunoblotting. Samtidigt gjordes proteinuttryck och tvåfärgsinmärkning av alla nonsenskodonmuterade subenheter i kombination med varandra och var synlig i proteingel, där endast α och β tidigare hade samuttryckts. α/γ parinmärkning visade sig framgångsrik när de samtransfekterades med β av vildtyp. En autofluorescenseffekt i en av färgkanalerna påverkade resultaten för mikroskopin. Trefärgsinmärkning observerades inte i gelen, och uttrycket av subenheterna (varav α var ersatt för detta experiment) var i stort sett obefintligt. Otydlighet består därmed huruvida trefärgsinmärkning eller trippelsamuttryck är möjligt med de bioortogonala translationssystemen som användes i detta projekt på jonpumpen. / Na+/K+-ATPase is an essential ion pump protein in a host of physiological functions as it maintains the electrochemical gradient across cell membranes. Additionally, its dysfunction is implicated in several neurological diseases. The protein is a heterodimer of α and β subunits, occasionally associated with a third γ (FXYD) subunit, which makes studying its higher order organization in the cell membrane difficult using conventional, relatively large scale labeling probes such as antibodies. Non-canonical amino acid incorporation is an emerging field which offers a solution. Via CuAAC and SPIEDAC click conjugation reactions, organic fluorophores can be specifically attached to the side chains of residues of the ion pump with corresponding reactive moieties, creating a small and noninvasive probe for fluorescence microscopy imaging. In order to specifically image all three subunits concurrently, three color labeling is required. The objective of this project was to achieve three color labeling via non-canonical amino acid incorporation to aid in the study of the cell membrane localization of the subunits of Na+/K+-ATPase. Fluorescence microscopy of transiently transfected and live cell labeled HEK293T cells was complemented by in gel fluorescence imaging and immunoblotting. Coexpression and two color labeling of all nonsense codon subunit mutants in combination was shown in gel, of which only α and β had previously been coexpressed. α/γ dual labeling proved successful when cotransfected with wild type β. An autofluorescent effect in one of the color channels compromised the microscopy results. Three color labeling was not observed in gel, and expression of the subunits (including a substitute for α) was middling to absent. It remains unclear whether three color labeling or triple coexpression is a possibility with the bioorthogonal translation systems used in this project.

ncAAs

fluorescence microscopy

amber suppression

nonsense suppression

Na+/K+-ATPase

protein labeling

click chemistry

genetic code expansion

onaturliga aminosyror

fluorescensmikroskopi

Na+/K+-ATPas

proteinmärkning

klickkemi

genetisk kodexpansion

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi