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1	The Estrous Cycle Modulates Contractile Function and Ca2+ Homeostasis In Isolated Mouse Ventricular Myocytes MacDonald, Jennifer 09 July 2012 (has links) This study investigated the effect of the mouse estrous cycle on myocyte contractile function. Female mice displayed irregular estrous cycles unless induced to cycle though exposure to bedding collected from cages housing male mice. Fractional shortening and Ca2+ transient amplitudes were significantly larger in myocytes isolated from mice in estrus. The effect of the estrous cycle was preserved even when cells were paced at a more physiological frequency and in the presence of ?-adrenergic stimulation. Myofilament Ca2+ sensitivity was also modified by the estrous cycle, as myofilaments isolated from the hearts of mice in estrus were least sensitive to Ca2+. However, acute application of either 17?-estradiol or the G protein-coupled estrogen receptor (GPER) agonist, G-1, had no effect on contractions or Ca2+ transients, regardless of the estrous stage. Thus, physiological fluctuations in sex hormone levels modify myocyte contractions, Ca2+ release, and myofilament Ca2+ sensitivity. estrous cycle ventricular myocyte calcium homeostasis contractile function sex hormones
2	Compartmentation of the β-adrenergic signal by phosphodiesterases in adult rat ventricular myocytes Schwartz, Jesse Milo 18 January 2008 (has links) Previous studies have suggested that phosphodiesterase (PDE) hydrolysis of cyclic adenosine monophosphate (cAMP) is important in the generation of specific and segregated cAMP signals within cells. The purpose of this study was to determine if PDE compartmentation was important in cardiac ventricular myocytes. Therefore, we investigated the effects of β-adrenergic (β-AD) stimulation with isoproterenol in the presence of cilostamide, a PDE3 inhibitor, or Ro 20-1724, a PDE4 inhibitor, on unloaded cell shortening, L-type calcium currents and intracellular calcium levels in freshly dissociated adult rat ventricular myocytes. PDE3 inhibition resulted in a 216 ± 17 % (n=8) increase in unloaded cell shortening after ten minutes of isoproterenol exposure, whereas isoproterenol produced a statistically smaller increase of 155 ± 12 % (n=8) in the presence of PDE4 inhibition. There was a non-significant trend for PDE4 inhibition to produce larger increases in calcium currents (179 ± 17 % (n=4) of controls) than PDE3 inhibition (155 ± 10 % (n=6) of controls). Both PDE3 and PDE4 inhibitors had similar effects on isoproterenol-stimulated increases of calcium transient amplitude with values of 209 ± 14 % (n=8) and 185 ± 12 % (n=8), respectively. Determination of sarcoplasmic reticulum (SR) calcium load using caffeine pulse experiments demonstrated that PDE4 inhibition and isoproterenol superfusion produced a statistically larger increase in SR-calcium loading (139 ± 9 % (n=6)) than PDE3 inhibition and isoproterenol superfusion (113 ± 9 % (n=6)). These results suggest that PDE3 may be active in proximity to the contractile apparatus of cardiac myocytes, whereas PDE4 may be localized in a domain consisting of the L-type calcium channel and junctional SR. Consequently, our study provides functional evidence for differential localization of PDE isoforms in cardiac myocytes. / Thesis (Master, Physiology) -- Queen's University, 2008-01-18 10:14:29.671 / CIHR OGS OGSST phosphodiesterase cAMP compartmentation adult rat ventricular myocyte patch clamp β-adrenergic
3	L'implication des tubules T dans la repolarisation ventriculaire chez la souris Mercier, Frédéric January 2007 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal. Tubules T T-tubules Repolarisation Cardiac repolarization Canaux potassiques Potassium channel Myocytes ventriculaires Ventricular myocyte Souris Mouse
4	The role of vascular endothelial growth factor in heart failure with preserved ejection fraction Glazyrine, Vassili 08 April 2016 (has links) To this day heart failure with preserved ejection fraction (HFpEF) remains a poorly understood malady. Half of all heart failure (HF) cases are HFpEF, and the prevalence of HF is on the rise. Unlike HF with reduced ejection fraction, HFpEF has no treatment options and is often times difficult to diagnose because victims of HFpEF often have pre-existing conditions. Vascular endothelial growth factor (VEGF) has been implicated in maintaining myocardial health and is thought to play a role in HFpEF. We sought to test the hypothesis that VEGF-A plays a role in HFpEF in a hypertensive murine model of HFpEF. Using Western blot analysis we found that there was an up regulation of VEGF-A in the homogenized left ventricle (LV) of our HFpEF mice. Unexpectedly, there was a down regulation of VEGF-A in the homogenized tissue from the aorta in those mice. To study the circulating levels of VEGF in our HFpEF mice we used an ELISA. We found that our HFpEF mice had similar levels of circulating VEGF as our control. This suggests that VEGF has paracrine/autocrine role in our HFpEF model rather than endocrine, like our human data suggested. To identify the cells responsible for the expression profile we saw in the homogenized tissue data we looked at the response of adult rat ventricular myocytes (ARVM) and vascular smooth muscle cells (VSMC) to aldosterone stimulation at short (1hr) and long (24hr) time points at both physiological (50nm) and pathological (1μm) concentrations. To do this analysis we recruited the help of Western blot, ELISA and RT-PCR techniques to construct a consistent VEGF expression profile. The Western blot ARVM data showed statistically significant (P<0.05) increase in VEGF-A to pathological doses of aldosterone, especially at the longer time point. When we tested the VSMC using Western blot analysis, we found that the trend of our n=1 sample suggested a strong response to the physiological dose of aldosterone in the short term. Using the more sensitive ELISA technique to measure the VEGF content of our VCMS we increasing our sample size to n=4 and found no statistically significant (p=NS) response to aldosterone stimulation from the VSMC. However, looking at the trends in the data it is clear that VSMC increases VEGF in response to long-term physiological doses of aldosterone. This is contrary to what we found using Western blot analysis, so we queried the VEGF mRNA from the VSMC to settle the score. Unfortunately, this too proved fruitless. The RT-PCR data was not significant and the trend was that of the ARVM expression profile. We initially turned to VSMC because we hypothesized that they could contribute to the paracrine/autocrine activity similar to what we saw in the LV from the ARVM. It is unclear if VSMC play a role in HFpEF progression, but their lack of consistent response to aldosterone could potential explain the down regulation of VEGF-A we observed in the aorta of our HFpEF mice. We initially sough to test the hypothesis that VEGF-A plays a role in our HFpEF mouse model, what we found was that ARVM contribute to localized VEGF-A increased production in the LV while in the aorta there is a down regulation of VEGF-A in our HFpEF model, we are unable to make any conclusion about VSMC response to aldosterone because of insufficient sample size. Thus in conclusion, it appears that VEGF-A does play a role in our HFpEF model specifically in a paracrine/autocrine manner in the LV where the ARVM contributes to the increased production of the cytokine. Medicine HFpEF Adult rat ventricular myocyte Heart failure Preserved ejection fraction Vascular endothelial growth factor Vascular smooth muscle cells
5	L'implication des tubules T dans la repolarisation ventriculaire chez la souris Mercier, Frédéric January 2007 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal Tubules T T-tubules Repolarisation Cardiac repolarization Canaux potassiques Potassium channel Myocytes ventriculaires Ventricular myocyte Souris Mouse
6	Arritmogenese por catecolaminas em miocardio atrial e ventricular de ratos : metodologia e tipos de adrenoceptores envolvidos / Arrythmogenesis by catecholamines in atrial and ventricular rat myocardium : methodology and types of adrenoceptors Boer, Denile Cominato, 1980- 30 January 2006 (has links) Orientadores: Jose Wilson Magalhães Bassani, Rosana Almada Bassani / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Eletrica e de Computação / Made available in DSpace on 2018-08-06T07:47:18Z (GMT). No. of bitstreams: 1 Boer_DenileCominato_M.pdf: 557480 bytes, checksum: e378c01e865d04a595d3f0e7ad3c60dd (MD5) Previous issue date: 2006 / Resumo: Embora haja demonstração de que a estimulação simpática tenha efeito facilitatório sobre a indução de atividade espontânea em miocárdio há controvérsia sobre a participação dos tipos de adrenoceptores na mediação deste efeito. No presente trabalho, descrevemos um método desenvolvido para determinação, em átrio esquerdo isolado (AE) de rato, da relação concentração-efeito para agentes que exercem efeito arritmogênico por aumento da mobilização celular de 'Ca POT. 2+¿. O método baseou-se na interposição de pausas estimulatórias, durante as quais registraram-se contrações espontâneas (CE), precedidas ou não por trens estimulatórios de alta freqüência (5 Hz). O protocolo estimulatório foi repetido na presença de diferentes concentrações de agonistas. Para cada concentração de agonista, a resposta arrítmica foi considerada como a soma dos números de CE/min, no total de preparações. Foi analisada também a resposta inotrópica, como sendo o incremento de força ou encurtamento de pico, desenvolvidos em AE e miócitos ventriculares (MV), respectivamente. A relação foi ajustada por uma função sigmóide para cálculo de Min (i.e., valor da variável na ausência do agonista), Rmax (resposta máxima) e pD2 (-log da concentração do agonista que produziu uma resposta igual a 50% de Rmax). Este método foi aplicado no estudo dos tipos de adrenoceptores envolvidos na resposta arrítmica a catecolaminas em AE e MV. A Rmax inotrópica à ativação de adrenoceptores 'alfa IND. 1¿ + 'beta IND. 1¿ foi comparável àquela por ativação de apenas receptores 'beta IND. 1¿, em ambos AE e MV. Já a ativação de adrenoceptores 'alfa IND. 1¿ produziu uma Rmax inotrópica de apenas metade daquela observada pela estimulação 'alfa IND. 1¿ + 'beta IND. 1¿. Da mesma forma, a resposta arrítmica foi semelhante para estimulação de adrenoceptores a1+ß1 e de apenas receptores 'beta IND. 1¿. Entretanto, nenhuma resposta foi obtida pela estimulação de receptores adrenérgico do tipo 'alfa IND. 1¿. Estes resultados indicam que a estimulação de adrenoceptores 'alfa IND. 1¿, apesar de evocar uma resposta inotrópica positiva em ambos AE e MV, não é arritmogênica. A ativação do tipo 'beta¿, por outro lado, parece ser a principal via para estimulação inotrópica simpática e na indução de arritmias. Além disso, concluímos que parece existir antagonismo funcional entre os subtipos de adrenoceptores 'beta¿, manifestado por ações pró- e anti-arrítmicas dos subtipos 'beta IND. 1¿ e 'beta IND. 2¿, respectivamente, em miocárdio (tanto atrial, quanto ventricular) de rato / Abstract: Although it has been shown that sympathetic stimulation facilitates the appearance of myocardial spontaneous activity, it is still not clear which types of adrenoceptors mediate this effect. In this study, we describe a method developed for determination, in isolated rat atria (AE), of the concentration-effect relationship for arrhythmogenic agents that act via promotion of cell 'Ca POT. 2+¿ overload. The method was based on the interposition of stimulatory rest periods, during which spontaneous contractions (CE) were recorded, preceded or not by high frequency (5 Hz) stimulus trains. The stimulation protocol was applied at each agonist concentration, and the arrhythmic response was taken as the sum of the number of CE/min in all preparations. The positive inotropic response was considered as the agonist-dependent increment of developed force or peak shortening in AE and isolated ventricular myocytes (MV), respectively. Concentration-effect curves were determined by fitting a sigmoid function, from which the following parameters were estimated: Min (i.e., value of the variable in the absence of the agonist), Rmax (maximal response) e 'pD IND. 2¿ (-log of the molar agonist concentration that evokes a response equal to 50% of Rmax). This method was applied to investigate the adrenoceptor types involved in the mediation of catecholamine-induced arrhythmogenesis in AE and MV. Inotropic Rmax to activation of 'alfa IND. 1¿ + 'beta IND. 1¿ adrenoceptors was comparable to that of activation of solely 'beta IND. 1¿ adrenoceptors in both AE and MV. However, Rmax to selective 'alfa IND. 1¿ adrenoceptor activation was only half of that produced by 'alfa IND. 1¿ + 'beta IND. 1¿ adrenoceptor stimulation. The arrhythmic responses to 'alfa IND. 1¿ + 'beta IND. 1¿ and 'beta IND.1¿ receptor stimulation were similar, but selective a1 adrenoceptor activation was unable to evoke any spontaneous activity. The results indicate that a1 adrenoceptors, although able to mediate stimulation in both AE and MV, are not involved in arrhythmogenesis. 'beta¿-adrenoceptor activation, thus, seems the main type involved in both inotropic and arrhythmic responses to catecholamines. In addition, our results point out a functional antagonism between 'beta¿-adrenoceptor subtypes: i.e., pro- and anti-arrhythmic effects mediated by 'beta IND. 1¿ and 'beta IND. 2¿-adrenoceptors, respectively in both atrial and ventricular rat myocardium / Mestrado / Engenharia Biomedica / Mestre em Engenharia Elétrica Arritmia Miocárdio Catecolaminas Adrenoceptores alfa Adrenoceptores beta Atrial myocardium Ventricular myocyte Arrythmias Catecholamines Adrenergic receptors Eletrical stimulation Concentration-effect curve
7	Multiphysics model of a cardiac myocyte: A voltage-clamp study Krishna, Abhilash 24 July 2013 (has links) We develop a composite multiphysics model of excitation-contraction coupling for a rat ventricular myocyte under voltage clamp (VC) conditions to: (1) probe mechanisms underlying the response to Ca2+-perturbation; (2) investigate the factors influencing its electromechanical response; and (3) examine its rate-dependent behavior (particularly the force-frequency response (FFR)). Motivation for the study was to pinpoint key control variables influencing calcium-induced calcium-release (CICR) and examine its role in the context of a physiological control system regulating cytosolic Ca2+ concentration and hence the cardiac contractile response. Our cell model consists of an electrical-equivalent model for the cell membrane and a fluid-compartment model describing the flux of ionic species between the extracellular and several intracellular compartments. The model incorporates frequency-dependent calmodulin (CaM) mediated spatially heterogenous interaction of calcineurin (CaN) and Ca2+/calmodulin-dependent protein kinase-II (CaMKII) with their principal targets and accounts for rate-dependent, cyclic adenosine monophosphate (cAMP)-mediated up-regulation. We also incorporate a biophysical model for cardiac contractile mechanics to study the factors influencing force response. The model reproduces measured VC data published by several laboratories, and generates graded Ca2+-release with high Ca2+ gain by achieving negative feedback control and Ca2+-homeostasis. We examine the dependence of cellular contractile response on: (1) the amount of activator Ca2+ available; (2) the type of mechanical load applied; (3) temperature (22 to 38ºC); and (4) myofilament Ca2+ sensitivity. We demonstrate contraction-relaxation coupling over a wide range of physiological perturbations. Our model reproduces positive peak FFR observed in rat ventricular myocytes and provides quantitative insight into the underlying rate-dependence of CICR. The role of Ca2+ regulating mechanisms are examined in handling induced Ca2+-perturbations using a rigorous cellular Ca2+ balance. Extensive testing of the composite model elucidates the importance of various direct and indirect modulatory influences on the cellular twitch-response with wide agreement with measured data on all accounts. We identify cAMP-mediated stimulation, and rate-dependent CaMKII-mediated up-regulation of Ca2+-trigger current (ICaL) as the key mechanisms underlying the aforementioned positive FFR. Our model provides biophysically-based explanations of phenomena associated with CICR and provides mechanistic insights into whole-cell responses to a wide variety of testing approaches used in studies of cardiac myofilament contractility. multiphysics model excitation-contraction coupling rat ventricular myocyte voltage clamp electromechanical FFR force-frequency response CICR calcium-induced calcium-release myofilament contraction

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