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MOLECULAR AND PHYSIOLOGICAL STUDIES OF ELECTROLYTE AND FLUID TRANSPORT PERTURBATIONS IN NKCC1 AND NHE3 DEFICIENT MICEFlagella, Michael 11 October 2001 (has links)
No description available.
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OCT1-mediated cellular drug uptake and interactions between drug transport and drug metabolism / OCT1-mediated cellular drug uptake and interactions between drug transport and drug metabolismSaadatmand, Ali Reza 25 October 2012 (has links)
No description available.
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Single Nucleotide Polymorphisms Linked to Essential Hypertension in Kasigau, KenyaFreeman, Julia Carol 01 December 2013 (has links)
Hypertension, or high blood pressure (BP), is an ever-growing epidemic in the developing world. Understanding the genetics behind essential hypertension (EH), or hypertension with no known cause, is especially important. In this study, three single nucleotide polymorphisms (SNPs) known to be linked to an increase in susceptibility to EH were quantified from a cohort of Kenyans living in the Kasigau region. The SNPs are located in three genes that are part of the renin angiotensin system, the primary regulatory pathway in humans controlling BP. They include: AGT (rs699), AGTR1 (rs5186), and HSD11β2 (rs5479). Overall, by using a fluorescent-based RT-PCR technique, the genotype distribution of AGT (rs699) was 0.63 C/C, 0.34 C/T, and 0.03 T/T. When evaluated as normotensive, prehypertensive, Stage I, or Stage II categories the allele frequencies for f(C)= 0.77,0.85,0.81, 0.77, respectively, and demonstrated Hardy Weinberg Equilibrium (HWE) as assessed by Χ2, p < 0.05. The genotype distribution of AGTR1 (rs5186) was 0.96 A/A, 0.03 A/C, and 0.00 C/C and the genotype distribution of HSD11β2 (rs5479) was 0.46 A/A, 0.46 A/C, and 0.08 C/C. The majority of genotype frequencies for each SNP were in HWE, with the exception of the AGT (rs699) SNP found in the sublocation of Bughuta suggesting other evolutionary selective pressures may be at work in this subpopulation. The high prevalence of the susceptible C allele for AGT (rs699) likely implies it is a critical factor in the high prevalence of EH observed in this population.
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A angiotensina II promove o aumento da atividade do NHE1 pela via de sinalização intracelular da P38 MAPK e promove apoptose por alcalinização do citosol em podócitos. / A Angiotensina II promove o aumento da atividade do NHE1 pela via de sinalização intracelular da p38 mapk e promove apoptose por alcalinização do citosol em podócitos.Cardoso, Vanessa Gerolde 26 October 2016 (has links)
Em concentrações elevadas no plasma ou no tecido renal a Angiotensina II (Ang II) induz, alterações na hemodinâmica renal, injúria glomerular, aumento da síntese de componentes da matriz extracelular glomerular, estresse oxidativo e apoptose de células glomerulares, incluindo os podócitos. Os podócitos possuem um sistema reninaangiotensina (SRA) próprio e expressam os receptores AT1 e AT2 para o peptídeo, além do trocador Na+/H+ isoforma 1 (NHE1). O NHE1 está envolvido com a resistência e indução de apoptose, controle do volume celular e manutenção do fenótipo celular. Assim, o objetivo deste estudo foi investigar em podócitos, o papel da Ang II na indução de apoptose, e os eventos intracelulares associados à atividade do NHE1 nesta condição. Nossos resultados indicam que o tratamento com Ang II em alta concentração por 24 horas promove apoptose em podócitos. Nesta condição o NHE1, promove ativação da via de sinalização intracelular p38 MAPK e aumenta a atividade do NHE1 levando a alcalose, ativação da Bax e apoptose nos podócitos. / It has been observed that high plasma, or kidney tissue concentrations of angiotensin II (Ang II) leads to changes in renal hemodynamics, severe glomerular injury, increased synthesis of glomerular extracellular matrix components, oxidative stress and apoptosis in glomerular cells, including podocyte and mesangial cells. Podocytes a local renin-angiotensin system (RAS), expresses the AT1 and AT2 receptors for Ang II and the Na + / H + exchanger (NHE1). The NHE1 is involved with resistance and induction of apoptosis, cell volume control and maintenance of cell phenotype. Thus, the goal of this study was to investigate in podocytes the role of Ang II in the induction of apoptosis, and intracellular events linked to the NHE1 activity in this condition. Our results indicate that the treatment with Ang II, in a high dose, for 24 hours induces apoptosis in podocytes, and promotes oxidative stress. However, the activation of NADPH oxidase subunits Nox4 and p22 (phox) and pro- apoptotic pprotein Bax, came before the late apoptosis observed in 24 hours of treatment with Ang II. Under physiological conditions, the NHE1 activity contributes to cell survival by preventing cytosolic acidification. Moreover, Ang II via the AT1 receptor, activates intracellular signaling pathway p38 MAPK and increases the NHE1 activiy leading to alkalosis, Bax activation and apoptosis in podocytes.
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The Role of the Na+/H+ Exchanger isoform 1 in cardiac pathologyMraiche, Fatima 11 1900 (has links)
The mammalian Na+/H+ exchanger isoform 1 (NHE1) is a ubiquitously expressed membrane protein that regulates intracellular pH. In the myocardium, NHE1 has been implicated in ischemia/reperfusion (I/R) and cardiac hypertrophy (CH). Hormonal, autocrine and paracrine stimuli, acidosis, cardiotoxic metabolites released during I/R and CH increases NHE1 protein expression and activity. The involvement of NHE1 in CH and I/R has been further supported with the use of NHE1 inhibitors, which have been
beneficial in the prevention/regression of several models of CH and I/R injury. Despite the fact that elevation of NHE1 expression and activity have been demonstrated in several models of heart disease, it was unclear whether elevation of NHE1 protein expression was sufficient to induce a specific cardiac pathology, or whether activation of the protein was required. To understand the direct role of NHE1 in CH and I/R, an in vivo and in vitro gain-of-function model, expressing varying levels and activities of NHE1
were examined. In vivo, our N-line mice expressed wild type NHE1 and our K-line mice expressed constitutively active NHE1. In vitro, neonatal rat ventricular cardiomyocytes were infected with the IRM adenovirus containing wild type NHE1 or the K-IRM adenovirus containing active NHE1. We demonstrated that expression of constitutively active NHE1 promotes CH to a much greater degree than expression of wild type NHE1 alone, both in vivo and in vitro. This NHE1-dependent hypertrophic response occurred
independent of signaling pathways involved in CH including, mitogen activated protein kinases, p90 ribosomal S6 kinase, calcineurin and glycogen synthase kinase. The NHE1-dependent hypertrophic effect also occurred independent of gender. In addition, the expression of active NHE1 increased the susceptibility of intact mice to neurohormonal stimulation and progressed the hypertrophic response. When these hearts expressing active NHE1 were subjected to I/R using the ex vivo working heart perfusion model, fatty
acid (FA) oxidation and glycolysis rates increased, thus generating greater ATP
production rates. This was associated with cardioprotective effects in the myocardium, as well as a more energetically efficient myocardium. Expression of the endoplasmic reticulum (ER) stress response proteins, calreticulin and PDI were also shown to be increased relative to controls, and may contribute to the cardioprotection observed. We demonstrate that active NHE1 induces cardioprotection and alters cardiac metabolism in working hearts subjected to I/R. Overall, our results suggest that expression of active NHE1 has a double edged sword effect, on one side it induces CH while on the other
side, it protects the heart against I/R injury.
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The Role of the Na+/H+ Exchanger isoform 1 in cardiac pathologyMraiche, Fatima Unknown Date
No description available.
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