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Modulação da diferenciação neural de células tronco embrionárias por transientes de cálcio intracelulares: papéis dos receptores purinérgicos e de canais de cálcio voltagem-dependentes / Modulation of neural embryonic stem cell differentiation by intracellular Ca2+ oscillations. Roles of purinergic receptors and voltage gated Ca2+ channelsGlaser, Talita 24 November 2015 (has links)
Receptores purinérgicos e canais de cálcio voltagem-dependentes estão envolvidos em diversos processos biológicos como na gastrulação, durante o desenvolvimento embrionário, e na diferenciação neural. Quando ativados, canais de cálcio voltagem-dependentes e receptores purinérgicos do tipo P2, ativados por nucleotídeos, desencadeiam transientes de cálcio intracelulares controlando diversos processos biológicos. Neste trabalho, nós estudamos a participação de canais de cálcio voltagem-dependentes e receptores do tipo P2 na geração de transientes de cálcio espontâneos e sua regulação na expressão de fatores de transcrição relacionados com a neurogênese utilizando como modelo células tronco (CTE) induzidas à diferenciação em células tronco neurais (NSC) com ácido retinóico. Descrevemos que CTE indiferenciadas podem ter a proliferação acelerada pela ativação de receptores P2X7, enquanto que a expressão e a atividade desse receptor precisam ser inibidas para o progresso da diferenciação em neuroblasto. Além disso, ao longo da diferenciação neural, por análise em tempo real dos níveis de cálcio intracelular livre identificamos 3 padrões de oscilações espontâneas de cálcio (onda, pico e unique), e mostramos que ondas e picos tiveram a frequência e amplitude aumentadas conforme o andamento da diferenciação. Células tratadas com o inibidor do receptor de inositol 1,4,5-trifosfato (IP3R), Xestospongin C, apresentaram picos mas não ondas, indicando que ondas dependem exclusivamente de cálcio oriundo do retículo endoplasmático pela ativação de IP3R. NSC de telencéfalo de embrião de camundongos transgênicos ou pré-diferenciadas de CTE tratadas com Bz-ATP, o agonista do receptor P2X7, e com 2SUTP, agonista de P2Y2 e P2Y4, aumentaram a frequência e a amplitude das oscilações espontâneas de cálcio do tipo pico. Dados, obtidos por microscopia de luminescência, da expressão em tempo real de gene repórter luciferase fusionado à Mash1 e Ngn2 revelou que a ativação dos receptores P2Y2/P2Y4 aumentou a expressão estável de Mash1 enquanto que ativação do receptor P2X7 levou ao aumento de Ngn2. Além disso, células na presença do quelante de cálcio extracelular (EGTA) ou do depletor dos estoques intracelulares de cálcio do retículo endoplasmático (thapsigargin) apresentaram redução na expressão de Mash1 e Ngn2, indicando que ambos são regulados pela sinalização de cálcio. A investigação dos canais de cálcio voltagem-dependentes demonstrou que o influxo de cálcio gerado por despolarização da membrana de NSC diferenciadas de CTE é decorrente da ativação de canais de cálcio voltagem-dependentes do tipo L. Além disso, esse influxo pode controlar o destino celular por estabilizar expressão de Mash1 e induzir a diferenciação neuronal por fosforilação e translocação do fator de transcrição CREB. Esses dados sugerem que os receptores P2X7, P2Y2, P2Y4 e canais de cálcio voltagem-dependentes do tipo L podem modular as oscilações espontâneas de cálcio durante a diferenciação neural e consequentemente alteram o padrão de expressão de Mash1 e Ngn2 favorecendo a decisão do destino celular neuronal. / Purinergic receptors and voltage gated Ca2+ channels have been attributed with developmental functions including gastrulation and neural differentiation. Upon activation, nucleotide-activated P2 purinergic receptor and voltage-gated Ca2+ channel subtypes trigger intracellular calcium transients controlling cellular processes. Here, we studied the participation of voltage-gated calcium channels and P2 receptor activity in spontaneous calcium transients and consequent regulation expression of transcription factors related to retinoic acid-induced neurogenesis of mouse neural stem and embryonic stem cells (ESC). In embryonic pluripotent stem cells, proliferation is accelerated by P2X7 receptor activation, while receptor expression / activity needs to be down-regulated for the progress of neuroblast differentiation. Moreover, along neural differentiation time lapse imaging with means of a cytosolic calcium-sensitive fluorescent probe provided different patterns of spontaneous calcium transients (waves and spikes) showing that both, frequency and amplitude increased along differentiation. Cells treated with the inositol 1,4,5-trisphosphate receptor (IP3R) inhibitor Xestospongin C showed spikes but not waves, indicating that waves exclusively depended on calcium release from endoplasmic reticulum by IP3R activation. Cells treated with the P2X7 receptor subtype agonist Bz-ATP and the P2Y2 and P2Y4 receptor 2-S-UTP increased frequency and amplitudes of calcium transients, mainly spikes, in embryonic telencephalon neural stem cells (NSC) and NSC pre-differentiated from ESC. Data obtained by luminescence time lapse imaging of stable transfected cells with Mash1 or Ngn2 promoter-protein fusion to luciferase reporter construct revealed increased Mash1 expression due to activation of P2Y2/P2Y4 receptor subtypes, while increased expression of Ngn2 was observed following P2X7 receptor activation. In addition, cells imaged in presence of the extracellular calcium chelator EGTA or following endoplasmic reticulum calcium store depletion by thapsigargin showed a decrease in Mash1 and Ngn2 expression, indicating that both are regulated by calcium signaling. Investigation of the roles of voltage gated Ca2+ channels in neural differentiation showed that Ca2+ influx in NSC pre-differentiated from ESC is due to membrane depolarization and L-type voltage gated Ca2+ channel activation, thereby controlling cell fate decision, by stabilizing the expression of MASH1 and inducing differentiation, by phosphorylation of the transcription factor CREB. Altogether these data suggest that P2X7, P2Y2, P2Y4 receptors and L-type voltage gated Ca2+ channels can modulate spontaneous calcium oscillations during neural differentiation and consequently change the Mash1 and Ngn2 expression patterns, thus favoring the cell fate decision to the neuronal phenotype.
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Pharmakogenetik des Zytostatikums Melphalan: Charakterisierung des Membrantransportes / Pharmacogenetics of the cytostatic drug melphalan:Characterization of the membrane transportKühne, Annett 28 April 2008 (has links)
No description available.
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Evaluation of polycyclic amines as modulators of calcium homeostasis in models of neurodegeneration / Young L.Young, Lois-May January 2012 (has links)
Compromised calcium homeostasis in the central nervous system (CNS) is implicated as a major contributor in the pathology of neurodegeneration. Dysregulation of Ca2+ homeostasis initiates downstream Ca2+–dependent events that lead to apoptotic and/or necrotic cell death. Increases in the intracellular free calcium concentration ([Ca2+]i) may be the result of Ca2+ influx from the extracellular environment or Ca2+ release from intracellular Ca2+ stores such as the endoplasmic reticulum (ER). Influx from the extracellular environment is controlled predominantly by voltage gated calcium channels (VGCC), such as L–type calcium channels (LTCC) and ionotropic glutamate receptors, such as the N–methyl–D–aspartate (NMDA) receptors. Ca2+ release from the ER occurs through the inositol–1,4,5–triphosphate receptors (IP3Rs) or ryanodine receptors (RyRs) via IP3–induced or Ca2+–induced mechanisms. Mitigation of Ca2+ overload through these Ca2+ channels offers an opportunity for pharmacological interventions that may protect against neuronal death.
In the present study the ability of a novel series of polycyclic compounds, both the pentacycloundecylamines and triquinylamines, to regulate calcium influx through LTCC was evaluated in PC12 cells using calcium imaging with Fura–2/AM in a fluorescence microplate reader. We were also able for the first time to determine IC50 values for these compounds as LTCC blockers. In addition, selected compounds were evaluated for their ability to offer protection in apoptosis–identifying assays such as the lactate dehydrogenase release assay (LDH–assay), trypan blue staining assay and immunohistochemistry utilizing the Annexin V–FITC stain for apoptosis. We were also able to obtain single crystal structures for the tricyclo[6.3.0.02,6]undecane–4,9–dien–3,11–dione (9) and tricyclo[6.3.0.02,6]undecane–3,11–dione (10) scaffolds as well as a derivative, N–(3–methoxybenzyl)–3,11–azatricyclo[6.3.0.02,6]undecane (14f). We also evaluated the possibility that the polycyclic compounds might be able to modulate Ca2+ flux through intracellular Ca2+ channels.
Computational methods were utilized to accurately predicted IC50 values and develop a QSAR model with marginal error. The linear regression model delivered r2 = 0.83, which indicated a favorable correlation between the predicted and experimental IC50 values. This model could thus serve as valuable predictor for future structural design and optimization efforts. Data obtained from the crystallographic analysis confirmed the NMR–data based structural assignments done for these compounds in previous studies. Obtaining structural information gave valuable insight into the differences in size and geometric constrains, which are key features for the LTCC activity of these compounds.
vii
In conclusion, we found that all of the compounds evaluated were able to attenuate Ca2+ influx through the LTCC, with some compounds having IC50 values comparable with known LTCC blockers such as nimodipine. Representative compounds were evaluated for their ability to afford protection against apoptosis induced by 200 ?M H2O2. With the exception of compound 14c (the most potent LTCC blocker in the series, IC50 = 0.398 ?M), most compounds were able to afford protection at two or more concentrations evaluated. Compound 14c displayed inherent toxicity at the highest concentrations evaluated (100 ?M). We concluded that compounds representing both types of structures (pentacycloudecylamines and triquinylamines) have the ability to attenuate excessive Ca2+ influx through the LTCC. In general the aza–pentacycloundecylamines (8a–c) were the most potent LTCC blocker which also had the ability to offer protection in the cell viability assays. However, NGP1–01 (7a) had the most favorable pharmacological profile overall with good activity as an LTCC blocker (IC50 = 86 ?M) and the ability to significantly attenuate cell death in the cell viability assays, exhibiting no toxicity. In addition to their ability to modulate Ca2+ influx from the extracellular environment, these compounds also displayed the ability to modulate Ca2+ flux through intracellular Ca2+ channels. The mechanisms by which they act on intracellular Ca2+ channels still remains unclear, but from this preliminary study it would appear that these compounds are able to partially inhibiting Ca2+–ATPase activity whilst possibly simultaneously inhibiting the IP3R. In the absence of extracellular Ca2+ these compounds showed the ability in inhibit voltage–induced Ca2+ release (VICaR), possibly by modulating the gating charge of the voltage sensor being the dihydropyridine receptors.
In future studies it might be worthwhile to do an expanded QSAR study and evaluate the aza–pentacycloundecylamines. To clarify the mechanisms by which the polycyclic compounds interact with intracellular Ca2+ channels we should examine the direct interaction with the individual Ca2+ channels independently. The polycyclic compounds evaluated in this study demonstrate potential as multifunctional drugs due to their ability to broadly regulate calcium homeostasis through multiple pathways of Ca2+ entry. This may prove to be more effective in diseases where perturbed Ca2+ homeostasis have devastating effects eventually leading to excitotoxicity and cell death. / Thesis (Ph.D. (Pharmaceutical Chemistry))--North-West University, Potchefstroom Campus, 2012.
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Evaluation of polycyclic amines as modulators of calcium homeostasis in models of neurodegeneration / Young L.Young, Lois-May January 2012 (has links)
Compromised calcium homeostasis in the central nervous system (CNS) is implicated as a major contributor in the pathology of neurodegeneration. Dysregulation of Ca2+ homeostasis initiates downstream Ca2+–dependent events that lead to apoptotic and/or necrotic cell death. Increases in the intracellular free calcium concentration ([Ca2+]i) may be the result of Ca2+ influx from the extracellular environment or Ca2+ release from intracellular Ca2+ stores such as the endoplasmic reticulum (ER). Influx from the extracellular environment is controlled predominantly by voltage gated calcium channels (VGCC), such as L–type calcium channels (LTCC) and ionotropic glutamate receptors, such as the N–methyl–D–aspartate (NMDA) receptors. Ca2+ release from the ER occurs through the inositol–1,4,5–triphosphate receptors (IP3Rs) or ryanodine receptors (RyRs) via IP3–induced or Ca2+–induced mechanisms. Mitigation of Ca2+ overload through these Ca2+ channels offers an opportunity for pharmacological interventions that may protect against neuronal death.
In the present study the ability of a novel series of polycyclic compounds, both the pentacycloundecylamines and triquinylamines, to regulate calcium influx through LTCC was evaluated in PC12 cells using calcium imaging with Fura–2/AM in a fluorescence microplate reader. We were also able for the first time to determine IC50 values for these compounds as LTCC blockers. In addition, selected compounds were evaluated for their ability to offer protection in apoptosis–identifying assays such as the lactate dehydrogenase release assay (LDH–assay), trypan blue staining assay and immunohistochemistry utilizing the Annexin V–FITC stain for apoptosis. We were also able to obtain single crystal structures for the tricyclo[6.3.0.02,6]undecane–4,9–dien–3,11–dione (9) and tricyclo[6.3.0.02,6]undecane–3,11–dione (10) scaffolds as well as a derivative, N–(3–methoxybenzyl)–3,11–azatricyclo[6.3.0.02,6]undecane (14f). We also evaluated the possibility that the polycyclic compounds might be able to modulate Ca2+ flux through intracellular Ca2+ channels.
Computational methods were utilized to accurately predicted IC50 values and develop a QSAR model with marginal error. The linear regression model delivered r2 = 0.83, which indicated a favorable correlation between the predicted and experimental IC50 values. This model could thus serve as valuable predictor for future structural design and optimization efforts. Data obtained from the crystallographic analysis confirmed the NMR–data based structural assignments done for these compounds in previous studies. Obtaining structural information gave valuable insight into the differences in size and geometric constrains, which are key features for the LTCC activity of these compounds.
vii
In conclusion, we found that all of the compounds evaluated were able to attenuate Ca2+ influx through the LTCC, with some compounds having IC50 values comparable with known LTCC blockers such as nimodipine. Representative compounds were evaluated for their ability to afford protection against apoptosis induced by 200 ?M H2O2. With the exception of compound 14c (the most potent LTCC blocker in the series, IC50 = 0.398 ?M), most compounds were able to afford protection at two or more concentrations evaluated. Compound 14c displayed inherent toxicity at the highest concentrations evaluated (100 ?M). We concluded that compounds representing both types of structures (pentacycloudecylamines and triquinylamines) have the ability to attenuate excessive Ca2+ influx through the LTCC. In general the aza–pentacycloundecylamines (8a–c) were the most potent LTCC blocker which also had the ability to offer protection in the cell viability assays. However, NGP1–01 (7a) had the most favorable pharmacological profile overall with good activity as an LTCC blocker (IC50 = 86 ?M) and the ability to significantly attenuate cell death in the cell viability assays, exhibiting no toxicity. In addition to their ability to modulate Ca2+ influx from the extracellular environment, these compounds also displayed the ability to modulate Ca2+ flux through intracellular Ca2+ channels. The mechanisms by which they act on intracellular Ca2+ channels still remains unclear, but from this preliminary study it would appear that these compounds are able to partially inhibiting Ca2+–ATPase activity whilst possibly simultaneously inhibiting the IP3R. In the absence of extracellular Ca2+ these compounds showed the ability in inhibit voltage–induced Ca2+ release (VICaR), possibly by modulating the gating charge of the voltage sensor being the dihydropyridine receptors.
In future studies it might be worthwhile to do an expanded QSAR study and evaluate the aza–pentacycloundecylamines. To clarify the mechanisms by which the polycyclic compounds interact with intracellular Ca2+ channels we should examine the direct interaction with the individual Ca2+ channels independently. The polycyclic compounds evaluated in this study demonstrate potential as multifunctional drugs due to their ability to broadly regulate calcium homeostasis through multiple pathways of Ca2+ entry. This may prove to be more effective in diseases where perturbed Ca2+ homeostasis have devastating effects eventually leading to excitotoxicity and cell death. / Thesis (Ph.D. (Pharmaceutical Chemistry))--North-West University, Potchefstroom Campus, 2012.
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O carvacrol reduz a pressão arterial via ativação de canais receptores de potencial transiente em ratos espontaneamente hipertensos / The carvacrol reduces blood pressure by activation of transient receptor potential channels in spontaneously hypertensive ratsDantas, Bruna Priscilla Vasconcelos 25 August 2014 (has links)
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Previous issue date: 2014-08-25 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / TRP channels have been extensively studied in many physiological and pathological
processes involved in blood pressure regulation. Carvacrol is well known to act on TRP
channels in the vasculature, however there are no studies of its effects in hypertensive
rats. Our aim was to evaluate the contribution of TRP channels in hypertension and
evaluate the effects of carvacrol on TRP channels of SHR. In an electrophysiological
approach, carvacrol (300 μM) inhibited the barium current, suggesting a reduction of
calcium influx through L-type voltage-operated Ca2+ channels. We found that the mRNA
expression of the following TRP channels: TRPV1 (p=0.0007), TRPV4 (p=0.0002),
TRPM7 (p=0.0091) and TRPM8 (p=0.0008) are decreased and TRPC1 (p=0,02) are
increased in SHR compared to control. In aortic rings preparations precontracted with 1
μM of phenylephrine, carvacrol (10-8 - 3x10-4 M) induced vasorelaxation in WKY (pD2 =
4.88 0.09, Emax = 100.73 2.24%, n = 6) and SHR (pD2 = 4.93 0.08, Emax= 110.06
2.07%, n = 6) in the presence of functional endothelium and that effect was not altered
after endothelium removal in WKY (pD2 = 5.09 0.08, Emax = 99.60 0.88%, n = 6) and
SHR (pD2 = 5.00 0.08, Emax = 101.23 1.96%, n = 6), proposing an endotheliumindependent
mechanism. To assess the role of TRP channels, aortic rings were
incubated with ruthenium red. In this assay, the vasorelaxant response was not changed
in the WKY. On the other hand both potency (p<0.001) and efficacy (p<0.001) were
reduced in SHR, suggesting that carvacrol could activate the subtypes TRPV in
hypertensive animals. When using magnesium, equally potency (p<0.001) and
pharmacological efficacy (p<0.01) were attenuated in both WKY and SHR, suggesting
the involvement of TRPM7. In preparations with 2-APB, CPZ and BCTC, the
vasorelaxant effect was potentiated (p<0.01) in both WKY and SHR, suggesting the
participation of TRPV1, TRPM8 and TRPM7 channels in the vasorelaxant effect induced
by carvacrol. Nevertheless, in the presence of capsaicin, the vasodilator effect was
attenuated (p<0.001) in both WKY and SHR endorsing a possible action of carvacrol on
TRPV1 and TRPV4 channel. In addition, in vivo studies showed that carvacrol produced
hypotension and bradycardia in unanesthetized WKY and SHR. In order to address the
cardiovascular responses in vivo, we performed experiments using ruthenium red and
capsaicin to evaluate the contribution of TRP channels in this effect. Our results
suggested an action of carvacrol on TRPV1 and TRPV4, confirming the in vitro assays.
In conclusion, these results suggest that the expression of TRPV1, TRPV4, TRPM7 and
TRPM8 was reduced and TRPC1 increased in SHR and carvacrol induced a
vasorelaxant effect probably by acting on TRPV1, TRPV4, TRPC1, TRPM7 and TRPM8
in SHR. Furthermore, the in vivo effects induced by carvacrol exhibited a hypotensive
and bradycardic activity and this effect, at least in part, is due to an activation of TRPV1
and TRPV4 channels in these responses. / Os canais TRP têm sido amplamente estudados, em diversos processos de regulação fisiológico e patológico no sistema cardiovascular. Carvacrol (5-isopropil-2metilfenol) é conhecido por agir na vasculatura ativando ou bloqueando canais TRP, entretanto não há relatos dos seus efeitos em ratos hipertensos. Nosso objetivo foi avaliar o envolvimento dos canais TRP na hipertensão e o papel do carvacrol nos efeitos cardiovasculares em ratos espontaneamente hipertensos. Em ensaios eletrofisiológicos carvacrol (300μM) promoveu inibição das correntes de bário, sugerindo uma inibição do influxo de cálcio por canais de Ca2+ tipo-L. Ao avaliar a expressão do RNAm dos canais TRP em SHR, observamos pela primeira vez que a
expressão de TRPV1 (p=0,0007), TRPV4 (p=0,0002), TRPM7 (p=0,0091), TRPM8 (p=0,0008) foram diminuídas e TRPC1 (p=0,02) aumentada. Em anéis de aorta précontraídos com 1 μM de FEN, o carvacrol (10-8 - 3 ₓ 10-4 M) induziu vasorelaxamento em ratos wistar kyoto (WKY) (pD2 = 4,88 0,09, Emáx = 100,73 2,24%, n = 6; pD2 = 5,09 0,08, Emáx = 99,60 0,88%, n = 6) e em ratos espontaneamente hipertensos (SHR) (pD2 = 4,93 0,08, Emáx = 110,06 2,07%, n = 6) na presença e na ausência do endotélio funcional, respectivamente. Para avaliar a participação dos canais TRP, na ausência do endotélio funcional as preparações foram incubadas com vermelho de rutênio, em WKY não houve alteração da resposta, mas em animais SHR tanto sua potência (p<0,001) como sua eficácia (p<0,001) foram diminuídas, sugerindo que
carvacrol pode estar agindo em TRPV nos SHR. Ao utilizar magnésio, em WKY e SHR tanto sua potência (p<0,01) quanto sua eficácia (p<0,001) farmacológica foram atenuadas, sugerindo ação sobre o canal TRPM7. Nas preparações com 2-APB, CPZ e BCTC os seus efeitos foram potencializados (p<0,01), sugerindo ação sobre os canais TRPV1, TRPC1, TRPM7 e TRPM8. Já com capsaicina, um ativador de TRPV1, esse efeito foi atenuado (p<0,001) confirmando uma possível ação do carvacrol sobre
TRPV1. Nos estudos in vivo, com WKY e SHR não anestesiados, carvacrol produziu hipotensão e bradicardia, onde ao avaliar a ação dos canais TRP em ensaios com vermelho de rutênio e capsaicina pode-se sugerir uma possível ação de carvacrol sobre TRPV1 e TRPV4, diminuindo a pressão arterial, corroborando com os ensaios in vitro. Em conclusão, esses resultados sugerem que os canais TRPV1, TRPV4, TRPM8 e TRPM7 têm sua expressão diminuída e TRPC1 a expressão aumentada em animais
SHR e carvacrol induz efeito vasorelaxante provavelmente agindo em TRPV1, TRPV4, TRPC1, TRPM7 e TRPM8 em SHR. Além disso, os efeitos induzidos por carvacrol in vivo mostraram uma atividade hipotensora e bradicárdica e uma possível influencia dos canais TRPV1 e TRPV4 nessas respostas.
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Estudo dos efeitos inotrópicos e toxicológicos de extratos da Tithonia diversifolia (Hemsl.) A. Gray em mamíferos / Study of inotropic and toxicologic effects produced by extracts obtained from Tithonia diversifolia (Hemsl.) A. Gray leaves in mammaliansLima, Adriana Karla de 14 June 2013 (has links)
Extracts from Tithonia diversifolia (TD) have been widely employed in Central and South America, Asia and Africa to help in the treatment of malaria, a disease to which millions of people are subjected in tropical countries. In spite of this, we were not able to find any scientific report dealing with their effects on the heart muscle functioning or describing their toxic effects. Such gaps are barriers for the TD derivatives to become a phytotherapic agent. Therefore, we have planned this study aiming to clarify the inotropic and toxicological effects of TD derivatives. Their effects on the muscle inotropism were investigated in isolated guinea pig atrium mounted in an organ chamber containing Tyrode solution oxygenated by carbogen mixture (5% CO2, 95% O2). The atria were stretched (1 gf) and stimulated at 2 Hz with suprathreshold electrical pulses. Their contractile forces were captured isommetrically and stored in computer to be analysed off line. The effect of AqF was determined after this fraction be added to the organ bath. The evaluation concerned to its effect on the L-type calcium current (ICa,L) was carried out in ventricular cardiomyocytes isolated according to the steps described by Shioya (2007). The intracellular calcium transients were also studied in these cells previously loaded with FLUO4-AM and monitored by confocal microscopy. The acute (ATx) and subacute (STx) toxicities of the crude extract of TD (CE) were evaluated in rats according to the steps proposed by OECD (2001a,b). Briefly: animals were separated by gender to create one control group and two treated groups. For the ATx study, the animals pertaining to the control group received orally only distilled water, whereas rats pertaining to the treated groups received, respectively, 2.5 g/kg and 5.0 g/kg of CE administered in a unique dose. The animals involved in the study were monitored for abnormal signals during 14 days. In the STx evaluation, the animals of the two treated groups received, respectively, 0.125 g/kg/day CE and 0.250 g/kg/day CE during 30 days. Animals were carefully observed for signals representing physiological and/or behavioral abnormalities. At the end of each toxicological protocol, the animals were anaesthetized for collecting blood and after that they were euthanized for the removal of organs. Our results showed that AqF depresses the atrial contractility in a dose-dependent fashion. However, concentrations greater than 2 g/l cause mechanical alternans , indicating that AqF can disturb the dynamics of the calcium release channels, which are present in the sarcoplasmic reticulum membrane. The effect of AqF on the L-type calcium current (ICa,L) was studied by recording how this fraction changes the inotropic effect produced by increasing concentrations of CaCl2. Our data showed that 2 g/l AqF increased the CaCl2 EC50 from 1.207 ± 0.139 to 2.846 ± 0.035 mM (n = 4, p < 0.05), suggesting that AqF is able to reduce ICa,L. Such conclusion was reinforced by testing the Bowditch phenomenon in atria incubated with 1.3 g/l AqF. In these experiments, AqF completely abolished the force overshoot , which is normally seen in the positive staircase Bowditch phenomenon. The depressant effect of AqF on the ICa,L was also supported by the decrease of intracellular fluorescence related to the subcellular calcium from 6.9 ± 0.4 (n = 53) to 5.3 ± 0.3 u.a. (n = 51; p < 0.05). In fact, direct measurements of ICa,L performed in patch clamped cardiomyocytes, confirmed the depressant effect of AqF on ICa,L. In these experiments, 80 g/ml of AqF reduced the density of ICa,L from 10.00 ± 1.22 to 7.80 ± 1.19 A/F (n = 4, p < 0.05). An expected consequence for the ICa,L reduction is the increase of the time required for the myocardial electrical wave to cross the atrioventricular node. Electrocardiograms from isolated guinea pig hearts confirmed the reduction of ICa,L because in the presence of AqF the heart presented a complete atrioventricular block (AVB). There was no involvement of potassium channels, neither the muscarinic nor the opioids receptors in the AqF myocardial depressant effect. We can conclude that the depressant effects of AqF in the myocardium contractility are due to a reduction of ICa,L. Studies concerned to the ATx and STx showed that the CE does not promote any signal of pain, abnormal behavior or mortality in the rats (DL50>5.0 g/kg). In STx, CE does not change water or food intakes, but in the animals treated with 0.250 g/kg/day a gain of weight occurred, suggesting water retention in the animal s body. Neutropenia, eosinopenia, lymphocytosis, and monocytosis were observed in treated animals during the ATx study. In animals pertaining to the STx study it was seen leucopenia, neutropenia, and monocytopenia. In ATx evaluation, the biochemical profile of the blood showed a reduction in the plasmatic urea but the aspartate and alanine aminotransferases, alkaline phosphatase, total and direct bilirubin, total protein, globulin, sodium, and uric acid increased. Similar results were found in the STx study, except for the urea that remained unchanged and for the glucose, creatinin, albumin, and potassium that presented an increase in their serum levels. These findings advise for precaution when TD derivatives were proposed as a therapeutic agent. We conclude that AqF reduces ICa,L leading to a negative inotropism and an AVB. The CE interferes with the hematopoietic system and promotes injuries for the liver and kidneys leading to a non-inflammatory tissue reaction. / Extratos das folhas da Tithonia diversifolia (TD) têm sido empregados nas Américas do Sul e Central, Ásia e África como agentes antimaláricos entre outros usos. Seus possíveis efeitos sobre o coração e sua toxicidade, contudo, não estão relatados. Estas lacunas comprometem a expectativa de os derivados da planta virem a interessar à indústria de fitoterápicos e por esta razão, o presente trabalho visou complementar tais lacunas, trazendo para o conhecimento as propriedades inotrópicas e toxicológicas de derivados das folhas desta planta. Os estudos inotrópicos foram realizados com a fração aquosa (FAq) e em átrio esquerdo isolado de cobaia montado em cuba para órgão. Os átrios foram estirados a 1 gf e estimulados com pulsos de corrente supralimiares. A força atrial foi captada isometricamente e armazenada em computador. A ação da FAq foi avaliada adicionando-a ao banho. Para estudos com célula isolada, foram obtidos cardiomiócitos pela técnica de dissociação proposta por Shioya (2007). O efeito da FAq sobre a corrente de cálcio tipo L (ICa,L) foi estudado em cardiomiócitos ventriculares de rato e os de camundongo foram usados para estudar os transientes de cálcio subcelular, empregando-se, para isso, a sonda fluorescente Fluo4-AM. Os registros foram feitos com microscopia confocal de varredura a laser. A toxicidade aguda (TxA) e subaguda (TxS) do extrato bruto da TD (EB) foi avaliada em ratos de acordo com as regras da OECD. Resumidamente: os animais foram separados por gênero em grupos controle e tratados. Nos estudos de TxA, os animais do grupo controle receberam água destilada, enquanto que os dos grupos tratados receberam, p.o., 2,5 g/kg e 5,0 g/kg de EB. Os efeitos foram monitorados por 14 dias. Na avaliação referente à TxS, os grupos tratados receberam, p.o., durante 30 dias, 0,125 g/kg/dia ou 0,250 g/kg/dia de EB. Os animais foram observados para sinais de alterações fisiológicas e/ou comportamentais. Em seguida, foram anestesiados, o sangue coletado e depois eutanasiados para a histopatologia dos órgãos. Os resultados mostraram que a FAq deprime a contratilidade atrial e que concentrações acima de 2 g/l induzem o alternância mecânica, sugerindo que ela leva à disfunção dos canais liberadores de cálcio existentes no retículo sarcoplasmático. Para avaliar a ação da FAq sobre a ICa,L, foi estudada a sua ação sobre a curva concentração-efeito para o CaCl2. Neste estudo, a FAq produziu aumento da CE50 de 1,207 ± 0,139 mM para 2,846 ± 0,035 mM (n = 4, p < 0,05). A incubação do átrio com 1,3 g/l de FAq aboliu completamente o overshoot de força do fenômeno de Bowditch (n = 4, p < 0,05), indicando que ela reduz ICa,L. Esta hipótese foi igualmente suportada no fato de que a fração diminuiu a fluorescência para o cálcio subcelular de 6,9 ± 0,4 u.a. (n = 53) para 5,3 ± 0,3 u.a. (n = 51; p < 0,01) e também porque, quando empregada a 80 g/ml, ela reduziu a densidade da ICa,L de 10,00 ± 1,22 A/F para 7,80 ± 1,19 A/F (n = 4, p < 0,05). A FAq produziu bloqueio de condução no nódulo atrioventricular. O mecanismo de ação da FAq não envolveu receptores muscarínicos, opióides, nem canais para potássio, mas está baseado na diminuição da ICa,L. A avaliação da TxA e TxS mostrou que o EB é de baixa toxicidade pois sua DL50 foi maior do que 5,0 g/kg. O EB não alterou o consumo de água ou de comida, mas nos animais tratados com 0,250 g/kg/dia houve ganho de peso, sugerindo retenção hídrica, pois o peso dos órgãos não se modificou. Neutropenia, eosinofilopenia, linfocitose e monocitose foram observadas na TxA, mas na TxS ocorreu leucopenia, neutropenia e monocitopenia. A análise bioquímica na TxA mostrou redução da ureia plasmática, porém aumento da aspartato e da alanina aminotransferases, fosfatase alcalina, bilirrubinas total e direta, proteína total, globulina, sódio e ácido úrico. Resultados semelhantes foram encontrados nos estudos sobre a TxS, exceto para ureia, que se manteve constante e para glicose, creatinina, albumina e potássio, cujos níveis sanguíneos aumentaram. A histopatologia mostrou sinais de injúria hepática e renal. Concluimos que a FAq reduz a ICa,L como consequência ela é inotrópica negativa e induz BAV. Ela interfere com o sistema hematopoiético e promove lesão hepática e renal sem causar mortalidade e induz reação inflamatória tissular.
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Modulação da diferenciação neural de células tronco embrionárias por transientes de cálcio intracelulares: papéis dos receptores purinérgicos e de canais de cálcio voltagem-dependentes / Modulation of neural embryonic stem cell differentiation by intracellular Ca2+ oscillations. Roles of purinergic receptors and voltage gated Ca2+ channelsTalita Glaser 24 November 2015 (has links)
Receptores purinérgicos e canais de cálcio voltagem-dependentes estão envolvidos em diversos processos biológicos como na gastrulação, durante o desenvolvimento embrionário, e na diferenciação neural. Quando ativados, canais de cálcio voltagem-dependentes e receptores purinérgicos do tipo P2, ativados por nucleotídeos, desencadeiam transientes de cálcio intracelulares controlando diversos processos biológicos. Neste trabalho, nós estudamos a participação de canais de cálcio voltagem-dependentes e receptores do tipo P2 na geração de transientes de cálcio espontâneos e sua regulação na expressão de fatores de transcrição relacionados com a neurogênese utilizando como modelo células tronco (CTE) induzidas à diferenciação em células tronco neurais (NSC) com ácido retinóico. Descrevemos que CTE indiferenciadas podem ter a proliferação acelerada pela ativação de receptores P2X7, enquanto que a expressão e a atividade desse receptor precisam ser inibidas para o progresso da diferenciação em neuroblasto. Além disso, ao longo da diferenciação neural, por análise em tempo real dos níveis de cálcio intracelular livre identificamos 3 padrões de oscilações espontâneas de cálcio (onda, pico e unique), e mostramos que ondas e picos tiveram a frequência e amplitude aumentadas conforme o andamento da diferenciação. Células tratadas com o inibidor do receptor de inositol 1,4,5-trifosfato (IP3R), Xestospongin C, apresentaram picos mas não ondas, indicando que ondas dependem exclusivamente de cálcio oriundo do retículo endoplasmático pela ativação de IP3R. NSC de telencéfalo de embrião de camundongos transgênicos ou pré-diferenciadas de CTE tratadas com Bz-ATP, o agonista do receptor P2X7, e com 2SUTP, agonista de P2Y2 e P2Y4, aumentaram a frequência e a amplitude das oscilações espontâneas de cálcio do tipo pico. Dados, obtidos por microscopia de luminescência, da expressão em tempo real de gene repórter luciferase fusionado à Mash1 e Ngn2 revelou que a ativação dos receptores P2Y2/P2Y4 aumentou a expressão estável de Mash1 enquanto que ativação do receptor P2X7 levou ao aumento de Ngn2. Além disso, células na presença do quelante de cálcio extracelular (EGTA) ou do depletor dos estoques intracelulares de cálcio do retículo endoplasmático (thapsigargin) apresentaram redução na expressão de Mash1 e Ngn2, indicando que ambos são regulados pela sinalização de cálcio. A investigação dos canais de cálcio voltagem-dependentes demonstrou que o influxo de cálcio gerado por despolarização da membrana de NSC diferenciadas de CTE é decorrente da ativação de canais de cálcio voltagem-dependentes do tipo L. Além disso, esse influxo pode controlar o destino celular por estabilizar expressão de Mash1 e induzir a diferenciação neuronal por fosforilação e translocação do fator de transcrição CREB. Esses dados sugerem que os receptores P2X7, P2Y2, P2Y4 e canais de cálcio voltagem-dependentes do tipo L podem modular as oscilações espontâneas de cálcio durante a diferenciação neural e consequentemente alteram o padrão de expressão de Mash1 e Ngn2 favorecendo a decisão do destino celular neuronal. / Purinergic receptors and voltage gated Ca2+ channels have been attributed with developmental functions including gastrulation and neural differentiation. Upon activation, nucleotide-activated P2 purinergic receptor and voltage-gated Ca2+ channel subtypes trigger intracellular calcium transients controlling cellular processes. Here, we studied the participation of voltage-gated calcium channels and P2 receptor activity in spontaneous calcium transients and consequent regulation expression of transcription factors related to retinoic acid-induced neurogenesis of mouse neural stem and embryonic stem cells (ESC). In embryonic pluripotent stem cells, proliferation is accelerated by P2X7 receptor activation, while receptor expression / activity needs to be down-regulated for the progress of neuroblast differentiation. Moreover, along neural differentiation time lapse imaging with means of a cytosolic calcium-sensitive fluorescent probe provided different patterns of spontaneous calcium transients (waves and spikes) showing that both, frequency and amplitude increased along differentiation. Cells treated with the inositol 1,4,5-trisphosphate receptor (IP3R) inhibitor Xestospongin C showed spikes but not waves, indicating that waves exclusively depended on calcium release from endoplasmic reticulum by IP3R activation. Cells treated with the P2X7 receptor subtype agonist Bz-ATP and the P2Y2 and P2Y4 receptor 2-S-UTP increased frequency and amplitudes of calcium transients, mainly spikes, in embryonic telencephalon neural stem cells (NSC) and NSC pre-differentiated from ESC. Data obtained by luminescence time lapse imaging of stable transfected cells with Mash1 or Ngn2 promoter-protein fusion to luciferase reporter construct revealed increased Mash1 expression due to activation of P2Y2/P2Y4 receptor subtypes, while increased expression of Ngn2 was observed following P2X7 receptor activation. In addition, cells imaged in presence of the extracellular calcium chelator EGTA or following endoplasmic reticulum calcium store depletion by thapsigargin showed a decrease in Mash1 and Ngn2 expression, indicating that both are regulated by calcium signaling. Investigation of the roles of voltage gated Ca2+ channels in neural differentiation showed that Ca2+ influx in NSC pre-differentiated from ESC is due to membrane depolarization and L-type voltage gated Ca2+ channel activation, thereby controlling cell fate decision, by stabilizing the expression of MASH1 and inducing differentiation, by phosphorylation of the transcription factor CREB. Altogether these data suggest that P2X7, P2Y2, P2Y4 receptors and L-type voltage gated Ca2+ channels can modulate spontaneous calcium oscillations during neural differentiation and consequently change the Mash1 and Ngn2 expression patterns, thus favoring the cell fate decision to the neuronal phenotype.
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Participação dos canaisTRP nos efeitos cardiovasculares induzidos por carvacrol em ratos / Participation of TRP channel in the cardiovascular effects induced by carvacrol in ratDantas, Bruna Priscilla Vasconcelos 11 March 2010 (has links)
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Previous issue date: 2010-03-11 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The pharmacological effects of carvacrol, a monoterpenoid phenol, on the cardiovascular system were studied in normotensive rats, using in vivo and in vitro techniques. In superior mesenteric artery rings isolated from rats with functional endothelium carvacrol (10-8 - 3 ₓ 10-4 M) concentration-dependently relaxed phenylephrine-induced contractions (pD2 = 4.59 0.02, MR = 103.03 1.5%, N=8) and this effect was not altered after removal of the endothelium (pD2 = 4.36 0.02, MR = 111.03 4.8%, N=8), suggesting that the vasorelaxant response induced by carvacrol appears to be independent of vascular endothelium. Furthermore, carvacrol antagonized the vasoconstriction induced by high K+ solution (Tyrode with 80 mM of KCl) (pD2 = 4.12 0.01, MR = 94.38 3.97%, N=6), inhibited contraction elicited by CaCl2 in depolarizing (KCL 60 mM) nominally without Ca2+ medium out carvacrol also antagonized the contractions induced by the L-type Ca2+ channel agonist, S(-)-Bay K 8644 (pD2 = 4.537 0.023, MR = 9.8 3.58%, N=6), indicating that the vasodilatation involve probably the inhibition of Ca2+ influx through L-type voltage-dependent calcium channels (Cav type-L). Additionally, carvacrol antagonized the contractions induced by CaCl2 in nominally without Ca2+ medium in the presence of PHE and nifedipine, suggesting a possible inhibition of calcium influx by store operated channels (SOC), receptor operated channels (ROC) and/or TRP channels. Interestingly, in a depolarizing (KCL 60 mM) nominally without Ca2+ medium and in the presence of nifedipine, carvacrol also inhibited the contraction induced by CaCl2, suggesting a probable inhibition of SOC and/or TRP channels. To evaluate the involvement of TRP channels in the vasorelaxant effect induced by carvacrol, non-selective inhibitors were used. No change in the relaxation response was observed in the presence of ruthenium red (pD2= 4.31 0.029, N=6), however, the effect induced by carvacrol was potentiated by La3+ (pD2 = 5.231 0,04, N=6), Gd3+ (pD2 = 4.97 0.02, N=6) or Ni2+ (pD2 = 5.079 0.02, N=6), furthermore, Mg2+ (pD2 = 4.168 0.021; MR = 81.12 4.03%, N=6) attenuated the relaxation elicited by carvacrol, suggesting that monoterpenoid may to action on TRPC1, TRPC3, TRPC6 and TRPM7 channels. Carvacrol also induced hypotension and bradycardia in non-anesthetized normotensive rats. In conclusion, these results suggest that carvacrol induced vasorelaxant effect in superior mesenteric artery rats isolated probably inhibiting Ca2+ influx by Cav, SOC (TRPC1), ROC (TRPC1 or TRPC6) and TRPM7 channels. Moreover, the effects induced by carvacrol in normotensive non-anesthetized rats showed a hypotensive and bradycardic activity. / Os efeitos farmacológicos de carvacrol, um fenol monoterpenóide, sobre o sistema cardiovascular, foi estudado em ratos normotensos, usando técnicas in vivo e in vitro. Carvacrol (10-8 - 3 ₓ 10-4 M) induziu vasorelaxamento dos anéis de artéria mesentérica superior isolada de rato pré-contraídos com 10 μM FEN (pD2 = 4,59 0,02, Emáx = 103,03 1,5%) na presença do endotélio funcional e esse efeito não foi alterado após a remoção do endotélio (pD2 = 4,36 0,02, Emáx = 111,03 4,8%), sugerindo, portanto, que a resposta vasorelaxante induzida por carvacrol parece ser independente do endotélio vascular. Interessantemente em anéis pré-contraídos com KCl 80 mM (pD2 = 4,12 0,01, Emáx = 94,38 3,97%), observou-se uma diminuição na sua potência e na sua eficácia farmacológica, sugerindo um passo comum na via que seria um aumento citosólico dos níveis de cálcio. Adicionalmente, carvacrol antagonizou, de maneira dependente de concentração, as contrações induzidas por CaCl2 em meio despolarizante nominalmente sem Ca2+ e induziu relaxamento das contrações induzidas pelo S(-)-Bay K 8644 (pD2 = 4,537 0,023, Emáx = 91,8 3,58%) com uma diminuição na sua eficácia farmacológica, sugerindo uma inibição do influxo de cálcio por canais de Ca2+ tipo-L. Além disso, antagonizou as contrações induzidas por CaCl2 em meio nominalmente sem cálcio, na presença de FEN e nifedipina, sugerindo uma provável inibição do influxo de cálcio por SOC, ROC e/ou canais TRP. Como também, em um meio despolarizante e nominalmente sem cálcio na presença de nifedipina esse mesmo antagonismo foi observado, ressaltando a provável inibição dos SOC e/ou canais TRP. Para avaliar a participação dos canais TRP, as preparações foram incubadas com La3+ (pD2 = 5,231 0,04) , Gd3+ (pD2 = 4,97 0,02) e Ni2+ (pD2 = 5,079 0,02) onde seu efeito foi potencializado sugerindo sua ação sobre os canais TRPC e ao utilizar magnésio (pD2 = 4,168 0,021 e Emáx = 81,12 4,03%) tanto sua potência quanto sua eficácia farmacológica foi atenuada, sugerindo inibição do canal TRPM7. Nos estudos in vivo, em ratos normotensos não anestesiados, carvacrol produziu hipotensão e bradicardia. Em conclusão, esses resultados sugerem que carvacrol induz efeito vasorelaxante em anéis de artéria mesentérica superior isolada de rato por inibir provavelmente TRPM7, como também inibir o influxo de cálcio por Cav, SOC, ROC e ou TRPC1 e 6. Além disso, os efeitos induzidos por carvacrol em ratos normotensos não anestesiados mostrou uma atividade hipotensora e bradicárdica.
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Mécanismes électrophysiologiques responsables de l'augmentation de la fréquence cardiaque induite par les œstrogènes lors de la grossesseLong, Valérie 07 1900 (has links)
Une accélération de la fréquence cardiaque (FC) au repos est observée chez les femmes enceintes. Au dernier trimestre, la FC accélère en moyenne de 15%, ce qui représente un facteur de risque dans le développement d’arythmies de novo ou dans l’exacerbation d’arythmies cardiaques préexistantes. Ceci est dangereux pour la mère ainsi que pour le fœtus. Cependant, les mécanismes responsables de ce changement cardiovasculaire restent peu connus.
Notre laboratoire a récemment démontré que la grossesse était associée à une augmentation de la densité du courant pacemaker (If) et du courant calcique de type L (ICaL), ainsi qu’à des changements de l’homéostasie calcique dans les cellules de nœud sinusal (NS) de souris. Sachant que les concentrations plasmatiques en œstrogènes sont significativement augmentées pendant la grossesse et que ces hormones sexuelles féminines ont la capacité de modifier les propriétés électrophysiologiques du cœur, l’hypothèse de ce projet de recherche est que les œstrogènes jouent un rôle important dans l’augmentation de la FC associée à la grossesse et régulent les propriétés électrophysiologiques du NS. Les objectifs de ce projet de recherche sont de déterminer le rôle du 17β-œstradiol (E2) dans l’augmentation de la FC, d’examiner si ces effets sont régulés par les récepteurs aux œstrogènes alpha (ERα) et/ou bêta (ERβ) ainsi que d’évaluer les différents mécanismes de régulation de l’E2 sur l’électrophysiologie du NS.
Des souris femelles adultes non-gestantes (2-4 mois) déficientes en ERα (ERKOα) ou en ERβ (ERKOβ) ont reçu un traitement chronique à l’E2 (30 μg deux fois par jour pendant quatre jours) simulant les concentrations plasmatiques en E2 retrouvées en fin de grossesse (23,3 ± 5,0 nM) chez la souris. L’analyse des électrocardiogrammes de surface montrent que la FC des souris ERKOβ (ERKOβ : 511 ± 15 bpm; ERKOβ +E2 : 580 ± 10 bpm, n = 10, p < 0,001) est significativement accélérée suivant le traitement à l’E2. Toutefois, la FC demeure inchangée chez les souris ERKOα (ERKOα : 520 ± 16 bpm; ERKOα +E2 : 530 ± 21 bpm, n = 7, p = 0,114). La méthode du patch-clamp en mode courant-imposé a permis de démontrer une accélération de l’automaticité des cellules du NS des souris ERKOβ suivant le traitement à l’E2, se traduisant par une augmentation de la fréquence des potentiels d’action spontanés (ERKOβ : 284 ± 24 bpm, n = 8; ERKOβ +E2 : 354 ± 23 bpm, n = 15, p = 0,0395) et par une pente de dépolarisation diastolique plus rapide (ERKOβ : 82 ± 12 mV/s, n = 8; ERKOβ +E2 : 140 ± 14 mV/s, n = 15, p < 0,003). En lien avec ces résultats, le patch-clamp en mode voltage-imposé a permis de démontrer que la densité de If est augmentée suivant un traitement à l’E2 (à -90 mV : ERKOβ : -6,6 ± 0,7 pA/pF, n = 12-15; ERKOβ +E2 : -11 ± 1 pA/pF, n = 9-11, p < 0,05). Cependant, If est similaire chez les souris ERKOα traitées ou non à l’E2. De plus, des cardiomyocytes humains dérivés de cellules souches pluripotentes induites de type nodal (N-hiPSC-CM) ont une accélération de la fréquence des potentiels d’action (CTL : 69 ± 5 bpm, n = 12; +E2 : 99 ± 6 bpm, n = 14, p < 0,001) ainsi qu’une augmentation de la densité de If (à -90 mV : CTL : -0,95 ± 0,14 pA/pF, n = 7-10; +E2 : -1,62 ± 0,17 pA/pF, n = 13-14, p < 0,05) suivant le traitement à l’E2. L’administration d’E2 ne modifie pas la fréquence des transitoires calciques des cellules de NS des souris ERKOα (139 ± 15, n = 13-14; +E2 : 142 ± 14, n = 15-16, p = ns) et ERKOβ (142 ± 11, n = 14-15; +E2 : 147 ± 13, n = 15-16, p = ns). En lien avec ces résultats, le courant ICaL des N-hiPSC-CM est inchangé suivant le traitement d’E2 (à 0 mV : CTL : -14,0 ± 1,3 pA/pF, n = 12-13; +E2 : -14,5 ± 1,4 pA/pF, n = 22, p = ns).
En conclusion, l’accélération de l’automaticité cardiaque associée à la grossesse est, entre autres, expliquée par une augmentation de la densité de If, régulée par la voie de signalisation E2-ERα. Cependant, les changements de l’homéostasie calcique observés pendant la grossesse sont indépendants des niveaux élevés en œstrogènes. Les résultats obtenus sur les N-hiPSC-CM concordent avec ce qui est observé dans les cellules de NS de souris, ce qui démontre l’applicabilité humaine des résultats. Notre étude contribue à élucider l’influence de la grossesse et le rôle des hormones sexuelles féminines sur la fonction du NS et l’automaticité cardiaque. Ultimement, notre travail pourrait aider à développer une meilleure gestion des arythmies associées aux fluctuations hormonales féminines et/ou à la grossesse. / An increased heart rate (HR) is observed in pregnant women. In fact, in the last trimester, in average, the HR increases by 15%, which is a known risk factor to developing cardiac arrhythmias or exacerbating pre-existing arrhythmias. This can lead to major consequences for both the mother and fetus. However, the mechanisms underlying this increased HR remain largely unexplored.
Our laboratory recently demonstrate that pregnancy is associated with an increased density of the pacemaker current (If) and the L-type calcium current (ICaL) as well as changes in calcium homeostasis of mouse sinoatrial node (SAN) cells. Knowing that estrogens are increased during pregnancy and that these sex hormones can modify cardiac electrophysiological properties, we hypothesized that estrogens play a key role in the pregnancy-induced increased HR and regulate the SAN electrophysiological properties. Our research project aims to determine the role of 17β-estradiol (E2) on the pregnancy-induced increased HR, to determine if these effects are regulated through estrogen receptor alpha (ERα) and/or beta (ERβ) and to study the E2 underlying mechanisms on SAN electrophysiology.
Non-pregnant female mice (2-4 months) lacking ERα (ERKOα) or ERβ (ERKOβ) received a chronic E2 treatment (30 μg twice daily for four days) mimicking E2 concentrations found in late pregnancy (23.3 ± 5.0 nM). Surface electrocardiogram analysis showed a significant increased HR in ERKOβ mice (ERKOβ: 511 ± 15 bpm; ERKOβ +E2: 580 ± 10 bpm; n = 10; p<0.001) following E2 administration. However, the HR remains unchanged in ERKOα mice (ERKOα: 520 ± 16 bpm; ERKOα +E2: 530 ± 21 bpm, n = 7, p = 0.114). Following E2 treatment, current-clamp method demonstrates an increase SAN cells automaticity in ERKOβ mice, resulting in an increase in the spontaneous action potential frequency (ERKOβ : 284 ± 24 bpm, n = 8; ERKOβ +E2 : 354 ± 23 bpm, n = 15, p = 0.0395), associated with a steeper diastolic depolarization slope (ERKOβ : 82 ± 12 mV/s, n = 8; ERKOβ +E2 : 140 ± 14 mV/s, n = 15, p < 0.003), a major determinant of cardiac automaticity. In line with these results, voltage-clamp data showed an increased If density in SAN cells of ERKOβ mice treated with E2 (at -90 mV: ERKOβ: -6.6 ± 0.7 pA/pF, n = 12-15; ERKOβ +E2: -11.0 ± 1.3 pA/pF, n = 9-11, p < 0.05). Nevertheless, If density was similar in E2-treated ERKOα mice. E2-treated nodal-like human-induced pluripotent stem cell-derived cardiomyocytes (N-hiPSC-CM) also showed an increased spontaneous action potential frequency (CTL : 69 ± 5 bpm, n = 12; +E2 : 99 ± 6 bpm, n = 14, p < 0.001) and If density (at -90 mV: CTL: -0.95 ± 0.14 pA/pF, n = 7-10; +E2: -1.62 ± 0.17 pA/pF, n = 13-14, p < 0.05). Following E2 administration, the rate of calcium transient was similar in SAN cells from ERKOα (139 ± 15, n = 13-14; +E2 : 142 ± 14, n = 15-16, p = ns) and ERKOβ (142 ± 11, n = 14-15; +E2 : 147 ± 13, n = 15-16, p = ns) mice. In line with these results, no modification was seen on ICaL density in E2-treated N-hiPSC-CM (at 0 mV: CTL: -14.0 ± 1.3 pA/pF, n = 12-13; +E2: -14.5 ± 1.4 pA/pF, n = 22, p = ns).
In conclusion, the increased cardiac automaticity observed during pregnancy is, in part, explained by an increased If density. This mechanism is mediated by the E2-ERα pathway. In the other hand, calcium homeostasis changes detected during pregnancy appear to be mediated by an E2-independent mechanism. Finally, results obtained on N-hiPSC-CM are consistent with our observations on mouse SAN cells, demonstrating the human applicability of our results. This study provides novel insight on the effects of female sex hormones on the SAN functions. Ultimately, this information can lead to improved management of arrhythmias associated with female hormone fluctuations and/or pregnancy-induced arrhythmias.
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Modification of ion channel auxiliary subunits in cardiac diseaseAl Katat, Aya 10 1900 (has links)
L’infarctus du myocarde (IM) survenant après l’obstruction de l’artère coronaire est la cause
principale des décès cardiovasculaires. Après l’IM, le coeur endommagé répond à l’augmentation
du stress hémodynamique avec une cicatrice et une hypertrophie dans la région non-infarcie du
myocarde. Dans la région infarcie, la cicatrice se forme grâce au dépôt du collagène. Pendant
formation de la cicatrice, les cardiomyocytes ventriculaires résidant dans la région non-infarcie
subissent une réponse hypertrophique après l’activation chronique due au système sympathique et
à l’angiotensine II. La cicatrisation préserve l’intégrité structurale du coeur et l'hypertrophie des
cardiomyocytes apporte un support ionotropique.
Le canal CaV1.2 joue un rôle dans la réponse hypertrophique après l’IM. L’activation du
CaV1.2 déclenche la signalisation dépendante de Ca2+ induisant l’hypertrophie. Cependant, il est
rapporté que l’ouverture des canaux potassiques (KATP) ATP sensitifs joue un rôle sélectif dans
l’expansion de la cicatrice après IM. Malgré leur expression dans les coeurs mâles, les KATP
fournissent une cardioprotection sexe dépendante limitant l’expansion de la cicatrice chez les
femelles.
L’administration de rapamycine aux rates ayant subi un infarctus produit l’expansion de la
cicatrice, soutenant la relation possible entre la cible de rapamycine, mTORC1 et les KATP dans la
cardioprotection sexe spécifique.
Effectivement, dans les cellules pancréatiques α, la signalisation mTORC1 était couplée à
l'activation du KATP. Cependant, le lien entre mTORC1 et les canaux KATP dans le coeur reste
inconnu. L'objectif de la thèse est d’examiner le rôle des canaux ioniques dans le remodelage
cardiaque post-IM, surtout des canaux calciques dans l'hypertrophie et d'élucider la relation entre
les KATP et mTORC1.
L’hypothèse première teste que l’hypertrophie médiée par le système sympathique des
cardiomyocytes ventriculaires des rats néonataux (NRCM) produit une augmentation de l’influx
calcique après une augmentation des sous-unités du CaV1.2. Le traitement de norépinéphrine (NE)
quadruple l’amplitude du courant calcique type L et double l’expression protéique des sous unités
de CaVα2δ1 et CaVβ3. L’hypertrophie des NRCM au NE s’associe à une augmentation de la
phosphorylation de la Kinase ERK 1/2. Le β1-bloqueur metoprolol et l’inhibiteur
ii
de ERK1/2 diminuent l’effet de NE sur CaVα2δ1. Cependant, l’augmentation de CaVβ3 et de la
réponse hypertrophique persiste. Ainsi, le signal β1-adrenergique à travers ERK augmente les
sous-unités CaVα2δ1 outre l’hypertrophie.
L’autre hypothèse examine la spécificité du sexe sur l’expansion cicatricielle médiée par
rapamycine et l’influence de mTOR sur l’expression de KATP. Rapamycin augmente la surface de
la cicatrice et inhibe la phosphorylation de mTOR chez les coeurs de femelles. Dans les coeurs des
deux sexes, la phosphorylation de mTOR et l’expression de KATP, Kir6.2 et SUR2A sont
similaires. Cependant, une grande inactivation de la tubérine et une faible expression de raptor
sont détectées chez les femelles. Le traitement à l’ester de phorbol des NRCM induit
l’hypertrophie, augmente la phosphorylation de p70S6K et l’expression SUR2A. Le prétraitement
par Rapamycine atténue chacune des réponses. Rapamycin démontre un patron d’expansion
cicatriciel sexe spécifique et une régulation de phosphorylation de mTOR dans IM. Aussi,
l’augmentation de SUR2A dans les NRCM traités par PDBu révèle une interaction entre mTOR
et KATP. / Myocardial infarction (MI) secondary to the obstruction of the coronary artery is the main cause
of cardiovascular death. Following MI, the damaged heart adapts to the increased hemodynamic
stress via formation of a scar and a hypertrophic response of ventricular cardiomyocytes in the
non-infarcted myocardium. In the infarcted region, a scar is formed via the rapid deposition of
collagen. With ongoing scar formation, ventricular cardiomyocytes in the non-infarcted
myocardium undergo a hypertrophic response secondary to the chronic activation by the
sympathetic system and angiotensin II. Collectively, scar formation and cardiomyocyte
hypertrophy preserve the structural integrity of the heart and provide inotropic support,
respectively.
CaV1.2 channels play a significant role in the hypertrophic response post-MI. Notably, the
activation of CaV1.2 channel triggers Ca2+-dependent signaling that induces hypertrophy. By
contrast, the opening of ATP-sensitive potassium (KATP) channels was shown to partake in
selective scar expansion following MI. Notwithstanding its expression in male hearts, KATP
channels endow a sex-dependent cardioprotection limiting scar expansion selectively in females.
Moreover, administration of the macrolide rapamycin to the infarcted female rat heart led to scar
expansion, supporting the possible relationship between the target of rapamycin, mTORC1 and
KATP channels in providing sex-specific cardioprotection. Indeed, in pancreatic-α cells, mTORC1
signaling was coupled to KATP channel activation. However, whether mTORC1 targets KATP
channels in the heart remains unknown. Thus, the AIM of the thesis was to explore the role of ion
channels in cardiac remodeling post-MI by specifically addressing the role of Ca channels in
cardiomyocyte hypertrophy and elucidate the potential relationship between KATP channels and
mTORC1 signaling.
The first study tested the hypothesis that hypertrophied neonatal rat ventricular
cardiomyocytes (NRVMs) following sympathetic stimulation translated to an increase in calcium
influx secondary to the augmentation of CaV1.2 channel subunits. NE treatment led to a 4-fold
increase of L-type Ca2+ peak current associated with a 2-fold upregulation of CaVα2δ1 and CaVβ3
protein subunits in hypertrophied NRVMs. The hypertrophic response of NNVMs to NE was
associated with the increased phosphorylation of extracellular regulated kinase (ERK1/2). The β1-blocker metoprolol and the ERK1/2 inhibitor suppressed NE-mediated protein upregulation of
CaVα2δ1 whereas CaVβ3 upregulation and the hypertrophic response persisted. Therefore,
sympathetic mediated β1-adrenergic signaling via ERK selectively upregulated the CaVα2δ1
subunit independent of NRVM hypertrophy.
The second study tested the hypothesis that rapamycin-mediated scar expansion was sexspecific and mTOR influenced KATP channel subunit expression. Rapamycin administration
translated to scar expansion and inhibited mTOR phosphorylation exclusively in females. In
normal adult male and female rat hearts, mTOR phosphorylation and protein levels of KATP
channel subunits Kir6.2 and SUR2A were similar. However, greater tuberin inactivation and
reduced raptor protein levels were detected in females. NRVMs treated with a phorbol ester
induced hypertrophy, increased p70S6K phosphorylation and SUR2A protein levels and
rapamycin pretreatment attenuated each response. Thus, rapamycin administration to MI rats
unmasked a sex-specific pattern of scar expansion and highlighted the disparate regulation of
mTOR phosphorylation. Moreover, rapamycin-dependent upregulation of SUR2A in PDButreated NRVMs revealed a novel interaction between mTOR and KATP channel subunit expression
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