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Efeitos da interação da doxiciclina e adrenomedulina na embolia pulmonar aguda em ovinos anestesiados / Effects of the interaction of doxycycline and adrenomedullin in acute pulmonary embolism in anesthetized sheepRocha, Thalita Leone Alves [UNESP] 29 February 2016 (has links)
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Previous issue date: 2016-02-29 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / As metaloproteinases de matriz extracelular (MMPs) podem limitar a vasodilatação pulmonar e os efeitos inotrópicos positivos promovidos pela adrenomedulina durante a hipertensão pulmonar. O presente estudo teve por objetivo avaliar os efeitos da administração combinada da doxiciclina (inibidor não seletivo das MMPs) e da adrenomedulina sobre as alterações hemodinâmicas observadas durante a embolia pulmonar aguda em ovinos. Alterações hemodinâmicas e respiratórias foram mensuradas em ovinos anestesiados, pré-tratados com doxiciclina (10 mg/kg por via intravenosa), submetidos à EPA induzida pela injeção intravenosa (IV) de microesferas de silicone (500 mg) e posteriormente tratados com solução salina (grupo Dox+PE) ou adrenomedulina (50 ng/kg/min) (grupo Dox+PE+Adm). Os resultados deste estudo foram comparados com grupos históricos recentemente publicados por nosso grupo de pesquisa, realizados sob as mesmas condições experimentais, onde foram utilizados ovinos anestesiados não submetidos a qualquer intervenção (grupo Sham) ou submetidos à EPA e tratados com solução salina (grupo PE) ou com adrenomedulina (50 ng/kg/min) (grupo PE+Adm). Doxiciclina não produziu efeitos adicionais sobre as diminuições significativas no índice de resistência vascular pulmonar e aumento no índice cardíaco (ambos em 25%) observadas com o uso da adrenomedulina (grupo PE+Adm). A administração da adrenomedulina (grupo PE+Adm e Dox+PE+Adm) diminuiu significativamente a pressão arterial média e o índice de resistência vascular sistêmica, levando a uma hipotensão sistêmica moderada. Reduções significativas na pressão parcial de oxigênio arterial foram observadas após a doxiciclina e a EPA, que não foram afetadas pela administração da adrenomedulina. Estes resultados demonstram que a administração combinada da doxiciclina e adrenomedulina não traz benefícios hemodinâmicos adicionais quando comparada ao uso isolado da adrenomedulina, sugerindo que está combinação não se apresenta vantajosa durante a EPA induzida por microesferas. / Matrix metalloproteinases (MMPs) may limit severely the pulmonary vasodilatory and inotropic effects of adrenomedullin during pulmonary hypertension. Hemodynamic and respiratory changes were measured in anesthetized bovine pre-treated with doxycycline (10 mg/kg intravenously), subjected to APE induced by intravenous injection of silicone microspheres (500 mg) and subsequently treated with physiological saline (Dox+PE group) or adrenomedullin (50 ng / kg / min) (Dox+PE+ Adm group). The results were compared with historical group recently published by our research group, carried out under the same experimental conditions, where anesthetized sheep were used not subjected to any intervention (Sham group) or subjected to APE, and treated with physiological saline (PE group) or with adrenomedullin (50 ng / kg / min) (PE+Adm Group). Doxycycline produced no effect on significant temporal decreases in pulmonary vascular resistance index and increases in cardiac index (both by 25%) observed with adrenomedullin. The administration of adrenomedullin significantly decreased mean arterial pressure and systemic vascular resistance index, leading to a moderate systemic hypotension. Significant decreases in arterial oxygen partial pressure were observed after doxycycline or APE, but these changes were not affected by adrenomedullin. These results demonstrate that the combined administration of doxycycline and adrenomedullin does not provide additional hemodynamic benefits when compared to isolated use of adrenomedullin, suggesting that this combination does not appear advantageous for the APE-induced microspheres. / FAPESP: 2012/12.291-7
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Efeitos da interação da doxiciclina e adrenomedulina na embolia pulmonar aguda em ovinos anestesiadosRocha, Thalita Leone Alves January 2016 (has links)
Orientador: Carlos Alan Candido Dias Junior / Resumo: As metaloproteinases de matriz extracelular (MMPs) podem limitar a vasodilatação pulmonar e os efeitos inotrópicos positivos promovidos pela adrenomedulina durante a hipertensão pulmonar. O presente estudo teve por objetivo avaliar os efeitos da administração combinada da doxiciclina (inibidor não seletivo das MMPs) e da adrenomedulina sobre as alterações hemodinâmicas observadas durante a embolia pulmonar aguda em ovinos. Alterações hemodinâmicas e respiratórias foram mensuradas em ovinos anestesiados, pré-tratados com doxiciclina (10 mg/kg por via intravenosa), submetidos à EPA induzida pela injeção intravenosa (IV) de microesferas de silicone (500 mg) e posteriormente tratados com solução salina (grupo Dox+PE) ou adrenomedulina (50 ng/kg/min) (grupo Dox+PE+Adm). Os resultados deste estudo foram comparados com grupos históricos recentemente publicados por nosso grupo de pesquisa, realizados sob as mesmas condições experimentais, onde foram utilizados ovinos anestesiados não submetidos a qualquer intervenção (grupo Sham) ou submetidos à EPA e tratados com solução salina (grupo PE) ou com adrenomedulina (50 ng/kg/min) (grupo PE+Adm). Doxiciclina não produziu efeitos adicionais sobre as diminuições significativas no índice de resistência vascular pulmonar e aumento no índice cardíaco (ambos em 25%) observadas com o uso da adrenomedulina (grupo PE+Adm). A administração da adrenomedulina (grupo PE+Adm e Dox+PE+Adm) diminuiu significativamente a pressão arterial média e o índice ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Matrix metalloproteinases (MMPs) may limit severely the pulmonary vasodilatory and inotropic effects of adrenomedullin during pulmonary hypertension. Hemodynamic and respiratory changes were measured in anesthetized bovine pre-treated with doxycycline (10 mg/kg intravenously), subjected to APE induced by intravenous injection of silicone microspheres (500 mg) and subsequently treated with physiological saline (Dox+PE group) or adrenomedullin (50 ng / kg / min) (Dox+PE+ Adm group). The results were compared with historical group recently published by our research group, carried out under the same experimental conditions, where anesthetized sheep were used not subjected to any intervention (Sham group) or subjected to APE, and treated with physiological saline (PE group) or with adrenomedullin (50 ng / kg / min) (PE+Adm Group). Doxycycline produced no effect on significant temporal decreases in pulmonary vascular resistance index and increases in cardiac index (both by 25%) observed with adrenomedullin. The administration of adrenomedullin significantly decreased mean arterial pressure and systemic vascular resistance index, leading to a moderate systemic hypotension. Significant decreases in arterial oxygen partial pressure were observed after doxycycline or APE, but these changes were not affected by adrenomedullin. These results demonstrate that the combined administration of doxycycline and adrenomedullin does not provide additional hemodynamic benefits when compared to iso... (Complete abstract click electronic access below) / Mestre
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Regulation of cardiac responses to increased load:role of endothelin-1, angiotensin II and collagen XVPiuhola, J. (Jarkko) 14 July 2002 (has links)
Abstract
Chronic overload of the heart is the major cause of left ventricular hypertrophy (LVH) and eventually heart failure. It is generally accepted that autocrine/paracrine factors, such as angiotensin II (Ang II) and endothelin-1 (ET-1) contribute to the development of LVH. Cardiac hypertrophy and failure are characterized by attenuated responsiveness to β- adrenergic stimulation and accumulation of collagenous material to the left ventricular wall. The present study aimed to characterize the roles of ET-1 and Ang II in the regulation of cardiac function. The role of the plasmamembrane Ca2+-ATPase (PMCA) in ET-1 induced cardiac responses and the role of type XV collagen in cardiac function were also studied.
Both ET-1 infusion and mechanical loading were able to induce positive inotropic effect and induction of early response genes in isolated perfused hearts. ET-1 also induced strong vasoconstriction. Cardiomyocyte-specific PMCA overexpression inhibited the ET-1 induced hypertrophic response, while inotropic response remained unaltered. ET-1 was found to induce release of adrenomedullin (AM), a potent vasorelaxing and inotropic peptide. Infusion of AM antagonized the vasoconstrictive effect of ET-1 independently of nitric oxide. In hypertrophied rat hearts ET-1 was found to contribute significantly to the Frank-Starling response, a fundamental mechanism regulating contractile performance of the heart. In mice hearts, ET-1 was found to play a dual role in load induced elevation of contractile strength: ETA receptors mediated an increase, while ETB receptors mediated an inhibitory effect on contrcatile force. Ang II was not contributing to the contractile response to load in either rat or mice hearts. Blunted response to β-adrenergic stimulus and increased vulnerability as a result of exercise was observed in mice lacking collagen XV.
In conclusion, the present results underscore the importance of the local factors, especially ET-1, in regulation of cardiac function, not only in terms of hypertrophic but also in terms of contractile response to load. The results also suggest a role for PMCA in regulation of cardiac function. Lack of type XV collagen was found to result in cardiac dysfunction with many features similar to those of early heart failure.
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Rôle de l'adrénomédulline dans le Mésothéliome pleural malin et le cancer bronchopulmonaire / Role of adrenomedullin in malignant pleural mesothelioma and lung cancerTounsi, Asma 20 October 2014 (has links)
Le mésothéliome pleural malin (MPM) est une tumeur rare et agressive qui se développe au niveau de la plèvre.L'Adrénomedulline (AM) est un peptide de 52 acides aminés. Il intervient dans plusieurs processus physiologiques et physiopathologiques. Il est surexprimé dans plusieurs tumeurs où il joue un rôle important dans la croissance tumorale.Dans un premier temps nous avons montré que l'AM et ses récepteurs sont exprimés dans des biopsies de patients atteints de MPM suggérant son implication dans la croissance tumorale du MPM. In vitro l'incubation de lignées de MPM: H2452 et MSTO_211H avec des anticorps αAM ou αAMR inhibent la prolifération, l'invasion et la migration cellulaires. In vivo, le traitement avec un anticorps αAM ou l'antagoniste AM22-52, inhibe la croissance tumorale des xénogreffes de MSTO_211H par rapport au groupe contrôle. L'analyse histologique montre une augmentation significative de l'apoptose et une diminution importante de la vascularisation chez les tumeurs traitées par rapport aux tumeurs contrôles. Ces résultats démontrent le rôle important joué par l'AM dans la croissance tumorale du MPM et fait du système de l'AM une cible thérapeutique potentielle.Dans un deuxième temps, Nous avons émis l'hypothèse de la transactivation de l'EGFR par l'AM. Notre hypothèse s'est concrétisée dans la mesure où L'inhibition de l'EGFR par un inhibiteur spécifique l'AG1478 abolie l'activation de ERK par l'AM,La phosphorylation de l'EGFR par l'AM,La neutralisation de l'EGFR avec son propre anticorps inhibe la phosphorylation par l'AM suggérant une activation ligand dépendante. Ces résultats nous permettent de mieux comprendre le mécanisme d'action de l'AM. / Malignant pleural mesothelioma (MPM) grows aggressively in the thoracic cavity without curative possibilities, underlining the need for new therapeutic targets. Adrenomedullin (AM), a multifunctional peptide, is highly expressed in several tumors and plays an important role in angiogenesis and tumor. In the first part of our work, QRT-PCR showed an increase of AM mRNA levels in MPM when compared to normal pleura tissue. Immunohistochemically, AM and its receptors were localized in the carcinomatous epithelial compartment of MPM. The MPM cell lines H2452 and MSTO_211H expressed AM with a significant increase under hypoxia. The proliferation, migration and invasion of MPM cells are decreased by anti-AM and anti-AM receptors antibodies (αAM and αAMR) supporting that MPM cells can be regulated by AM. In vivo, αAM and AM22-52 antagonist therapies of MSTO_211H xenografts blocked angiogenesis and stimulated apoptosis, resulting in tumor regression. Histologic examination of treated tumors showed evidences of disruption of tumor vasculature. These findings highlight the implication of the AM pathway in the MPM growth and in neovascularization by supplying/amplifying signals essential for pathologic neoangiogenesis and lymphangiogenesis.In the second part of this work, we reported that the EGFR becomes rapidly tyrosine-phosphorylated upon stimulation of lung cancer cells lines with AM, suggesting that there is an intracellular mechanism for transactivation. Specific inhibition of EGFR function by the AG1478 or EGFR blocking antibody suppressed MAPK activation. These results suggest strongly a ligand-dependent mechanism of EGFR transactivation by AM.
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Activation de la phosphatase PTP SHP2 par le système de l'adrénomédulline dans les cellules endothéliales en vue d'une stabilisation vasculaire / Phosphatase PTP-SHP2 activation by the adrenomedullin system in vascular endothelial cells allowing tumor vessels stabilizationSigaud, Romain 20 December 2017 (has links)
L’adrénomédulline (AM) est un des principaux facteurs de croissance impliqués dans la formations de nouveaux vaisseaux. L’AM est responsable de la formation de jonctions adhérentes stables entre cellules endothéliales vasculaires via le maintien d’un état déphosphorylé du complexe d’adhésion VE-cadhérine/caténines. La phosphorylation de tyrosines est un évènement régulé par un équilibre entre protéine tyrosine kinases et protéine tyrosine phosphatases (PTP). Peu de choses sont encore connues sur le rôle des PTPs dans les voies de signalisation de l’AM au niveau des cellules endothéliales. La SHP2 a été décrite comme étant capable de déphosphoryler le complexe d’adhésion. Son association avec la β-caténine lui permet de contrôler le niveau de phosphorylation du complexe et de maintenir l’association entre VE-cadhérine et caténines. Nous avons ainsi émis l’hypothèse selon laquelle l’AM puisse agir sur la SHP2 permettant ainsi le contrôle de la formation du complexe d’adhésion VE-cadhérine-β-caténine. Nos travaux ont mis en évidence une augmentation de l’activation de la SHP2 induite par l’AM dans les cellules endothéliales entrainant sa localisation au niveau de la membrane et la stabilisation de l'adhésion cellulaire induite par la VE-cadhérine en réduisant le niveau de phosphorylation de cette dernière. Le blocage de la SHP2 entraine des effets opposés avec une inhibition de la déphosphorylation induite par l’AM de la VE-cadhérine sur les tyrosines 731 et 658. En résumé, l’AM régule l’activité de la SHP2 via sa phosphorylation sur la tyrosine 542 ce qui entraine une stabilisation des contacts cellules-cellules via une diminution de la phosphorylation de la VE-cadhérine. / Adrenomedullin (AM) is one of the main factors in the formation of tumor neo-vessels. It's responsible for stable adherent junction formation between vascular endothelial (VE) cells by maintaining VE-cadherin/catenins adhesion complex in a dephosphorylated status. Indeed, AM blockade induces phosphorylation of VE-cadherin in tyrosine 731, which is followed by disruption of VE-cadherin-mediated cell-cell contacts of endothelial cells (ECs), thereby leading to EC adhesion loss and tumor vessels disruption. Tyrosine phosphorylation events are controlled by the balance of activation of protein tyrosine kinases and protein tyrosine phosphatases (PTPs). Little is known about the role of endogenous PTPs in AM signaling in ECs. SHP2 is capable of dephosphorylating the complex. Its association with β-catenin allows it to control the dephosphorylated steady state of the complex and to maintain the VE-cadherin/β-catenin association. To study the mechanism of AM on the inter-endothelial junction stabilization, we hypothesized that AM may act on SHP2 allowing a control upon formation of VE-cadherin-β-catenin complex. In this study, we found that SHP2 activity is markedly increased by AM. In ECs, AM-induced phospho-SHP2 Y542 activity to localize at the human umbilical vein endothelial cell membrane and stabilizes VE-cadherin-mediated cell-cell adhesions by reducing VE-cadherin tyrosine phosphorylation. SHP2 inhibition causes opposite effects with inhibiting AM-induced dephosphorylation of VE-cadherin at Y731 and Y658. In summary, AM regulates SHP2 activity through phosphorylation of Y542, which stabilizes cell-cell adhesions through reducing tyrosine phosphorylation of VE-cadherin.
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Einfluss von "Calcitonin Gene-Related Peptide" und "Substance P" auf die mRNA-Expression und Freisetzung von Zytokinen aus zerebralen Endothelzellen bei Kostimulation mit PneumokokkenzellwändenSehmsdorf, Ute-Stephani 22 October 2001 (has links)
Die bakterielle Meningitis (BM) ist trotz antibiotischer Therapie eine Erkrankung mit einer hohen Mortalität und Morbidität. Kopfschmerzen und Meningismus sind Hauptsymtome und ein klinischer Hinweis für die Aktivierung trigeminaler Fasern. Ziel dieser Arbeit war es zu prüfen ob die freigesetzten Neuropeptide einen proinflammatorischen Effekt auf zerebrale Endothelzellen, einen wesentlichem Bestandteil der Blut-Hirn-Schranke haben. Wir verwendeten primär kultivierte zerebrale Kapillarendothelzellen (BMEC) der Ratte und als Stimulus Neuropeptide und/oder Pneumokokkenzellwände (PCW). Beide Neuropeptide, CGRP mehr als SP, verstärken den Effekt von PCW auf die mRNA Expression und Freisetzung von TNF-alpha, IL-1beta, IL-6, IL-10 und MIP-2 aus den BMEC. CGRP und SP haben nur eine geringe Wirkung. PCW regulieren die Dichte der CRLR (CGRP1-R) bzw. NK-1 Rezeptoren und erklären damit die kostimulatorische Wirkung. Zudem untersuchten wir den Effekt von PCW und/oder CGRP auf die Adrenomedullin (AM)- Synthese. AM ist ein vasodilatorisch wirkendes Peptid, dass vorwiegend in Endothelzellen konstitutiv gebildet wird und am CRLR Rezeptor wirkt. PCW und CGRP verstärken die Synthese von AM. Mit dieser Arbeit konnte gezeigt werden, dass PCW zur Hochregulation von Neuropeptidrezeptoren führt und CGRP und SP über diese Rezeptoren einen modulatorischen Effekt auf die Zytokinproduktion in BMEC haben. Ein genaues Verständnis dieser Interaktionen könnte die Entwicklung immunmodulatorischer Interventionen und damit eine Verbesserung der Prognose der bakteriellen Meningitis bewirken. / Despite antibiotic treatment bacterial meningitis is still associated with a high mortality and morbidity. Headache and meningismus as key symptoms, provide clear evidence for the activation of trigeminal nerve fibers. Aim of the study was to test whether the released neuropeptides have a proinflammatory effect in cerebral endothelial cells the major compartment of the blood brain barrier. We used primary brain microvascular endothelial cells of the rat (BMEC) which were stimulated with CGRP, SP and/or pneumococcal cell walls (PCW). Both neuropeptides CGRP more than SP enhanced PCW-induced mRNA expression and the release of TNF-alpha, IL-1-beta, IL-6, IL-10 and MIP-2. Neuropeptides alone were not able to induce these cytokines. PCW upregulate the density of CRLR receptor and regulate the NK-1 receptor and therefore may explain the costimulatory effect. Furthermore the effect of PCW and/or CGRP on adrenomedullin synthesis in BMEC was investigated. Adrenomedullin is a vasodilatatory peptide, which is constitutivly produced by endothelial cells and act on the CRLR receptor. PCW as well as CGRP enhance the synthesis of AM. Our data suggest that PCW upregulate neuropeptide receptors and modulate via these specific receptors the cytokine production. A detailed understanding of these interactions may open new immunmodulatory interventions and therefore may contribute to a better prognosis of bacterial meningitis.
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Biomarqueurs des états septiques sévères : vers de nouvelles stratégies thérapeutiques individualisées / Biomarkers in severe sepsis : toward new individualized therapeutic strategiesGuignant, Caroline 12 December 2011 (has links)
En dépit de nombreux essais thérapeutiques, les syndromes septiques sont la première cause de mortalité en service de soins intensifs. La population septique étant très hétérogène, une meilleure caractérisation des patients serait essentielle afin de mieux individualiser et cibler les thérapeutiques potentiellement bénéfiques. Une approche multiparamétrique de l’utilisation des biomarqueurs est une alternative qui viserait à appréhender la situation de manière plus globale. Notre travail s’inscrit dans ce contexte au travers de l’étude plus spécifique de la défaillance des systèmes cardio-vasculaire et immunitaire. Au-delà de la confirmation de l’intérêt des biomarqueurs présentement étudiés (prohormones cardio-vasculaires et PD-1) dans la prédiction de la mortalité et du risque d’infections nosocomiales, nos résultats apportent des éléments nouveaux. Nous avons montré que (1) la sur-expression des molécules PD-1 est associée à l’énergie leucocytaire, (2) un même biomarqueur peut apporter une information différente au cours du temps, (3) l’information apportée par l’analyse simultanée de deux biomarqueurs est supérieure à celle de la somme de leurs valeurs individuelles, et (4) l’expression dynamique d’un biomarqueur est meilleure que son expression à un temps donné. Au total, notre travail illustre l’intérêt potentiel d’un panel de biomarqueurs pour mieux appréhender la complexité des états septiques et leur rapide évolution. Il reste néanmoins à développer des outils biostatistiques capables de donner au clinicien une vision globale en temps réel des processus en cours. Cela constituera une étape clé pour mieux stratifier et cibler les prochains essais cliniques dans le domaine. / Septic syndromes remain the leading cause of death in the intensive care units despite numerous clinical trials. Septic patients constitute a very heterogeneous population. Therefore improved characterisation of patients in order to better target and personalize potential new therapeutics is highly desirable. A multiparametric biomarker-based approach could be an attractive alternative to obtain a global view of the pathophysiologic situation. In this context, we worked specifically on cardio-vascular and immune dysfunctions. We first confirmed the predictive value of biomarkers for mortality or nosocomial infections, and showed new elements. We observed that (1) PD-1 overexpression is associated with leukocyte anergy, (2) one biomarker could give different information over time, (3) information provided by the association of two biomarkers is more interesting than the addition of their individual values, and (4) dynamic expression of one biomarker is more informative than its expression at a given time point. Finally, our results illustrate the potential interest of biomarker panels to improve our understanding of the septic syndrome complexity and to reflect their rapid evolution. Consequently, next step will depend on our capacity to develop biostatistic tools that enable clinicians to get, in real time, a global view of the process over time. This key step is likely necessary to decrease the heterogeneity of septic patient population in order to better stratify and target next clinical trials in the field.
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Development of New Radiotracers for PET Imaging of Adrenomedullin and Angiotensin II Type 1 ReceptorsAlonso Martinez, Luis Michel 05 1900 (has links)
Les récepteurs de l'adrénomédulline sont fortement exprimés dans les capillaires alvéolaires humains et fournissent une cible moléculaire pour l'imagerie de la circulation et de l'embolie pulmonaire. Au cours des années précédentes, le dérivé DFH12 marqué au 99mTc (PulmoBind) a démontré son potentiel en tant qu'agent d'imagerie SPECT de l'hypertension pulmonaire dans des études cliniques de phase I et II. L’objectif principal de mon projet est de développer le nouvel analogue DFH17 pour l’imagerie TEP des récepteurs de l'adrénomédulline via la méthode de l’Al18F. Pour atteindre cet objectif, un système d’élution semi-automatique a été conçu pour produire l’Al18F concentré directement dans le vial de réaction. En utilisant des tests de complexation avec le chélateur NOTA, des conditions optimales ont été trouvées pour le radiomarquage du DFH17 avec l’Al18F. La combinaison du rapport Al/DFH17 1:3 dans l'éthanol 50% a permis de produire le [18F]AlF-DFH17 avec des puretés radiochimiques et chimiques élevées. Les études TEP avec le [18F]AlF-DFH17 ont démontré un rapport élevé poumon-bruit de fond ainsi qu’une grande stabilité in vivo chez le rat, le chien et le primate. Des captations différenciées dans les poumons des trois espèces ont aussi été détectées par imagerie TEP et leurs différences ont été associées à des variations de la composant RAMP2. Compte tenu de l’importante captation pulmonaire, de la stabilité in vivo et de la dosimétrie favorable, le nouveau dérivé [18F]AlF-DFH17 est un excellent candidat potentiel en tant que traceur TEP des récepteurs adrénomédulline humains.
L’expression des récepteurs AT1 de l’angiotensine II est altérée dans plusieurs maladies cardiovasculaires et rénales, telles la défaillance cardiaque, rénale et l’hypertension ainsi que dans certains cancers. Auparavant, le dérivé [11C]méthyl-Candesartan a démontré un potentiel
comme agent d'imagerie TEP de l'AT1R rénal mais une proportion élevée du signal TEP correspondait à une liaison non-spécifique d'un radiométabolite hydrophobe. Dans ce travail, l’objectif principal est de développer le nouveau dérivé [18F]fluorobenzyl-Candesartan en utilisant le 4[18F]fluoroiodobenzène ([18F]FIB) avec un profil métabolique et de biodistribution potentiellement meilleurs. Pour atteindre cet objectif, des paramètres réactionnels de fluorination tels que le solvant, la quantité de précurseur, le catalyseur et la température ont été optimisés permettant la radiosynthèse du [18F]FIB avec des rendements et pureté élevés. Ensuite, le couplage du [18F]FIB au dérivé alcyne-trityl-Candesartan a été évalué en utilisant la réaction de Sonogashira suivie d'une détritylation acide. Suite à l’étude de plusieurs conditions de couplage, le rendement de radioconversion a été légèrement augmenté en utilisant le catalyseur Pd(PPh3)4/CuI et K2CO3 comme base. Les meilleures conditions de fluorination et de couplage ont été automatisées pour le module de synthèse Synthra® RNPlus Research. La production du [18F]FB-Candesartan été atteinte avec de faibles rendements et activités molaires en raison de la formation d’impuretés ayant des structures et temps de rétention par HPLC similaires à ceux de notre traceur. Des études supplémentaires afin d'améliorer le rendement, la purification par HPLC et l'activité molaire se sont avérées infructueuses pour l’instant. D’autres expériences devront être effectuées à cette fin. En conclusion, l'utilisation de la réaction de Sonogashira pour produire le [18F]FB-Candersartan avec des rendements et des activités molaires élevées s'est avérée difficile. / Adrenomedullin receptors are highly expressed in human alveolar capillaries and provide a molecular target for imaging the integrity of pulmonary microcirculation. In previous years, the 99mTc-labeled DFH12 derivative (PulmoBind) demonstrated its potential as a SPECT imaging agent of pulmonary hypertension in phase I and II clinical trials. In this work, we aimed to develop a NOTA-derivatized adrenomedullin analog (DFH17), radiolabeled with aluminum fluoride ([18F]AlF), for PET imaging of pulmonary microcirculation. To achieve this goal, highly concentrated [18F](AlF)2+ was produced from purified 18F using a semi-automatic system. Using inexpensive complexation assays with NOTA, optimal conditions at each step of the process were determined facilitating the radiolabeling optimization of DFH17. Furthermore, combining the Al-to-DFH17 1:3 ratio in 50% ethanol as co-solvent, allowed [18F]AlF-DFH17 production in high radiochemical and chemical purities. PET/CT and biodistribution demonstrated high [18F]AlF-DFH17 lung-to-background ratio and in vivo stability in rats, dog and primate. Contrasted inter-species uptake in the lungs associated with variations of RAMP2 were also detected by PET imaging. Considering high lung uptake, in vivo stability and favorable dosimetry observed in the monkey, the novel AM derivative [18F]AlF-DFH17 exhibits an excellent potential as a PET tracer of human AM receptors.
Alterations of the expression levels of AT1R has been linked to cardiac and renal diseases, such as cardiac and renal failures, hypertension and some type of cancers. Previously, [11C]methyl-Candesartan displayed potential for PET imaging of AT1Rs, but a high proportion of PET signal corresponded to non-specific binding from a 11C-labeled hydrophobic metabolite. In this work, the main objective was to develop the novel derivative [18F]fluorobenzyl-Candesartan, with potentially better metabolic profile and biodistribution, using 4-[18F]fluoroidobenzene ([18F]FIB) as prosthetic group. To pursue this goal, radiofluorination parameters such as solvent, amount of precursor, type of catalyst and temperature were optimized to reliably synthesize [18F]FIB in high yield and purity. Coupling of [18F]FIB to the alkyne-trityl-Candesartan was evaluated using the Sonogashira cross-coupling reaction followed by an acid deprotection. After studying several Pd-cross-coupling conditions, the radioconversion yield was slightly increased by means of a Pd(PPh3)4/CuI catalyst and K2CO3 as base in DMF. Therefore, the best reaction conditions for [18F]FIB fluorination and its coupling to alkyne-Candesartan followed by an acid hydrolysis, was fully automated for Synthra® RNPlus Research synthesis module. In general, the synthesis of [18F]FB-Candesartan was achieved in low yields and molar activities due to the formation of structurally-close by-product(s) with similar HPLC retention time. Additional studies to further improve the yield, HPLC purification and molar activity (MA) have been unsuccessful. Other experiments will need to be performed to this end. In conclusion, the use of Sonogashira cross-coupling reaction to produce [18F]FB-Candesartan in high yields and molar activities was found to be challenging.
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Évaluation de l'innocuité et de l'efficacité d'un dérivé synthétique marqué de l'adrénomédulline dans l'imagerie moléculaire pulmonaire chez l'humainLevac, Xavier 08 1900 (has links)
No description available.
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