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MODULATION OF GENE EXPRESSION TO CONTROL HIGH BLOOD PRESSUREJian Xu Unknown Date (has links)
Hypertension is a major health problem worldwide. In 1999-2000, 29% or 3.6 million Australians aged 25 yrs and over had high blood pressure (> 140 / 90 mmHg) or were on medication for the condition. It is estimated that about one billion of the world’s population has hypertension and that this will increase to 1.56 billion by 2025. Although antihypertensive drugs have been relatively successful in attenuating elevated blood pressure (BP) and in reducing adverse outcomes, control of BP depends on continuation of therapy. Drugs may have undesirable side effects which diminish compliance and BP may be resistant to treatment. Gene transfer approaches may potentially provide a tool to control BP. RNA interference (RNAi) is a new tool for the study of gene function, producing specific down regulation of protein expression. I tested the hypothesis that angiotensin II type 1 receptor (AT1R) inhibition using RNAi technology would result in sustained reduction of blood pressure in the spontaneously hypertensive rat (SHR). To enable in vivo gene delivery into animal models of hypertension, I have developed small interfering RNA (siRNA) inhibition of AT1R mRNA delivered in a DNA plasmid (pPlasRi-AT1R). Transfection of the recombinant plasmid into a mammanlian cell line resulted in strong expression of the transgenes and a significant reduction in the level of AT1R expression. pPlasRi-AT1R plasmid DNA was intravenously injected into adult spontaneously hypertensive rats at 1.5mg/kg. Telemetric blood pressure transducers were implanted into eight month old male SHR for long-term recording of blood pressure. Twenty-four hour intra-arterial blood pressure was measured weekly. After a 2 week control period animals were injected via the tail vein with AT1R DNA plasmid (n=6), control plasmid containing green fluorescent protein (GFP, n=6) or saline (NaCl, n=6)) and followed for 8 weeks. Additional animals were treated with the DNA plasmid or saline and euthanized at 0, 1, 2, 4, 6 and 8 weeks for determination of tissue AT1R expression using RT-PCR. Aims: (i) To develop an accurate radio-telemetry BP recording method in the SHR, (ii) To design rational siRNA sequences and select of methods for effective silencing in vitro, (iii) To measure the expression of DNA delivered RNAi-AT1R plasmid in vitro and in vivo, and (iv) To determine the in vivo effect of systemic delivery of DNA AT1R plasmid on BP. Methods: Continuous 24 h arterial BP was recorded by radio-telemetry using Maclab hardware and a transducer fixed in the abdominal aorta connected to a transmitter in the abdominal cavity. Data was analyzed using software specifically written for the project. Reverse transcriptase polymerase chain reaction (RT-PCR) was used to detect AT1R transcripts in various tissues following in vivo AT1R gene delivery. BP was monitored weekly for 8 weeks following 1.5 mg DNA delivered RNAi -AT1R plasmid delivery into 8-month-old SHR by tail vein injection. SHR injected with DNA enhanced green fluorescent protein (eGFP) plasmid or saline served as controls. Results: Weekly 24 h BP was successfully recorded for up to 10 weeks. Following transfection with DNA delivered RNAi -AT1R plasmid in vitro, expression of AT1R in transfected cells was determined by western blot, immunofluorescence and flow cytometry. Furthermore, RT-PCR was employed to confirm the AT1R mRNA levels. Following systemic delivery of RNAi-AT1R plasmid into middle-aged SHR, in animals injected with RNAi plasmid control blood pressure (150 +/- 1mmHg) was reduced 1week after injection (145 +/- 0.5 mm Hg, p<0.05) with maximal reduction 4 weeks after injection (127 +/- 1 mmHg, p<0.01). Blood pressure returned to control level by 8 weeks. There was no change in blood pressure in GFP plasmid or saline injected animals. Tissue expression of AT1R in heart, lung, kidney and liver was reduced following AT1R plasmid injection and was associated with reduction in pressure (r=0.99, p<0.05 for each tissue). There were no significant adverse clinical or biochemical effects. AT1R silencing resulted in significant blood pressure reduction in 8 month old male SHR for approximately 2 months. There was a significant decrease in endogenous AT1R gene expression in tissues as determined by RT-PCR. The results suggest that the systemic delivery of siRNA against AT1R mRNA by DNA-based plasmid vector may have potential for gene therapy of hypertension and that further studies with the plasmid packaged into a recombinant DNA vector for a long-lasting siRNA effect are warranted. RNAi technology with inhibition of AT1R offers a potential new paradigm for the management of high blood pressure. Conclusions: Transfection of cells with DNA delivered RNAi -AT1R plasmid resulted in detection of AT1R transcript in transfected cells confirming a silencing effect in vitro. Significant BP reduction was induced in a group of middle-aged SHR following systemic delivery of DNA plasmid incorporating the siRNA against the AT1R gene. This correlated with significant decrease of endogenous AT1R in various tissues which supported the role of the gene therapy approach in producing a reduction in BP. In summary, the thesis lays the foundation for DNA delivered RNAi mediated AT1R gene delivery as a therapeutic strategy for hypertension. Future work should consider the possible benefits of DNA vector driven AT1R shRNA plasmid containing a regulated tissue-selective promoter and explore approaches which might extend the time during which the hypotensive effect is present
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Short-term Calorie Restriction Improves Post-ischemic Recovery in the Spontaneously Hypertensive RatLozyk, Mira D Unknown Date
No description available.
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A MITRAL VALVE PROLAPSE STUDY USING ELECTRICALLY INDUCED ARRHYTHMIA WITH NOREPINEPHRINE ADMINISTRATION TO PRODUCE PROLAPSING IN SHR AND WKY FEMALE RATSLangworthy, Annissa R. 05 October 2006 (has links)
No description available.
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Úloha mitochondriálního genomu v ischemicko-reperfúzním poškození srdce u spontánně hypertenzních potkanů (SHR) adaptovaných na hypoxii. / Role of mitochonodrial genome in myocardial ischemia-reperfusion injury of spontaneously hypertensive rats (SHR) adapted to hypoxia.Brabcová, Iveta January 2013 (has links)
Diplomová práce Abstract - Iveta Brabcová Abstract Ischemia-reperfusion heart injury is one of the most significant diseases affecting mankind and therefore current research pays more attention to its prevention and knowledge of the possible mechanisms which protect the heart. Adaptation to hypoxia has been known for several decades as a cardioprotective intervention but the main issues of protective mechanisms which are induced by the adaptation are still not completely understood. An important role of mitochondria as the main producers of energy and reactive oxygen species which can play a signalizing role in these mechanisms is confirmed in many studies. For this reason a special conplastic strain SHR/OlaIpcv-mtBN/Crl was created. This strain carries the nuclear genome of spontaneously hypertensive rat (SHR) and the mitochondrial genome of normotensive, highly resistant strain Brown Norway (BN). The aim of this study was to compare the expression of selected gene transcripts in the area of energy metabolism, of genes which are related to mitochondrial biogenesis and signaling and antioxidant systems. Comparing the expression was analyzed between strains and after chronic hypoxia adaptation, which cause cardioprotective phenotype in both of these strains. Our results showed a different expression HIF-1α...
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Synchronizace perifernich cirkadiannich hodin během ontogeneze / Synchronization of peripheral circadian clocks during ontogenesis.Paušlyová, Lucia January 2013 (has links)
The circadian system is an important coordinator of physiological functions of a mammalian organism. It comprises of a central oscillator represented by cells in the suprachiasmatic nuclei of hypothalamus (SCN) and peripheral oscillators in most if not all cells of peripheral tissues. The peripheral oscillators, similarly to the central ones, generate circadian oscillations at the level of so called clock genes and their protein products. In peripheral tissues, oscillations in expression of the individual clock genes are autonomous, however, they need to be synchronized to ensure their robust rhythmic expression. The peripheral clocks are synchronized mainly by rhythmical signals from the SCN, including signals regulating food intake. Disturbances in the clock gene expressions, as well as impaired synchronization signals, can result in various pathophysiological states. Spontaneously hypertensive rat (SHR) strain is a convenient animal model to study potential connection between the disturbed circadian system and progressive development of hypertension and metabolical diseases in mammals. Various studies have shown differences in the rhythmical expression of clock genes between SHR strain and normotensive Wistar/Wistar-Kyoto strain. The aim of this thesis is to provide insight into the early...
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Distribuição diferencial e remodelamento dos elementos fibrilares da matriz extracelular no coração de ratos espontaneamente hipertensos / Differential distribution and remodelling of fibrillar elements of the extracellular matrix in the heart of spontaneously hypertensive ratGalhardo, Milene Sanches 30 January 2013 (has links)
A linhagem de ratos espontaneamente hipertensos (SHR) tem sido utilizada para como modelo animal para hipertensão humana, uma vez que estes animais desenvolvem pressóricos aumentados, hipertrofia ventricular esquerda, aumento de colágeno intersticial e disfunção diastólica. Embora o excesso de colágeno fibrilar tenha sido bem estudado neste modelo e esteja envolvido na insuficiência cardíaca observada, não há estudos quantitativos acurados (baseados na estereologia) para avaliar precisamente o volume tecidual ocupado pelo colágeno fibrilar e o remodelamento das fibrilas de colágeno segundo seu diâmetro uma vez que variações no diâmetro das fibrilas têm grande impacto funcional Mais ainda, nunca foi estudado neste modelo o remodelamento das fibras do sistema elástico (oxitalânicas, elaunínicas e elásticas propriamente ditas), que juntamente com o componente colagênico são responsáveis pelas características biomecânicas do tecido. Assim sendo, os corações de ratos Wistar (WIS), Wistar Kyoto (WKY) e SHR foram submetidos a análise hemodinâmicas e foram processados para microscopia de luz e eletrônica, segundo amostragem estereológica. Cortes corados com HE foram utilizados para avaliação do diâmetro dos cardiomiócitos e do volume absoluto do coração e do ventrículo esquerdo; cortes corados com Picrossirius-hematoxilina foram utilizados para a avaliação da fração de volume ocupada por colágeno no ventrículo esquerdo e volume absoluto de colágeno; cortes ultra-finos foram utilizados para avaliação do diâmetro das fibrilas de colágeno cortadas transversalmente e para avaliação da distribuição das fibras oxitalânicas, elaunínicas e elásticas. Os resultados mostram que a hipertrofia ventricular dos animais SHR deveu-se à hipertrofia dos cardiomiócitos associada à maior quantidade de colágeno fibrilar (3,8 x maior no SHR que no WIS). A análise ultraestrutural mostrou que as fibrilas de colágeno no endomísio variam, em nanômetros, de 31 a 53 nos animais WIS, de 36 a 67 nos WKY e de 31 a 85 nos SHR, com medianas respectivamente de 39,58, 48,38 e 54,39, sendo que do ponto de vista estatístico a distribuição dos diâmetros das fibrilas colágenas dos animais SRH é diferente das outras duas linhagens.A análise uttra-estrutural das fibras do sistema elástico mostrou que as fibras oxitalânicas, elaunínicas e elásticas apresentam uma distribuição diferencial nos diversos compartimentos da parede cardíaca dos animais, sendo que nas três linhagens há fibras elásticas propriamente ditas no endocárdio e epicárdio; no entanto, no perimísio as fibras elásticas e elaunínicas aparecem raramente nos ratos SRH e com maior freqüência nos WIS e WKY; no endomísio dos ratos SRH não foi possível observar a mesma riqueza de fibras elásticas e elaunínicas presentes nas outras linhagens, havendo assim um predomínio de fibras oxitalânicas no vi endomísio dos animais SHR. Os resultados mostram que, além das modificações quantitativas no conteúdo de colágeno no miocárdio do ventrículo esquerdo dos animais SHR, há também uma alteração qualitativa na população de fibrilas colagênicas que passa a ser constituída por fibrilas mais grossas. Mais ainda, os resultados mostram que, em relação às fibras do sistema elástico, a predominância de fibras oxitalânicas no endomísio dos animais SHR sugere que as forças de tensão maiores no coração destes animais modulem não somente o sistema colagênico mas também o sistema elástico no sentido de acumular fibras que suportam melhor as cargas, contribuindo para a perda da complacência da parede ventricular / The strain of spontaneously hypertensive rats (SHR) has been used as an animal model for human hypertension, since these animals develop increased blood pressure, left ventricular hypertrophy, increased interstitial collagen and diastolic dysfunction. Although excess fibrillar collagen has been well studied in this model and is involved in observed heart failure, there are no accurate quantitative studies (i.e., based on stereology) to precisely assess the volume of tissue occupied by fibrillar collagen neither the remodeling of collagen fibrils with respect to their diameters, and such studies are very important because variations in the diameter of the fibrils have a major functional impact. Moreover, the remodeling of elastic system fibers (oxytalan, elauninic and elastic proper), which together with the collagenous component are responsible for biomechanical features of the tissue, has never been studied in this model. Thus, the hearts of Wistar (WIS), Wistar Kyoto (WKY) and SHR rats went through hemodynamic analysis and were processed for light and electron microscopy, according to stereological sampling criteria. HE-stained sections were used to evaluate the diameter of the cardiomyocytes and the absolute volume of the heart while left ventricular sections stained by Picrosirius-hematoxylin were used to evaluate the volume fraction occupied by collagen in the left ventricle as well as its absolute volume of collagen; ultra-thin sections were used for evaluation of the diameter of transversally sectioned collagen fibrils and for evaluation of the distribution of oxytalan, elauninic and elastic proper fibers. The results show that the ventricular hypertrophy of SHR rats was due to cardiomyocyte hypertrophy associated with a higher amount of fibrillar collagen (3.8 times as high as in the WIS rats). The ultrastructural analysis showed that the collagen fibrils in the endomysium range in nanometers, from 31 to 53 in WIS animals, 36 to 67 in the WKY and 31 to 85 in SHR, with medians 39.58, 48.38 and 54.39, respectively. The distribution of diameters of collagen fibrils is statistically different in SRH animals when compared to the other two strains. The ultrastructural analysis of the fibers of the elastic system showed that oxytalan, elauninic and elastic fibers present a differential distribution across the various compartments of the heart wall of the animals. In the three strains there are elastic fibers proper in the endocardium and epicardium, while in the perimysium, the elastic fibers proper and the elauninic fibers rarely appear in SRH rats, being more frequent in WIS and WKY rats; the endomysium of SRH rats did not exhibit the same richness of elastic fibers proper and elauninic fibers present in other strains, occurring thus a predominance of oxytalan fibers in the endomysium of SHR rats. viii The results also show that, in addition to the quantitative changes in collagen content of left ventricular myocardium of SHR rats, there is a qualitative alteration in the population of collagen fibrils that is richer in thicker fibrils. Moreover, the results show that, with respect to the fibers of the elastic system, the predominance of the oxytalan fibers in the endomysium of SHR rats suggests that the higher tensile forces in the hearts of these animals modulate not only the collagenous system but also the elastic system, entailing accumulation of fibers suited to better support the loads, contributing to the loss of ventricular wall compliance
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Papel do antioxidante (vitamina C) na modulação da pressão sanguínea em ratos espontaneamente hipertensos (SHR) / The role of antioxidant (vitamin C) in the modulation of the blood pressure in spontaneously hypertensive rats (SHR)Milton Vieira Costa 13 April 2015 (has links)
Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / A hipertensão essencial humana, bem como a hipertensão desenvolvida em Ratos Espontaneamente Hipertensos (SHR), são caracterizadas pelo desenvolvimento de Pressão Arterial (PA) elevada na medida em que a idade avança, sem identificação da causa primária. Está bem estabelecido que este modelo animal apresenta estresse oxidativo (EOx) concomitante a hipertensão. O mecanismo pelo qual o antioxidante reduz a pressão não está claro, por essa razão, é necessário avaliar o comportamento destas enzimas envolvidas na homeostase da PA. Ratos Wistar-Kyoto (WKY) e SHR machos receberam ácido ascórbico, 200 mg / kg / dia por sonda orogástrica durante cinco semanas. A PA, a Hipertrofia Ventricular Esquerda (HVE), o Sistema Renina-Angiotensina (SRA), o Peptídeo Natriurético Atrial (ANP) e o EOx foram comparados entre os grupos por pletismografia, estereologia, microscopia confocal de varrimento a laser, microscopia eletrônica de transmissão, western blotting e análise do RT-qPCR. Os SHR tratados com ácido ascórbico reduziram a PA e a HVE. Além disso, as enzimas envolvidas na homeostase da PA, a renina e a Enzima Conversora de Angiotensina (ECA) normalizaram-se, bem como os Receptores tipo 1 de Angiotensina II (AT1). A grande quantidade de grânulos de ANP no grupo SHR foi reduzida pelo tratamento com ácido ascórbico. O balanço oxidativo foi restabelecido nos SHR tratados com este antioxidante. O EOx nos SHR eleva os níveis de renina e de PA. Estas espécies reativas de oxigênio podem ser envolvidas no mecanismo de sinalização para aumentar a expressão de ANP nos miócitos atriais. Estes dados também mostram que o tratamento com o antioxidante (vitamin C) reduz o EOx e normaliza a PA ao menos parcialmente pela redução de taxas de renina. / The essential hypertension, as well as the Spontaneously Hypertensive Rat (SHR), is characterized by the development of high BP (BP) with advancing age, with no identified primary cause. It is well established that this animal model presents OxS concomitant hypertension. The mechanism, by which the antioxidant reduces the pressure, is not clear, for this reason, it is necessary to evaluate the behavior of enzymes involved in the homeostasis of BP. Male Wistar-Kyoto (WKY) rats and SHR received ascorbic acid, 200 mg / kg / day by orogastric gavage with lasted five weeks. The BP, Left Ventricular Hypertrophy (LVH), renin-angiotensin system (RAS), Atrial Natriuretic Peptide (ANP) and OxS results have been extensively compared among groups by plethysmography, stereology, confocal laser scanning microscopy, transmission electron microscopy, western blotting and RT-qPCR analysis. The SHR treated with ascorbic acid reduced BP and LVH. Also, the enzymes involved in the homeostasis of BP, renin and Angiotensin Converting Enzyme (ACE) normalized, as well as Angiotensin II type 1 receptor (AT1R). The large amount of ANP granules in SHR group was reduced by treatment with ascorbic acid. Oxidative balance was reestablished in SHR treated with this antioxidant. OxS in SHR elevates renin levels and BP. These reactive oxygen species may be involved in the signaling mechanism for increased expression in ANP atrial myocytes. These data also show that treatment with antioxidant (vitamin C) reduces OxS and normalizes BP at least partly by reducing rates of renin.
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Papel do antioxidante (vitamina C) na modulação da pressão sanguínea em ratos espontaneamente hipertensos (SHR) / The role of antioxidant (vitamin C) in the modulation of the blood pressure in spontaneously hypertensive rats (SHR)Milton Vieira Costa 13 April 2015 (has links)
Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / A hipertensão essencial humana, bem como a hipertensão desenvolvida em Ratos Espontaneamente Hipertensos (SHR), são caracterizadas pelo desenvolvimento de Pressão Arterial (PA) elevada na medida em que a idade avança, sem identificação da causa primária. Está bem estabelecido que este modelo animal apresenta estresse oxidativo (EOx) concomitante a hipertensão. O mecanismo pelo qual o antioxidante reduz a pressão não está claro, por essa razão, é necessário avaliar o comportamento destas enzimas envolvidas na homeostase da PA. Ratos Wistar-Kyoto (WKY) e SHR machos receberam ácido ascórbico, 200 mg / kg / dia por sonda orogástrica durante cinco semanas. A PA, a Hipertrofia Ventricular Esquerda (HVE), o Sistema Renina-Angiotensina (SRA), o Peptídeo Natriurético Atrial (ANP) e o EOx foram comparados entre os grupos por pletismografia, estereologia, microscopia confocal de varrimento a laser, microscopia eletrônica de transmissão, western blotting e análise do RT-qPCR. Os SHR tratados com ácido ascórbico reduziram a PA e a HVE. Além disso, as enzimas envolvidas na homeostase da PA, a renina e a Enzima Conversora de Angiotensina (ECA) normalizaram-se, bem como os Receptores tipo 1 de Angiotensina II (AT1). A grande quantidade de grânulos de ANP no grupo SHR foi reduzida pelo tratamento com ácido ascórbico. O balanço oxidativo foi restabelecido nos SHR tratados com este antioxidante. O EOx nos SHR eleva os níveis de renina e de PA. Estas espécies reativas de oxigênio podem ser envolvidas no mecanismo de sinalização para aumentar a expressão de ANP nos miócitos atriais. Estes dados também mostram que o tratamento com o antioxidante (vitamin C) reduz o EOx e normaliza a PA ao menos parcialmente pela redução de taxas de renina. / The essential hypertension, as well as the Spontaneously Hypertensive Rat (SHR), is characterized by the development of high BP (BP) with advancing age, with no identified primary cause. It is well established that this animal model presents OxS concomitant hypertension. The mechanism, by which the antioxidant reduces the pressure, is not clear, for this reason, it is necessary to evaluate the behavior of enzymes involved in the homeostasis of BP. Male Wistar-Kyoto (WKY) rats and SHR received ascorbic acid, 200 mg / kg / day by orogastric gavage with lasted five weeks. The BP, Left Ventricular Hypertrophy (LVH), renin-angiotensin system (RAS), Atrial Natriuretic Peptide (ANP) and OxS results have been extensively compared among groups by plethysmography, stereology, confocal laser scanning microscopy, transmission electron microscopy, western blotting and RT-qPCR analysis. The SHR treated with ascorbic acid reduced BP and LVH. Also, the enzymes involved in the homeostasis of BP, renin and Angiotensin Converting Enzyme (ACE) normalized, as well as Angiotensin II type 1 receptor (AT1R). The large amount of ANP granules in SHR group was reduced by treatment with ascorbic acid. Oxidative balance was reestablished in SHR treated with this antioxidant. OxS in SHR elevates renin levels and BP. These reactive oxygen species may be involved in the signaling mechanism for increased expression in ANP atrial myocytes. These data also show that treatment with antioxidant (vitamin C) reduces OxS and normalizes BP at least partly by reducing rates of renin.
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Distribuição diferencial e remodelamento dos elementos fibrilares da matriz extracelular no coração de ratos espontaneamente hipertensos / Differential distribution and remodelling of fibrillar elements of the extracellular matrix in the heart of spontaneously hypertensive ratMilene Sanches Galhardo 30 January 2013 (has links)
A linhagem de ratos espontaneamente hipertensos (SHR) tem sido utilizada para como modelo animal para hipertensão humana, uma vez que estes animais desenvolvem pressóricos aumentados, hipertrofia ventricular esquerda, aumento de colágeno intersticial e disfunção diastólica. Embora o excesso de colágeno fibrilar tenha sido bem estudado neste modelo e esteja envolvido na insuficiência cardíaca observada, não há estudos quantitativos acurados (baseados na estereologia) para avaliar precisamente o volume tecidual ocupado pelo colágeno fibrilar e o remodelamento das fibrilas de colágeno segundo seu diâmetro uma vez que variações no diâmetro das fibrilas têm grande impacto funcional Mais ainda, nunca foi estudado neste modelo o remodelamento das fibras do sistema elástico (oxitalânicas, elaunínicas e elásticas propriamente ditas), que juntamente com o componente colagênico são responsáveis pelas características biomecânicas do tecido. Assim sendo, os corações de ratos Wistar (WIS), Wistar Kyoto (WKY) e SHR foram submetidos a análise hemodinâmicas e foram processados para microscopia de luz e eletrônica, segundo amostragem estereológica. Cortes corados com HE foram utilizados para avaliação do diâmetro dos cardiomiócitos e do volume absoluto do coração e do ventrículo esquerdo; cortes corados com Picrossirius-hematoxilina foram utilizados para a avaliação da fração de volume ocupada por colágeno no ventrículo esquerdo e volume absoluto de colágeno; cortes ultra-finos foram utilizados para avaliação do diâmetro das fibrilas de colágeno cortadas transversalmente e para avaliação da distribuição das fibras oxitalânicas, elaunínicas e elásticas. Os resultados mostram que a hipertrofia ventricular dos animais SHR deveu-se à hipertrofia dos cardiomiócitos associada à maior quantidade de colágeno fibrilar (3,8 x maior no SHR que no WIS). A análise ultraestrutural mostrou que as fibrilas de colágeno no endomísio variam, em nanômetros, de 31 a 53 nos animais WIS, de 36 a 67 nos WKY e de 31 a 85 nos SHR, com medianas respectivamente de 39,58, 48,38 e 54,39, sendo que do ponto de vista estatístico a distribuição dos diâmetros das fibrilas colágenas dos animais SRH é diferente das outras duas linhagens.A análise uttra-estrutural das fibras do sistema elástico mostrou que as fibras oxitalânicas, elaunínicas e elásticas apresentam uma distribuição diferencial nos diversos compartimentos da parede cardíaca dos animais, sendo que nas três linhagens há fibras elásticas propriamente ditas no endocárdio e epicárdio; no entanto, no perimísio as fibras elásticas e elaunínicas aparecem raramente nos ratos SRH e com maior freqüência nos WIS e WKY; no endomísio dos ratos SRH não foi possível observar a mesma riqueza de fibras elásticas e elaunínicas presentes nas outras linhagens, havendo assim um predomínio de fibras oxitalânicas no vi endomísio dos animais SHR. Os resultados mostram que, além das modificações quantitativas no conteúdo de colágeno no miocárdio do ventrículo esquerdo dos animais SHR, há também uma alteração qualitativa na população de fibrilas colagênicas que passa a ser constituída por fibrilas mais grossas. Mais ainda, os resultados mostram que, em relação às fibras do sistema elástico, a predominância de fibras oxitalânicas no endomísio dos animais SHR sugere que as forças de tensão maiores no coração destes animais modulem não somente o sistema colagênico mas também o sistema elástico no sentido de acumular fibras que suportam melhor as cargas, contribuindo para a perda da complacência da parede ventricular / The strain of spontaneously hypertensive rats (SHR) has been used as an animal model for human hypertension, since these animals develop increased blood pressure, left ventricular hypertrophy, increased interstitial collagen and diastolic dysfunction. Although excess fibrillar collagen has been well studied in this model and is involved in observed heart failure, there are no accurate quantitative studies (i.e., based on stereology) to precisely assess the volume of tissue occupied by fibrillar collagen neither the remodeling of collagen fibrils with respect to their diameters, and such studies are very important because variations in the diameter of the fibrils have a major functional impact. Moreover, the remodeling of elastic system fibers (oxytalan, elauninic and elastic proper), which together with the collagenous component are responsible for biomechanical features of the tissue, has never been studied in this model. Thus, the hearts of Wistar (WIS), Wistar Kyoto (WKY) and SHR rats went through hemodynamic analysis and were processed for light and electron microscopy, according to stereological sampling criteria. HE-stained sections were used to evaluate the diameter of the cardiomyocytes and the absolute volume of the heart while left ventricular sections stained by Picrosirius-hematoxylin were used to evaluate the volume fraction occupied by collagen in the left ventricle as well as its absolute volume of collagen; ultra-thin sections were used for evaluation of the diameter of transversally sectioned collagen fibrils and for evaluation of the distribution of oxytalan, elauninic and elastic proper fibers. The results show that the ventricular hypertrophy of SHR rats was due to cardiomyocyte hypertrophy associated with a higher amount of fibrillar collagen (3.8 times as high as in the WIS rats). The ultrastructural analysis showed that the collagen fibrils in the endomysium range in nanometers, from 31 to 53 in WIS animals, 36 to 67 in the WKY and 31 to 85 in SHR, with medians 39.58, 48.38 and 54.39, respectively. The distribution of diameters of collagen fibrils is statistically different in SRH animals when compared to the other two strains. The ultrastructural analysis of the fibers of the elastic system showed that oxytalan, elauninic and elastic fibers present a differential distribution across the various compartments of the heart wall of the animals. In the three strains there are elastic fibers proper in the endocardium and epicardium, while in the perimysium, the elastic fibers proper and the elauninic fibers rarely appear in SRH rats, being more frequent in WIS and WKY rats; the endomysium of SRH rats did not exhibit the same richness of elastic fibers proper and elauninic fibers present in other strains, occurring thus a predominance of oxytalan fibers in the endomysium of SHR rats. viii The results also show that, in addition to the quantitative changes in collagen content of left ventricular myocardium of SHR rats, there is a qualitative alteration in the population of collagen fibrils that is richer in thicker fibrils. Moreover, the results show that, with respect to the fibers of the elastic system, the predominance of the oxytalan fibers in the endomysium of SHR rats suggests that the higher tensile forces in the hearts of these animals modulate not only the collagenous system but also the elastic system, entailing accumulation of fibers suited to better support the loads, contributing to the loss of ventricular wall compliance
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PO2 dependence of oxygen consumption in skeletal muscle of hypertensive and normotensive ratsShah, Habiba 01 January 2017 (has links)
Human essential hypertension affects over 75 million people in the United States, and can lead to death due to its several serious health complications such as hypertension-related cardiovascular disease. The purpose of this research was to understand how hypertension could cause physiological changes to the microcirculation, specifically the PO2 dependence of oxygen consumption (VO2) in skeletal muscle of normotensive and hypertensive rats. The Spontaneously Hypertensive Rat (SHR) strain was used as the diseased model, and Wistar-Kyoto (WKY) rats were used as controls to conduct this study. The SHR strain develops hypertension between 5-6 weeks after birth with an average systolic blood pressure of 150 mmHg. By arresting blood flow using an objective-mounted inflatable airbag, PO2 measurements were obtained along with an oxygen disappearance curve (ODC), which was used to calculate VO2 over various ranges of physiological PO2 values. PO2 and VO2 curves were analyzed based on Hill’s equation to fit the data and describe the PO2 dependence of VO2. When compared to the healthy Wistar-Kyoto rats, the SHRs exhibited a higher Vmax, or maximum rate of oxygen consumption. The average maximal rate of consumption by the hypertensive animal models could be a consequence of a “mitochondrial uncoupling” or some disconnect in the mitochondrial oxygen consumption and the normal corresponding ATP production. In conclusion, this project demonstrated that in situ muscle tissue from hypertensive and normotensive rats had a PO2 dependence of oxygen consumption over a wide range of physiological PO2 values and the hypertensive rats consumed oxygen at a higher maximal rate.
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