Vliv dexrazoxanu na ischemicko-reperfuzní poškození srdce potkana / The effects of dexrazoxane on ischemia-reperfusion injury in rat heart

Boudíková, Adéla

January 2010

Dexrazoxane (DEX) is clinically used to reduce cardiotoxic efects of anthracycline cytostatics. Its cardioprotective efect is caused by chelatation of free iron and defends myocard against dangerous hydroxyl radicals. This research finds out how dexrazoxane works in ischemic-reperfusion damages of rat's heart. Each rat was infused by DEX (50, 150, 450 mg/kg) or by control solution. Isolated perfused rat's hearts were exposed to local ischemia for 30 minutes than 10 minutes of reperfusion for studing ischemic arrhythmias followed by 15 minutes of local ischemia and 10 minutes of reperfusion to examine reperfusion arrhythmias. For evaluation of EKG (ventricular arrhythmias) was used software CAR and Lambeth convention. Global ischemias (15 min.) were induced in rat's hearts (DEX 150 mg/kg) and left ventricules were used for HPLC to determinate concentration of glutathion. In vivo experiments rats were infused by DEX 50, 150 mg/kg or control solution and were exposed for 20 minutes to local ischemia and for 3 hours to reperfusion. Infarct size was evaluated based on the cross section of heart (GIMP, Ellipse). Maximum total number of ischemic arrhytmias decreased by DEX 150 mg/kg (64% comparing to controls). Reperfusion score was reduced by DEX 150 to 48% and percents of ventricular fibrilation was...

Étude expérimentale des mécanismes impliqués dans la survenue de la mort subite d’origine cardiaque chez le sportif professionnel « dopé » : prévention par des cardioprotecteurs / Experimental study of implid mecanisms in cardiac sudden death, in the "doped" professionel sportsman : prevention by cardioprotectors

Belhani, Dalila

08 June 2009

La mort subite d’origine cardiaque est fréquemment rencontrée chez les sportifs de haut niveau ayant recours à des produits illicites afin d’accroitre leur performances physiques. Parmi les substances consommées, les stéroïdes anabolisants occupent une place importante. L’objectif de notre travail était : 1) de préciser la nature exacte des lésions cardiaques consécutives à l’usage des stéroïdes anabolisants chez les sportifs décédés de morts subites et chez les lapins traités par la noréthandrolone (NED) et la testostérone (TST); 2) d’en élucider le(s) mécanisme(s) responsable(s) et enfin ; 3) de vérifier si des substances à effets antiischémiques (trimétazidine : TMZ) ou cardioprotecteurs (dexrazoxane : DEX) pouvaient protéger le cœur « agressé » par un stéroïde anabolisant et prévenir le développement de telles lésions / Sudden death of cardiac origin is frequently observed in athletes with a history of illicit products abuse to increase physical performance. Anabolic steroids play a significant role amongst these substances. The aim of this work was: 1) to precisely describe the nature of heart lesions resulting from anabolic steroid abuse in athletes who suddenly died, and in rabbits treated with norethandrolone (NED) or testosterone (TST); 2) to elucidate the underlying mechanism(s) and finally; 3) to test whether anti-ischemia (trimetazidine: TMZ) or cardioprotective (dexrazoxane: DEX) drugs could protect the heart from anabolic steroids and prevent the development of lesions

Testostérone

Noréthandrolone

Trimétazidine

Dexrazoxane

Cardioprotecteurs

Lésions cardiaques

Testosterone

Norethandrolone

Trimetazidine

Dexrazoxane

Cardioprotectors

Heart lesions

616.12

AvaliaÃÃo do feito citoprotetor da amifostina na cardiotoxicidade aguda induzida por doxorubicina. / Evaluation of citoprotector effect of amifostine on the doxorubicin-induced acute cardiotoxicity.

Rosemayre Souza Freire

22 July 2008

nÃo hà / Conselho Nacional de Desenvolvimento CientÃfico e TecnolÃgico / IntroduÃÃo: A Doxorubicina (DOX), antineoplÃsico antracÃclico, à largamente utilizada no tratamento dos mais diversos tipos de tumores sÃlidos e neoplasias hematolÃgicas. A Cardiotoxicidade provocada pelo uso de antibiÃticos antracÃclicos tem sido observada hà algumas dÃcadas como fator agravante e limitante do uso terapÃutico da DOX. Apesar do conhecimento de inÃmeros fatores que podem mediar a induÃÃo da cardiotoxicidade pela DOX, os mecanismos fisiopatolÃgicos continuam nÃo esclarecidos. Objetivo: Avaliar o efeito da amifostina e glutationa na cardiotoxicidade aguda induzida por doxorubicina e estudar a morfologia do tecido cardÃaco de camundongos tratados com doxorubicina por microscopia de forÃa atÃmica. Material e MÃtodos: Camundongos C57BL/6 fÃmeas (n=8) foram tratados com doxorubicina (25mg/Kg i.p.) ou salina (0,2mL i.p.) e sacrificados 96 horas apÃs tratamento. Outro grupo experimental foi tratado com amifostina (AMF 25, 50 e 100 mg/Kg s.c.), glutationa (GLT 125, 250 e 500mg/Kg s.c.) ou salina 30 mim antes da injeÃÃo de doxorubicina, no caso da glutationa a administraÃÃo foi diÃria atà o dia do sacrifÃcio. Os parÃmetros analisados foram: eletrocardiograma, Ãndices cardÃaco e esplÃnico, dosagem de grupos sulfidrilas nÃo protÃicos, dosagem de CK e CK-MB, parÃmetros histolÃgicos, dosagem por ELISA de TNF-&#61537;, IL-1&#61538;&#61484; expressÃo por imunohistoquÃmica de TNF-&#61537;, IL-1&#61538;, iNOS, apoptose e anÃlise por microscopia de forÃa atÃmica. Resultados: O tratamento com AMF nas doses de 50 e 100mg/Kg e GLT 250 e 500 mg/Kg foi capaz de aumentar a percentagem de sobrevivÃncia dos animais que foram submetidos a cardiotoxicidade aguda induzida por DOX (25 mg/Kg) quando comparados com o grupo injetado somente com DOX. A AMF e GLT tambÃm foram capazes de prevenir, em comparaÃÃo ao grupo DOX (p<0,05), as alteraÃÃes nos valores eletrocardiogrÃficos, (aumento do QRS e QTc e diminuiÃÃo da amplitude de R), as alteraÃÃes nos Ãndices cardÃacos e esplÃnicos, a elevaÃÃo dos nÃveis sÃricos das enzimas CK e CK-MB, a reduÃÃo dos nÃveis de grupos sulfidrilas nÃo protÃicos no tecido cardÃaco e as alteraÃÃes histolÃgicas (degeneraÃÃo hidrÃpica e vacuolizaÃÃo, focos de hialinizaÃÃo de fibras cardÃacas, picnose e necrose) induzidas pela DOX (25mg/Kg). A DOX induziu aumento da marcaÃÃo imunohistoquÃmica para cÃlulas apoptÃticas e expressÃo de iNOS e diminuiu a expressÃo de TNF-&#61537;. A AMF foi capaz de prevenir estas alteraÃÃes, sendo esta prevenÃÃo apenas discreta para a expressÃo de TNF-&#61537;. A microscopia de forÃa atÃmica revelou alteraÃÃes morfolÃgicas nÃo vistas pela microscopia Ãptica e mostrou ser uma ferramenta valiosa na avaliaÃÃo de efeitos de drogas. ConclusÃo: Nossos resultados sugerem o efeito citoprotetor da amifostina pelo aumento da atividade da glutationa peroxidase no tecido cardÃaco e que esta se mostra tÃo eficiente quanto a droga de referencia dexrazoxane. A utilizaÃÃo da microscopia atÃmica introduz uma ferramenta de anÃlise comparativa em escala nanomÃtrica, tornando possÃvel observar a destruiÃÃo membranar cardÃaco condizente com dano oxidativo. / IntroduÃÃo: A Doxorubicina (DOX), antineoplÃsico antracÃclico, à largamente utilizada no tratamento dos mais diversos tipos de tumores sÃlidos e neoplasias hematolÃgicas. A Cardiotoxicidade provocada pelo uso de antibiÃticos antracÃclicos tem sido observada hà algumas dÃcadas como fator agravante e limitante do uso terapÃutico da DOX. Apesar do conhecimento de inÃmeros fatores que podem mediar a induÃÃo da cardiotoxicidade pela DOX, os mecanismos fisiopatolÃgicos continuam nÃo esclarecidos. Objetivo: Avaliar o efeito da amifostina e glutationa na cardiotoxicidade aguda induzida por doxorubicina e estudar a morfologia do tecido cardÃaco de camundongos tratados com doxorubicina por microscopia de forÃa atÃmica. Material e MÃtodos: Camundongos C57BL/6 fÃmeas (n=8) foram tratados com doxorubicina (25mg/Kg i.p.) ou salina (0,2mL i.p.) e sacrificados 96 horas apÃs tratamento. Outro grupo experimental foi tratado com amifostina (AMF 25, 50 e 100 mg/Kg s.c.), glutationa (GLT 125, 250 e 500mg/Kg s.c.) ou salina 30 mim antes da injeÃÃo de doxorubicina, no caso da glutationa a administraÃÃo foi diÃria atà o dia do sacrifÃcio. Os parÃmetros analisados foram: eletrocardiograma, Ãndices cardÃaco e esplÃnico, dosagem de grupos sulfidrilas nÃo protÃicos, dosagem de CK e CK-MB, parÃmetros histolÃgicos, dosagem por ELISA de TNF-&#61537;, IL-1&#61538;&#61484; expressÃo por imunohistoquÃmica de TNF-&#61537;, IL-1&#61538;, iNOS, apoptose e anÃlise por microscopia de forÃa atÃmica. Resultados: O tratamento com AMF nas doses de 50 e 100mg/Kg e GLT 250 e 500 mg/Kg foi capaz de aumentar a percentagem de sobrevivÃncia dos animais que foram submetidos a cardiotoxicidade aguda induzida por DOX (25 mg/Kg) quando comparados com o grupo injetado somente com DOX. A AMF e GLT tambÃm foram capazes de prevenir, em comparaÃÃo ao grupo DOX (p<0,05), as alteraÃÃes nos valores eletrocardiogrÃficos, (aumento do QRS e QTc e diminuiÃÃo da amplitude de R), as alteraÃÃes nos Ãndices cardÃacos e esplÃnicos, a elevaÃÃo dos nÃveis sÃricos das enzimas CK e CK-MB, a reduÃÃo dos nÃveis de grupos sulfidrilas nÃo protÃicos no tecido cardÃaco e as alteraÃÃes histolÃgicas (degeneraÃÃo hidrÃpica e vacuolizaÃÃo, focos de hialinizaÃÃo de fibras cardÃacas, picnose e necrose) induzidas pela DOX (25mg/Kg). A DOX induziu aumento da marcaÃÃo imunohistoquÃmica para cÃlulas apoptÃticas e expressÃo de iNOS e diminuiu a expressÃo de TNF-&#61537;. A AMF foi capaz de prevenir estas alteraÃÃes, sendo esta prevenÃÃo apenas discreta para a expressÃo de TNF-&#61537;. A microscopia de forÃa atÃmica revelou alteraÃÃes morfolÃgicas nÃo vistas pela microscopia Ãptica e mostrou ser uma ferramenta valiosa na avaliaÃÃo de efeitos de drogas. ConclusÃo: Nossos resultados sugerem o efeito citoprotetor da amifostina pelo aumento da atividade da glutationa peroxidase no tecido cardÃaco e que esta se mostra tÃo eficiente quanto a droga de referencia dexrazoxane. A utilizaÃÃo da microscopia atÃmica introduz uma ferramenta de anÃlise comparativa em escala nanomÃtrica, tornando possÃvel observar a destruiÃÃo membranar cardÃaco condizente com dano oxidativo. / Introduction: Doxorubicin (DOX) is an antineoplasic anthracyclic agent used on the treatment of several solid tumors and hematological cancers. DOX-induced cardiotoxicity has been studied for decades as a limiting factor on the anticancer therapy with this drug. Despite the current knowledge concerning the mechanisms of DOX-induced cardotoxicity, its pathophysiology is still not clear. Purpose: To evaluate of the amifostine and glutathione citoprotective effect on the DOX-induced acute cardiotoxicity and to study the morphology of cardiac tissue through the use of atomic force microscopy as a tool. Materials and Methods: C57BL/6 female mice were treated with doxorubicin (25mg/Kg i.p.) or saline (0,2mL i.p.) and sacrificed 96 hours after treatment. In another experimental setting, mice were given amifostine (AMF 25, 50 e 100 mg/Kg s.c.), glutathione (GLT 125, 250 e 500mg/Kg s.c.) or vehicle, 30 mim before the administration of DOX, except glutathione that was injected daily. Analitical parameters included: electrocardiograms, cardiac and spleen indices, non protein suphidrils groups levels, CK and CK-MB cardiac enzymes levels, histological analysis, cardiac levels of (TNF-&#61537;, IL-1&#61538;, iNOS) determined by ELISA, immunohistochemistry for TNF-&#61537;, IL-1&#61538;, iNOS, apoptosis and atomic force microscopy tissue analysis. Results: AMF (100mg/Kg) and GLT (250 e 500 mg/Kg) treatments were able of improve the survival rate of animals in spite of the injection of DOX (25 mg/Kg) in comparison to DOX-treated only group (p<0.05). A AMF e GLT were also able to prevent electrocardiographic changes (rising of QRS e QTc and reduced R amplitude), changes in the cardiac and spleen indices, the augmentation of blood levels of CK e CK-MB, reduction of non proteic suphidrils groups levels, and histological changes induced by DOX (25mg/Kg). DOX induced the augmentation of the immunostaining for apoptotic cells and iNOS what was prevented by the administration of amifostine. The atomic force microscopy reveals morphological changes on the tissue organizational structure which is not possible to be observed through optical microscopy. Conclusion: Our results suggest that the amifostine citoprotective effect on DOX-induced acute cardiotoxicity is due the rising of glutathione peroxidase activity in the cardiac tissue. The citoprotective effect of amifostine is as efficient as the reference drug dexrazoxane. The use of atomic force microscopy as a new pharmacological tool for comparative analysis in nanometric scale allow us to observe DOX-induced membrane destruction what is suggestive of oxidative stress process. / Introduction: Doxorubicin (DOX) is an antineoplasic anthracyclic agent used on the treatment of several solid tumors and hematological cancers. DOX-induced cardiotoxicity has been studied for decades as a limiting factor on the anticancer therapy with this drug. Despite the current knowledge concerning the mechanisms of DOX-induced cardotoxicity, its pathophysiology is still not clear. Purpose: To evaluate of the amifostine and glutathione citoprotective effect on the DOX-induced acute cardiotoxicity and to study the morphology of cardiac tissue through the use of atomic force microscopy as a tool. Materials and Methods: C57BL/6 female mice were treated with doxorubicin (25mg/Kg i.p.) or saline (0,2mL i.p.) and sacrificed 96 hours after treatment. In another experimental setting, mice were given amifostine (AMF 25, 50 e 100 mg/Kg s.c.), glutathione (GLT 125, 250 e 500mg/Kg s.c.) or vehicle, 30 mim before the administration of DOX, except glutathione that was injected daily. Analitical parameters included: electrocardiograms, cardiac and spleen indices, non protein suphidrils groups levels, CK and CK-MB cardiac enzymes levels, histological analysis, cardiac levels of (TNF-&#61537;, IL-1&#61538;, iNOS) determined by ELISA, immunohistochemistry for TNF-&#61537;, IL-1&#61538;, iNOS, apoptosis and atomic force microscopy tissue analysis. Results: AMF (100mg/Kg) and GLT (250 e 500 mg/Kg) treatments were able of improve the survival rate of animals in spite of the injection of DOX (25 mg/Kg) in comparison to DOX-treated only group (p<0.05). A AMF e GLT were also able to prevent electrocardiographic changes (rising of QRS e QTc and reduced R amplitude), changes in the cardiac and spleen indices, the augmentation of blood levels of CK e CK-MB, reduction of non proteic suphidrils groups levels, and histological changes induced by DOX (25mg/Kg). DOX induced the augmentation of the immunostaining for apoptotic cells and iNOS what was prevented by the administration of amifostine. The atomic force microscopy reveals morphological changes on the tissue organizational structure which is not possible to be observed through optical microscopy. Conclusion: Our results suggest that the amifostine citoprotective effect on DOX-induced acute cardiotoxicity is due the rising of glutathione peroxidase activity in the cardiac tissue. The citoprotective effect of amifostine is as efficient as the reference drug dexrazoxane. The use of atomic force microscopy as a new pharmacological tool for comparative analysis in nanometric scale allow us to observe DOX-induced membrane destruction what is suggestive of oxidative stress process.

Doxorubicina

Cardiotoxicidade

Dexrazoxane

Doxorubicin

Atomic Force Microscopy

Amifostine

Cardiotoxicity

Dexrazoxane

Glutathione

FARMACOLOGIA

FARMACOLOGIA

Antiproliferativní a kardioprotektivní potenciál nově syntetizovaných analogů dexrazoxanu. / Antiproliferative and cardioprotective potential of the newly synthetised analogues of dexrazoxane.

Gavurová, Lucie

January 2015

Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Biochemical Sciences Candidate: Lucie Gavurová Supervisor: PharmDr. Anna Jirkovská, PhD. Title of diploma thesis: Antiproliferative and cardioprotective activity of novel dexrazoxane analogues Anthracycline antibiotics (such as daunorubicin, doxorubicin or epirubicin) forms the basis of anticancer therapy in many hematological malignancies and solid tumors. However, their clinical use is limited by adverse effects. The most serious of these effects is chronic form of anthracycline-induced cardiotoxicity. Dexrazoxane is the only one clinically approved cardioprotective agent against anthracycline cardiotoxicity so far. Despite its well-evidenced cardioprotective effects, dexrazoxane use is very limited due to its possible adverse effects. The the synthesis of novel analogs of might contribute to understanding of the relationship between structure and effects of dexrazoxane. Finally, this approach could lead to the synthesis of structure with better pharmacological properties. The aim of this diploma thesis was to assess the antiproliferative activity of novel analogues of dexrazoxane (JR-281B, JR-311, JR-306A, JR-306B, JR-232 and JR-312B), and the study of the influence on the antiproliferative effect of anthracyclines....

Stanovení stechiometrie komplexu aktivního metabolitu dexrazoxanu ADR-925 s železem a mědí standardní Jobovou metodou / Assessment of the complex stoichiometry of the active dexrazoxane metabolite ADR-925 with iron and copper by the standard Job's method

Szotáková, Tereza

January 2018

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology and Toxicology Candidate: Tereza Morávková Supervisor: Assoc. Prof. Přemysl Mladěnka, Pharm.D., Ph.D. Title of Thesis: Assessment of the complex stoichiometry of the active dexrazoxane metabolite ADR-925 with iron and copper by the standard Job'smethod Iron and copper are important trace elements which participate on many physiological processes in humans. Their kinetics in the organism is tightly regulated since both lack or excess of these elements are associated with pathological states. Free ions of iron and copper can catalyse reactive oxygen species (ROS) production and hence cause damage to proteins and DNA. Imbalance in these metals is linked with diabetes, cardiotoxicity, cirrhosis of the liver and neurodegenerative diseases as Alzheimer's disease or Parkinson's disease. Dexrazoxane is a drug with documented protecting effect against cardiotoxicity of anthracyclines. A former theory associated its protective effects against these cytotoxic drugs with the iron-chelating properties of its active metabolite ADR-925. The goal of this diploma thesis was to explore if ADR-925 is able to chelate Fe2+ , Fe3+ , Cu+ a Cu2+ ions at physiologically and pathophysiologically relevant pH values (4,5; 5,5; 6,8 and 7,5) and...

Antiproliferační aktivita nových analogů dexrazoxanu a jejich vliv na protinádorový účinek antracyklinů / Antiproliferative activity of novel dexrazoxane analogues and their effect on antitumor effectiveness of anthracyclines

Martinková, Pavla

January 2014

Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Biochemical Sciences Candidate: Bc. Pavla Martinková Supervisor: PharmDr. Anna Jirkovská, PhD. Title of diploma thesis: Antiproliferative activity of novel dexrazoxane analogues and their effect on antitumor effectiveness of anthracyclines Athracycline antibiotics (such as daunorubicin, doxorubicin or epirubicin) belong to the most common terapeutics of both solid tumors and hematological malignities. Unfortunately the serious and life-threatening adverse effect cardiotoxicity compromises their clinical usefulness. The only approved protection against anthracycline cardiotoxicity so far is dexrazoxane. Despite the outstanding cardioprotective ability, dexrazoxane use is very limited mainly due to its possible side effects. So we were directed towards synthesis of dexrazoxane analogues with better pharmacological properties. The aim of this diploma thesis was to assess the antiproliferative activity of novel analogues of both dexrazoxane (MK-15 and ES-5) and ADR-925 (JR-159 and KH- TA4) and their influence on the antiproliferative effectiveness of anthracyclines. Moreover, we aimed to study their chelating properties and their inhibition of the topoisomerase II in solution. We tested the antiproliferative activity of...