Effet de la température sur l’absorption tissulaire et systémique de l’oxaliplatine administrée par voie intrapéritonéale chez l’animal

Piché, Nelson

08 1900

Depuis 20 ans, certains patients porteurs d’une carcinose péritonéale sont traités par une chirurgie de cytoréduction combinée avec une chimiohyperthermie intrapéritonéale (CHIP). Bien que l’oxaliplatine (OX) soit couramment utilisée lors de CHIP, une telle utilisation chez l’humain n’est supportée que par des études de phase II et il n’y a pas d’études précliniques caractérisant les propriétés de l’OX dans le contexte d’administration intrapéritonéale. L’objectif de ce projet de maîtrise est d’étudier l’effet de la température sur l’absorption tissulaire et systémique de l’OX administrée par voie intrapéritonéale chez le rat. Nous avons procédé à une perfusion intrapéritonéale de 3 différentes doses d’OX à 3 différentes températures pendant 25 minutes chez une total 35 rats Sprague-Dawley, puis effectué le dosage des concentrations d’OX dans différents compartiments. Nous avons observé une augmentation linéaire (p<0,05) entre la dose d’OX administrée et sa concentration dans tous les compartiments (péritoine, mésentère, sang portal et systémique). De plus, avec l’augmentation de la température de perfusion, nous avons observé une augmentation de la concentration d’OX dans le péritoine mais une diminution de sa concentration dans les compartiments systémique et portal (p<0,05). Ces résultats démontrent donc que la dose et l’hyperthermie augmentent indépendamment la pénétration tissulaire de l’OX et que l’hyperthermie limite son absorption systémique. Ces observations suggèrent que l’hyperthermie pourrait réduire la toxicité systémique de l’OX. Pour connaître la cinétique de l’OX, des études subséquentes doivent être faites. / Over the last twenty years, certain patients afflicted with peritoneal carcinomatosis have been treated with a combination of cytoreductive surgery and hyperthermic intraperitoneal chemoperfusion. Supported by phase II studies only, Oxaliplatin (OX) is commonly used in this context. However, pre-clinical studies to characterize its properties in such conditions are lacking. The purpose of this project is to study the effect of temperature on tissue and systemic absorption of OX when administered by intraperitoneal route in the rat. By intraperitoneal route, we administered 3 different doses of OX at 3 different temperatures for 25 minutes on 35 Sprague-Dawley rats. Samples from selected compartments were harvested and OX concentration was measured using high performance liquid chromatography. We obtained a linear correlation (p<0.05) between OX dose and tissue concentration in every compartments analyzed (peritoneum, mesentery, systemic and portal blood). With hyperthermia, we observed an increase in peritoneum and mesentery concentration of OX, but a decrease it its systemic and portal concentration (p<0.05). Intraperitoneal administration of OX leads to high concentration of drug in local tissues. Hyperthermia enhances tissue absorption and minimizes systemic absorption suggesting it could reduce systemic toxicity. Additional studies are needed to further define the pharmacokinetics of OX administered by intraperitoneal route.

Oxaliplatine

Carcinose péritonéale

Chirurgie de cytoréduction

Pharmacocinétique

Rat Sprague-Dawley

Oxaliplatin

Peritoneal carcinomatosis

Cytoreductive surgery

Pharmacokinetics

Spague-Dawley rat

Effet de la température sur l’absorption tissulaire et systémique de l’oxaliplatine administrée par voie intrapéritonéale chez l’animal

Piché, Nelson

08 1900

Depuis 20 ans, certains patients porteurs d’une carcinose péritonéale sont traités par une chirurgie de cytoréduction combinée avec une chimiohyperthermie intrapéritonéale (CHIP). Bien que l’oxaliplatine (OX) soit couramment utilisée lors de CHIP, une telle utilisation chez l’humain n’est supportée que par des études de phase II et il n’y a pas d’études précliniques caractérisant les propriétés de l’OX dans le contexte d’administration intrapéritonéale. L’objectif de ce projet de maîtrise est d’étudier l’effet de la température sur l’absorption tissulaire et systémique de l’OX administrée par voie intrapéritonéale chez le rat. Nous avons procédé à une perfusion intrapéritonéale de 3 différentes doses d’OX à 3 différentes températures pendant 25 minutes chez une total 35 rats Sprague-Dawley, puis effectué le dosage des concentrations d’OX dans différents compartiments. Nous avons observé une augmentation linéaire (p<0,05) entre la dose d’OX administrée et sa concentration dans tous les compartiments (péritoine, mésentère, sang portal et systémique). De plus, avec l’augmentation de la température de perfusion, nous avons observé une augmentation de la concentration d’OX dans le péritoine mais une diminution de sa concentration dans les compartiments systémique et portal (p<0,05). Ces résultats démontrent donc que la dose et l’hyperthermie augmentent indépendamment la pénétration tissulaire de l’OX et que l’hyperthermie limite son absorption systémique. Ces observations suggèrent que l’hyperthermie pourrait réduire la toxicité systémique de l’OX. Pour connaître la cinétique de l’OX, des études subséquentes doivent être faites. / Over the last twenty years, certain patients afflicted with peritoneal carcinomatosis have been treated with a combination of cytoreductive surgery and hyperthermic intraperitoneal chemoperfusion. Supported by phase II studies only, Oxaliplatin (OX) is commonly used in this context. However, pre-clinical studies to characterize its properties in such conditions are lacking. The purpose of this project is to study the effect of temperature on tissue and systemic absorption of OX when administered by intraperitoneal route in the rat. By intraperitoneal route, we administered 3 different doses of OX at 3 different temperatures for 25 minutes on 35 Sprague-Dawley rats. Samples from selected compartments were harvested and OX concentration was measured using high performance liquid chromatography. We obtained a linear correlation (p<0.05) between OX dose and tissue concentration in every compartments analyzed (peritoneum, mesentery, systemic and portal blood). With hyperthermia, we observed an increase in peritoneum and mesentery concentration of OX, but a decrease it its systemic and portal concentration (p<0.05). Intraperitoneal administration of OX leads to high concentration of drug in local tissues. Hyperthermia enhances tissue absorption and minimizes systemic absorption suggesting it could reduce systemic toxicity. Additional studies are needed to further define the pharmacokinetics of OX administered by intraperitoneal route.

Oxaliplatine

Carcinose péritonéale

Chirurgie de cytoréduction

Pharmacocinétique

Rat Sprague-Dawley

Oxaliplatin

Peritoneal carcinomatosis

Cytoreductive surgery

Pharmacokinetics

Spague-Dawley rat

Alternative targets for the treatment of stroke /

Ajmo, Craig T.

January 2007

Dissertation (Ph.D.)--University of South Florida, 2007. / Includes vita. Includes bibliographical references. Also available online.

Intradermal delivery of plasmids encoding angiogenic growth factors by electroporation promotes wound healing and neovascularization /

Ferraro, Bernadette.

January 2009

Dissertation (Ph.D.)--University of South Florida, 2009. / Includes vita. Includes bibliographical references. Also available online.

Intradermal delivery of plasmids encoding angiogenic growth factors by electroporation promotes wound healing and neovascularization

Ferraro, Bernadette.

January 2009

Dissertation (Ph.D.)--University of South Florida, 2009. / Title from PDF of title page. Document formatted into pages; contains 103 pages. Includes vita. Includes bibliographical references.

Characterization of the Hypersensitive Response of Glycogen Phosphorylase to Catecholamine Stimulation in Primary Culture Diabetic Cardiomyocytes: A Thesis

Buczek-Thomas, Jo Ann

01 August 1992

The primary goal of my thesis research was to characterize the basis for the hypersensitive response of glycogen phosphorylase to catecholamine stimulation in primary culture diabetic cardiomyocytes. Toward this goal, I have investigated several key regulatory sites in this signaling pathway which could promote the hypersensitive activation of phosphorylase. Specifically, I investigated (1) which adrenergic receptors are involved in mediating the hypersensitive response of glycogen phosphorylase to epinephrine stimulation; (2) whether the presence of fatty acid metabolites affects phosphorylase activation; (3) whether the hypersensitive response of phosphorylase results from altered signal transduction through the β-adrenergic receptor system or from a post-receptor defect; and (4) the potential role for phosphorylase kinase in mediating the hypersensitive response of phosphorylase to catecholamine stimulation. The basis for adrenergic receptor mediation of the catecholamine-induced activation of glycogen phosphorylase was investigated in adult rat cardiomyocytes isolated from normal and alloxan-diabetic animals. Cells derived from diabetic animals exhibited a hypersensitive response to epinephrine stimulation which was apparent 3 hours after cell isolation and was further enhanced upon maintenance of the myocytes in culture for 24 hours. Normal cells initially lacked the hypersensitive response to epinephrine stimulation although upon maintenance of these cells in culture for 24 hours, the hypersensitive response was acquired in vitro. To assess alpha- and beta- adrenergic mediation of the response, normal and diabetic cardiomyocytes were incubated with propranolol, a β-receptor antagonist, prior to direct α1receptor stimulation with phenylephrine. Both normal and diabetic myocytes failed to undergo activation of phosphorylase in 3 or 24 hour cell cultures. In addition, the effects of epinephrine on phosphorylase activation were completely inhibited by propranolol whereas prazosin, an α-receptor antagonist, was unsuccessful. This data suggests that the hypersensitive response of glycogen phosphorylase in normal and diabetic cardiomyocytes is solely mediated through β-adrenergic receptor activation. Since the accumulation of various fatty acid metabolites can affect certain enzymes and signal transduction pathways within the cell, the potential effect of various fatty acid metabolites on phosphorylase activation was investigated. To determine the potential effects of fatty acid metabolites on phosphorylase activation in cultured cardiomyocytes, normal and alloxan-diabetic cells were incubated with either carnitine or palmitoylcarnitine prior to stimulation with epinephrine. Pretreatment of cardiomyocytes with or without carnitine or palmitoylcarnitine for 3 or 24 hours before epinephrine stimulation failed to alter phosphorylase activation. The addition of exogenous carnitine in the absence and presence of insulin was also unsuccessful in attenuating the hypersensitive phosphorylase activation response in 3 and 24 hour, normal and alloxan-diabetic derived cardiomyocytes. To determine if carnitine palmitoyltransferase 1 (CPT-1) activity was responsible for the hypersensitive response of phosphorylase in the diabetic myocytes, both normal and diabetic myocytes were maintained for 3 and 24 hours in the absence and presence of etomoxir, a CPT-1 inhibitor. Subsequent activation of phosphorylase by epinephrine in normal and diabetic myocytes was unaltered in the presence of etomoxir. Collectively, these data fail to support a critical role for fatty acid metabolite involvement in the hypersensitive activation of glycogen phosphorylase in acute, alloxan-diabetic cardiomyocytes. To assess potential G-protein involvement in the response, normal and diabetic-derived myocytes were incubated with either cholera or pertussis toxin prior to hormonal stimulation. Pretreatment of cardiomyocytes with cholera toxin resulted in a potentiated response to epinephrine stimulation whereas pertussis toxin did not affect the activation of this signaling pathway. To determine if the enhanced response of phosphorylase activation resulted from an alteration in adenylyl cyclase activation, the cells were challenged with forskolin. After 3 hours in primary culture, diabetic cardiomyocytes exhibited a hypersensitive response to forskolin stimulation relative to normal cells. However, after 24 hours in culture, both normal and diabetic myocytes responded identically to forskolin challenge. The present data suggest that a cholera toxin sensitive G-protein mediates the hypersensitive response of glycogen phosphorylase to catecholamine stimulation in diabetic cardiomyocytes. This response, which is present in alloxan-diabetic cells, and is induced in vitroin normal cardiomyocytes, is primarily due to a defect at a post-receptor site. To assess the role of phosphorylase kinase in the hypersensitive activation of glycogen phosphorylase in the diabetic heart, phosphorylase kinase activity was measured initially in perfused hearts (to optimize the assay parameters) and subsequently in primary culture cardiomyocytes. Results from these experiments demonstrate that the present method for measuring phosphorylase kinase activity is a reliable indicator of the enzyme's activity in the heart, although the assay conditions must be further optimized before this system can be applied to the measurement of phosphorylase kinase activity in primary cultured cardiomyocytes.

Glycogen Phosphorylase

Receptors

Catecholamine

Diabetes Mellitus

Experimental

Enzyme Activation

Heart

Myocytes

Cardiac

Epinephrine

Rats

Sprague-Dawley

Animal Experimentation and Research

Carbohydrates

Cardiovascular System

Cells

Endocrine System Diseases

Macromolecular Substances

Nutritional and Metabolic Diseases

Organic Chemicals

Tissues

Novel Therapeutic Strategies for the Treatment of Pulmonary Arterial Hypertension

Suen, Colin

January 2017

Pulmonary arterial hypertension (PAH) is a progressive disease that results in increased pulmonary vasculature resistance, causing right ventricular (RV) remodeling, which eventually progresses into right heart failure and mortality. New and emerging therapeutic strategies involve regenerative approaches to repair the underlying vascular pathology using regenerative cell therapy and methods to alleviate RV dysfunction in the setting of fixed RV afterload. In the first section of the thesis, we investigated the role of EPC paracrine mechanisms in the treatment of PAH. We characterized the paracrine function of EPCs by demonstrating that EPC conditioned medium enhances endothelial cell migration, survival and angiogenesis in vitro. We further examined the role of secreted extracellular vesicles in the paracrine function of EPCs, which played a minor role in promoting wound healing. However, using the monocrotaline rat model of PAH, we did not demonstrate a consistent benefit on RV pressures or remodeling with EPCs or EPC conditioned medium. The lack of effect may be related to the advanced phenotype observed in our model of PAH. Survival in severe pulmonary arterial hypertension (PAH) is related to the ability of the right ventricle (RV) to adapt to increased afterload. Therefore, we explored the effect of genetic background on right ventricular adaptation and survival in a rat model of severe (PAH). Compared to the conventional Sprague-Dawley rat strain, we observed high mortality in the Fischer SUHx model of severe PAH. This was related to a strain-dependent failure of RV adaptation, as evidenced by RV dilatation, RV contractile dysfunction, decreased cardiac ouptut and decreased exercise capacity. Further analysis by gene expression microarrays and fluorescence microangiography demonstrate that failure of RV adaptation is due at least in part due to lack of adequate microvascular angiogenesis in the hypertrophied RV. This work lays the foundation for the section on RV-specific therapy that follows. Using the Fischer model of maladaptive RV remodeling, we tested whether cardiotrophin-1 (CT-1), a pro-angiogenic and cardioprotective cytokine, could improve RV adaptation. We demonstrated that as a rescue treatment, CT-1 reduced RV dilatation and function without influencing RV afterload, which suggests improved RV adaptation. These changes were associated with an increase in RV capillary density. As an early-stage preventative treatment, in addition to improving RV remodeling, CT-1 also reduced pulmonary pressures. These hemodynamic changes suggest that CT-1 may also have a direct impact on vascular tone or the underlying pulmonary vascular pathology.

Pulmonary hypertension

Pulmonary arterial hypertension

Stem cell

Right ventricle

Endothelial progenitor cell

Endothelium

Heart failure

Sprague dawley rat

Fischer rat

Exosome

Microvesicle

Extracellular vesicles

SU5416

Paracrine

Angiogenesis

SUHx

Cardiotrophin

CT-1

Estudo da degradação da proteína Tau hiperfosforilada por vias independentes do proteassoma, em modelo experimental de neurodegeneração / Study of hyperphosphorylated Tau protein degradation by proteasome-independent pathways, in an experimental model of neurodegeneration

Farizatto, Karen Lisneiva Garcia

28 April 2014

O desenvolvimento das doenças neurodegenerativas, como a doença de Alzheimer, está associado à presença de agregados proteicos contendo Tau hiperfosforilada (p-Tau). Esta disfunção da Tau leva a prejuízos na homeostase celular. Um mecanismo chave para diminuir e/ou prevenir os danos promovidos pelos agregados contendo Tau seria o estímulo de sua degradação. Neste sentido, a proposta do presente estudo foi analisar a degradação da proteína Tau após aumento da expressão exógena da cochaperona Bag-2, a qual influencia o sistema proteassomal de degradação; bem como avaliar a ativação dos sistemas de degradação, a fim de correlacionar estes sistemas em cultura de células primárias e organotípica do hipocampo de ratos. Os resultados mostraram que a rotenona foi capaz de aumentar os níveis de p-Tau e que a superexpressão de Bag-2, foi eficiente em prevenir e degradar a p-Tau. O mecanismo envolvido neste processo envolve a coordenação dos sistemas proteassomal e lisossomal, já que a Rab7 e a Rab24 (envolvidas na via lisossomal) mostraram-se diminuídas na fase que antecede a agregação proteica, enquanto houve aumento da Rab24 na presença dos agregados proteicos. Com relação ao peptídeo beta amiloide, foi demonstrado tendência de aumento de p-Tau acompanhado de diminuição da atividade proteassomal e lisossomal. O tratamento com PADK (ativador lisossomal) foi capaz de reverter este efeito nestas diferentes condições. A análise da interrelação entre os sistemas mostrou que uma inibição do proteassoma favorece a via lisossomal e que o inverso não se repete. Os resultados sugerem que a modulação das vias de degradação pode ser interessante para o estudo, prevenção e tratamento das doenças neurodegenerativas associadas à agregação de proteínas / Neurodegenerative diseases, such as Alzheimer\'s, are associated to protein inclusions containing hyperphosphorylated Tau (p-Tau). It is well established that Tau dysfunction impairs cell homeostasis. A key mechanism to prevent and/or reduce the damage promoted by aggregates of Tau might be its degradation. In view of this, the aims of the present study are to evaluate p- Tau clearance following exogenous expression of Bag-2, which stimulates proteasome; as well as to analyze the activation of both lysosome and proteasome pathways in order to understand the crosstalk between these two systems in primary and organotypic cultures of rat hippocampus. Results showed that rotenone was able of increasing p-Tau that was prevented and degraded by Bag-2 overexpression. Mechanisms involved in this process involve the coordination of cell degradation systems, depending upon aggregation status, since Rab7 and Rab24 (involved in lysosomal pathway) were decreased before protein aggregation, while Rab24 increased in the presence of protein inclusions. Amyloid-beta peptide also increased p-Tau accompanied by decreased proteasome and lysosome activity. PADK (lysosomal activator) treatment reverted the inhibition promoted by amyloidbeta peptide. Inhibition of proteasome leads to activation of lysosome, but lysosome inhibition does not affect proteasome. Overall, results suggest that targeting degradation pathways might be useful to understand, prevent and treat neurodegenerative diseases associated with protein deposits

Doenças neurodegenerativas

Envelhecimento/efeito de drogas

Hipocampo

Hippocampus, Aging

Lisossomos

Lysosomes

Modelos animais

Models animal

Molecular chaperones

Neurodegenerative diseases

Proteínas Tau

Rab GTP-binding proteins

Ratos endogâmicos Lewis

Ratos Sprague-Dawley

Rats inbreed Lewis

Rats Sprague-Dawley

Rotenona/farmacologia

Rotenone/pharmacology

Tau proteins

Estudo da degradação da proteína Tau hiperfosforilada por vias independentes do proteassoma, em modelo experimental de neurodegeneração / Study of hyperphosphorylated Tau protein degradation by proteasome-independent pathways, in an experimental model of neurodegeneration

Karen Lisneiva Garcia Farizatto

28 April 2014

O desenvolvimento das doenças neurodegenerativas, como a doença de Alzheimer, está associado à presença de agregados proteicos contendo Tau hiperfosforilada (p-Tau). Esta disfunção da Tau leva a prejuízos na homeostase celular. Um mecanismo chave para diminuir e/ou prevenir os danos promovidos pelos agregados contendo Tau seria o estímulo de sua degradação. Neste sentido, a proposta do presente estudo foi analisar a degradação da proteína Tau após aumento da expressão exógena da cochaperona Bag-2, a qual influencia o sistema proteassomal de degradação; bem como avaliar a ativação dos sistemas de degradação, a fim de correlacionar estes sistemas em cultura de células primárias e organotípica do hipocampo de ratos. Os resultados mostraram que a rotenona foi capaz de aumentar os níveis de p-Tau e que a superexpressão de Bag-2, foi eficiente em prevenir e degradar a p-Tau. O mecanismo envolvido neste processo envolve a coordenação dos sistemas proteassomal e lisossomal, já que a Rab7 e a Rab24 (envolvidas na via lisossomal) mostraram-se diminuídas na fase que antecede a agregação proteica, enquanto houve aumento da Rab24 na presença dos agregados proteicos. Com relação ao peptídeo beta amiloide, foi demonstrado tendência de aumento de p-Tau acompanhado de diminuição da atividade proteassomal e lisossomal. O tratamento com PADK (ativador lisossomal) foi capaz de reverter este efeito nestas diferentes condições. A análise da interrelação entre os sistemas mostrou que uma inibição do proteassoma favorece a via lisossomal e que o inverso não se repete. Os resultados sugerem que a modulação das vias de degradação pode ser interessante para o estudo, prevenção e tratamento das doenças neurodegenerativas associadas à agregação de proteínas / Neurodegenerative diseases, such as Alzheimer\'s, are associated to protein inclusions containing hyperphosphorylated Tau (p-Tau). It is well established that Tau dysfunction impairs cell homeostasis. A key mechanism to prevent and/or reduce the damage promoted by aggregates of Tau might be its degradation. In view of this, the aims of the present study are to evaluate p- Tau clearance following exogenous expression of Bag-2, which stimulates proteasome; as well as to analyze the activation of both lysosome and proteasome pathways in order to understand the crosstalk between these two systems in primary and organotypic cultures of rat hippocampus. Results showed that rotenone was able of increasing p-Tau that was prevented and degraded by Bag-2 overexpression. Mechanisms involved in this process involve the coordination of cell degradation systems, depending upon aggregation status, since Rab7 and Rab24 (involved in lysosomal pathway) were decreased before protein aggregation, while Rab24 increased in the presence of protein inclusions. Amyloid-beta peptide also increased p-Tau accompanied by decreased proteasome and lysosome activity. PADK (lysosomal activator) treatment reverted the inhibition promoted by amyloidbeta peptide. Inhibition of proteasome leads to activation of lysosome, but lysosome inhibition does not affect proteasome. Overall, results suggest that targeting degradation pathways might be useful to understand, prevent and treat neurodegenerative diseases associated with protein deposits

Doenças neurodegenerativas

Envelhecimento/efeito de drogas

Hipocampo

Lisossomos

Modelos animais

Proteínas Tau

Ratos endogâmicos Lewis

Ratos Sprague-Dawley

Rotenona/farmacologia

Hippocampus, Aging

Lysosomes

Models animal

Molecular chaperones

Neurodegenerative diseases

Rab GTP-binding proteins

Rats inbreed Lewis

Rats Sprague-Dawley

Rotenone/pharmacology

Tau proteins

Alternative targets for the treatment of stroke

Ajmo, Craig T.

January 2007

Dissertation (Ph.D.)--University of South Florida, 2007. / Title from PDF of title page. Document formatted into pages; contains 187 pages. Includes vita. Includes bibliographical references.