Processo oxidativo em doadores de sangue portadores de hemoglobina S e mutantes no gene HFE /

Baracioli, Lígia Márcia da Silveira Viana.

January 2009

Orientador: Claudia Regina Bonini Domingos / Banca: Rodolfo Delfini Cançado / Banca: Ivan de Lucena Angulo / Banca: Maria Tercilia de Azeredo Oliveira / Banca: Eduardo Alves de Almeida / Resumo: As hemoglobinopatias são as mais comuns das doenças genéticas e são classificadas em Talassemias e Variantes de Hemoglobinas. A Hb S é originada por uma mutação de ponto no códon que origina o aminoácido da posição seis da cadeia beta globina, resultando em uma modificação estrutural na molécula que altera sua solubilidade e cristalização. A Hb S apresenta efeito sobre as células sangüíneas, desencadeando processos oxidativos com geração de radicais livres. Efeito semelhante observa-se no acúmulo de ferro, em decorrência da hemocromatose hereditária. Os defeitos de metabolismo do ferro, em especial aqueles oriundos dos polimorfismos no gene HFE, levam ao acúmulo de ferro tecidual, com potencial capacidade oxidante e peroxidação lipídica. Fundamentados no possível efeito tóxico da mutação no gene da globina βS (Hb S) e do acúmulo de ferro tecidual, relatados na literatura, objetivou-se avaliar a influência dos polimorfismos do gene HFE na peroxidação lipídica dos portadores dessa alteração de hemoglobina e sua relação com o aumento da destruição eritrocitária e geração de estresse oxidativo. Foram analisadas 16.000 amostras de doadores de sangue e encontrou-se uma freqüência de Hb AS de 1,69% na região Noroeste do Estado de São Paulo. Destes, 43 apresentaram herança da Hb S e de pelo menos um dos dois polimorfismos no gene HFE testados. A freqüência dos polimorfismos C282Y e H63D, no gene HFE, no grupo de doadores com Hb AS, esta de acordo com os dados da literatura. No grupo de doadores de sangue com Hb AS observamos que, na herança concomitante dos dois polimorfismos, os níveis de MDA, indicativo de peroxidação lipídica, estavam elevados, indicando a influência de ambas afecções genéticas, no aumento dos níveis de peroxidação lipídica. Entretanto, os níveis médios da TEAC, indicativo da capacidade oxidante, apresentaram-se... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The hemoglobinopathies are the most common of the genetic disease and are classified in Thalassemia and Hemoglobin Variants. Hb S is originated by a point mutation in the codon that originates the sixth aminoacid of the β globin chain, resulting in a structural modification in the molecule that modifies the solubility and crystallization. Hb S presents an effect on the blood cells, unchaining the oxidative processes with the free radicals generation. Similar effect is observed in the iron accumulation, in result of the hereditary hemochromatosis. The iron metabolism defects, in special those one from the HFE gene polymorphism, lead to the tissue iron accumulation with potential oxidant capacity and lipid peroxidation. Based on the possible toxic effect of the mutation in the globin βS gene (Hb S) and tissue iron accumulation, mentioned in the literature, we was aimed evaluate the influence of HFE gene polymorphism in the lipid peroxidation in blood donors with hemoglobin S alteration and the relation with the eritrocitary destruction increase and oxidative stress generation. 16,000 samples of blood donor had been analyzed and it was found a Hb frequency of 1,69% from the Northwest São Paulo state region. Among them, 43 had presented concomitance in the Hb S inheritance and one of the two HFE gene polymorphism. The frequency of C282Y and H63D polymorphism, in the HFE gene, in the blood donor group with Hb S, is in according to the literature. We also verified in the blood donor group with Hb AS that, in the concomitant inheritance of the two polymorphism, the MDA levels, indicative of lipid peroxidation, were raised, showing the influence of both genetic affections, in the levels of lipid peroxidation. However, the TEAC average levels, indicative of the oxidant capacity, had been presented normal, indicating that in spite of a lipid peroxidation raise, this is not followed... (Complete abstract click electronic access below) / Doutor

Hemoglobinopatia.

Hemoglobina.

Hemocromatose.

Hemoglobinopathies. eng

Sickle cell disease. eng

HFE. eng

Hemochromatosis. eng

Antioxidant capacity. eng

Stress oxidative. eng

Efeitos da laserterapia de baixa intensidade sobre marcadores de estresse oxidativo do músculo gastrocnêmio de ratos diabéticos submetidos a exercício de alta intensidade / Effects of low level laser on oxidative stress markers of the gastrocnemius muscle of diabetic rats subjects to high intensity exercise

Frigero, Marcelo

14 December 2015

Submitted by Nadir Basilio (nadirsb@uninove.br) on 2018-06-15T13:28:20Z No. of bitstreams: 1 Marcelo Frigero.pdf: 4578817 bytes, checksum: bb7e000ccbea1f3da7af610ed7c95a39 (MD5) / Made available in DSpace on 2018-06-15T13:28:20Z (GMT). No. of bitstreams: 1 Marcelo Frigero.pdf: 4578817 bytes, checksum: bb7e000ccbea1f3da7af610ed7c95a39 (MD5) Previous issue date: 2015-12-14 / Purpose: The aim of the present study was to determine whether low-level laser therapy (LLLT), when used in gastrocnemius muscle of diabetic rats subjected to high-intensity exercise to fatigue, Interferes with the expression of stress markers oxidative. Materials and Methods: The total of 24 male Wistar rats (Norvergicos Albinos). Were used for this study: 24 diabetics rats. The animals were randomly divided into three groups designated as follows: Group Diabetic Fatigue - Did not receive irradiation to LLLT and performed the fatigue protocol; Group Diabetic Laser Fatigue - received irradiation to LLLT and performed the fatigue protocol and Group Non-Diabetic Control - Did not receive irradiation to LLLT and performed the fatigue protocol. Diabetes was induced in rats by streptozotocin (50 mg / kg, ip) was subsequently performed measure of blood lactate levels, LLLT laser was applied at 808 nm and 4 joules of energy to the Indicated groups and the animals were exercised groups submitted to treadmill running with speed and gradual slope until exhaustion noted by VO2máx and lactate level. The rats were euthanized, and muscle tissue and presented the analysis of SOD markers; CAT; GPX and TBARS. Results: VO20.75máx values in the Group Diabetic Fatigue were significantly higher from those in the control group (p <0.01) and the Group Diabetic Laser Fatigue (p <0.05). The results indicate that the activities of CAT, SOD, and GPx were higher and statistically significant (p<0.05) in the Group Diabetic Laser Fatigue than those in the diabetic groups. Outcomes for LBI group were similar than control group (p>0.05), statistically significant activities of antioxidant enzymes compared to the Group Diabetic Fatigue. The LBI group could also mitigate the concentration of TBARS (p> 0.05). Conclusion: LBI imay reduce oxidative stress, as well as increase VO20.75máx. Furthermore, our outcomes indicate that LBI can be an alternative to maintain physical fitness in conditions where subjects aren’t able to perform exercise. Which needs to be tested in further clinical studies. / Objetivo: O objetivo do presente estudo foi determinar se a terapia Laser de baixa intensidade (LBI), quando usado no músculo gastrocnêmio de ratos diabéticos, submetidos a exercícios de alta intensidade, até a fadiga, interfere com a expressão de marcadores de estresse oxidativo. Materiais e Métodos: Para realização do trabalho, a amostra foi composta por 24 ratos machos (Norvergicos Albinus), de linhagem Wistar. Os animais foram divididos aleatoriamente em três grupos designados da seguinte forma: Grupo Diabético Fadiga - Não recebeu irradiação para LBI e realizou o protocolo de fadiga; Grupo Diabético Fadiga Laser - recebeu irradiação com LBI e realizou o protocolo de fadiga e o Grupo Controle Não Diabético – não recebeu irradiação e realizou protocoloco de fadiga. A Diabetes foi induzida por estreptozotocina (STZ) (50 mg / kg, ip), e confirmado através da medida de glicose no sangue. Foi utilizado o Laser de 808 nm e energia de 4J, para os grupo indicado e os animais foram submetidos ao exercicio de corrida em esteira rolante com velocidade e inclinação gradual até a fadiga, observado através do VO2máx e nível de lactato. Os ratos foram sacrificados, e o tecido muscular retirado para a análise dos marcadores de SOD; CAT; GPX e TBARS. Resultados: Os valores VO20.75máx no Grupo Diabético Fadiga foram significativamente mais elevados do que aqueles no Grupo Controle Não Diabético (p <0,01) e do Grupo Diabético Fadiga Laser (p <0,05). Os resultados indicam que as atividades de CAT, SOD, e GPx foram maiores e estatisticamente significativas (p <0,05) no do que as dos Grupo Diabético Fadiga. Resultados para o Grupo Diabético Fadiga Laser foram semelhantes ao Grupo Controle Não Diabético e estatisticamente (p> 0,05) significativas para as atividades de enzimas antioxidantes em comparação com o Grupo Diabético Fadiga. No Grupo Diabético Fadiga Laser poderia também minimizar a concentração de TBARS (p> 0,05). Conclusão: LBI pode reduzir o estresse oxidativo, bem como aumentar o VO20.75máx. Além disso, nossos resultados indicam que a LBI pode ser uma alternativa para melhoria das condições musculares em relação a fadiga. Novos estudos clínicos devem ser realizados para verificar a eficácia da técnica.

diabetes mellitus

laser baixa potência

estresse oxidativo

diabetes mellitus

low level laser therapy

stress oxidative

CIENCIAS DA SAUDE

Prolonged Lipid Accumulation in Cultured Primary Human Hepatocytes Rather Leads to ER Stress than Oxidative Stress

Rennert, Christiane, Heil, Theresa, Schicht, Gerda, Stilkerich, Anna, Seidemann, Lena, Kegel-Hübner, Victoria, Seehofer, Daniel, Damm, Georg

22 February 2024

Overweight has become a major health care problem in Western societies and is accompanied by an increasing incidence and prevalence of non-alcoholic fatty liver disease (NAFLD). The progression from NAFLD to non-alcoholic steatohepatitis (NASH) marks a crucial tipping point in the progression of severe and irreversible liver diseases. This study aims to gain further insight into the molecular processes leading to the evolution from steatosis to steatohepatitis. Steatosis was induced in cultures of primary human hepatocytes by continuous five-day exposure to free fatty acids (FFAs). The kinetics of lipid accumulation, lipotoxicity, and oxidative stress were measured. Additionally, ER stress was evaluated by analyzing the protein expression profiles of its key players: PERK, IRE1a, and ATF6a. Our data revealed that hepatocytes are capable of storing enormous amounts of lipids without showing signs of lipotoxicity. Prolonged lipid accumulation did not create an imbalance in hepatocyte redox homeostasis or a reduction in antioxidative capacity. However, we observed an FFA-dependent increase in ER stress, revealing thresholds for triggering the activation of pathways associated with lipid stress, inhibition of protein translation, and apoptosis. Our study clearly showed that even severe lipid accumulation can be attenuated by cellular defenses, but regenerative capacities may be reduced.

info:eu-repo/classification/ddc/610

ddc:610

Prolonged Lipid Accumulation in Cultured Primary Human Hepatocytes Rather Leads to ER Stress than Oxidative Stress

Rennert, Christiane, Heil, Theresa, Schicht, Gerda, Stilkerich, Anna, Seidemann, Lena, Kegel-Hübner, Victoria, Seehofer, Daniel, Damm, Georg

26 February 2024

Overweight has become a major health care problem in Western societies and is accompanied by an increasing incidence and prevalence of non-alcoholic fatty liver disease (NAFLD). The progression from NAFLD to non-alcoholic steatohepatitis (NASH) marks a crucial tipping point in the progression of severe and irreversible liver diseases. This study aims to gain further insight into the molecular processes leading to the evolution from steatosis to steatohepatitis. Steatosis was induced in cultures of primary human hepatocytes by continuous five-day exposure to free fatty acids (FFAs). The kinetics of lipid accumulation, lipotoxicity, and oxidative stress were measured. Additionally, ER stress was evaluated by analyzing the protein expression profiles of its key players: PERK, IRE1a, and ATF6a. Our data revealed that hepatocytes are capable of storing enormous amounts of lipids without showing signs of lipotoxicity. Prolonged lipid accumulation did not create an imbalance in hepatocyte redox homeostasis or a reduction in antioxidative capacity. However, we observed an FFA-dependent increase in ER stress, revealing thresholds for triggering the activation of pathways associated with lipid stress, inhibition of protein translation, and apoptosis. Our study clearly showed that even severe lipid accumulation can be attenuated by cellular defenses, but regenerative capacities may be reduced.

info:eu-repo/classification/ddc/610

ddc:610

Extreme radiation tolerance of Deinococcus deserti : Characterization of the central regulator IrrE

Ludanyi, Monika

27 November 2014

Les bactéries du genre Deinococcus sont extrêmement tolérantes à de fortes doses de radiations. Des études antérieures ont montré que IrrE est nécessaire à la radiotolérance et à l'induction des gènes de réparation de l'ADN après exposition des cellules à l'irradiation. Pendant des années il est resté inconnu comment IrrE active l'expression de ces gènes. L'objectif de ma thèse était la caractérisation de la voie de signalisation dépendent de IrrE chez Deinococcus deserti. Pour cela, des approches biochimiques et génétiques ont été utilisées. Les premiers résultats ont fortement suggéré que IrrE agit indirectement sur l'activation de l'expression des gènes. En utilisant des expériences in vitro et in vivo, nous avons montré que IrrE de Deinococcus deserti interagit avec DdrO, un régulateur potentiel qui est codé par un gène radio-induit et qui est, comme IrrE, conservé chez les Deinococcus. De plus, IrrE clive DdrO in vitro mais aussi in vivo lorsque les deux protéines sont co-exprimées chez Escherichia coli. Ce clivage est abolit en présence d'un agent chélateur de métaux, l'EDTA. Chez D. deserti, le clivage de DdrO dépendent de IrrE a été observé mais seulement après exposition à l'irradiation. En parallèle, nous avons montré que la répression du promoteur d'un gène radio-inductible est dépendante de DdrO. Nos résultats montrent donc que IrrE est une métalloprotéase et nous proposons que le répresseur DdrO soit désactivé après clivage par IrrE conduisant à l'induction de différents gènes indispensables pour la réparation de l'ADN et la survie des cellules après exposition de Deinococcus à l'irradiation. / Deinococcus bacteria are famous for their extreme tolerance to high doses of radiation. Earlier studies have shown that IrrE protein is required for radiation tolerance and for induction of DNA repair genes after exposure of cells to radiation. However, for years it has remained unknown how IrrE activates gene expression. The aim of my thesis was to characterize the IrrE-dependent regulation pathway in Deinococcus deserti. For this, biochemical and genetic approaches were used. The first results strongly suggested that IrrE activates gene expression in an indirect manner. Then, using other in vivo and in vitro experiments, IrrE from Deinococcus deserti was found to interact with DdrO, a predicted regulator encoded by a radiation-induced gene that is, like irrE, highly conserved in Deinococcus. Moreover, IrrE was found to cleave DdrO in vitro and also in vivo when the proteins were co-expressed in Escherichia coli. This cleavage was not observed in the presence of the metal chelator EDTA. In D. deserti, IrrE-dependent cleavage of DdrO was observed only after exposure to radiation. Furthermore, DdrO-dependent repression of the promoter of a radiation-induced gene was shown. Our results demonstrate that IrrE is a metalloprotease and we propose that IrrE-mediated cleavage inactivates repressor protein DdrO, leading to transcriptional induction of various genes required for DNA repair and cell survival after exposure of Deinococcus to radiation.

Deinococcus

Tolerance aux irradiation et desiccation

Stress oxidative

Reparation de l'ADN

Genomique comparative

Proteome

Deinococcus

Desiccation and radiation tolerance

Oxydative stress

DNA repair

Comparative genomics

Proteome

579

Homologous recombination protects against mitotic defects and unbalanced chromosome segregation caused by spontaneous replication stress / Recombinaison homologue protège contre les défauts de la mitose et la ségrégation des chromosomes déséquilibre causé par le stress de réplication spontanée

Wilhelm, Therese

21 January 2011

Les cellules déficientes pour la recombinaison homologue (RH) présentent un ralentissement des fourches de réplication, un nombre aberrant de centrosomes et une aneuploïdie même en absence de stress exogène (Bertrand P 2003, Daboussi F 2005, 2008, Deng 1999, 2002, Griffin 2000, Kraakman-van der Zwet 2002). De plus, la fréquence des mitoses présentant des chromosomes surnuméraires est plus élevée dans ces cellules.L’ensemble des ces résultats suggéraient que le ralentissement des fourches de réplication dans les cellules déficientes pour la RH pourrait avoir un impact direct sur la formation de centrosomes surnuméraires. De plus, nous voulions savoir si cela pouvait également influencer la ségrégation des chromosomes au cours de la mitose. Les résultats que nous avons obtenus sont rassemblés dans l’article intitulé : “Homologous Recombination protects against mitotic defects and unbalanced chromosome segregation caused by spontaneous replication stress”.Le traitement des cellules compétentes pour la RH avec 5µM d’hydroxyurée (HU), un inhibiteur de l’enzyme de synthèse des dNTPs, induit un ralentissement des fourches de réplication parfaitement comparable à celui observé dans les cellules déficientes pour la RH. Après traitement à l’HU des cellules compétentes pour la RH, la fréquence de mitoses présentant des chromosomes surnuméraires augmente et devient similaire à la fréquence de mitoses avec des chromosomes surnuméraires pour les cellules déficientes pour la HR non traitées à l’HU. Nous avons mesuré l’impact de l’HU sur l’apparition des ponts anaphasiques et sur des défauts de ségrégation des chromosomes lors de la mitose. En l’absence de traitement, nous observons une fréquence plus élevée de ponts anaphasiques et de défauts de ségrégation dans des cellules déficientes pour la RH. Des traitements avec 5µM d’HU augmentent la fréquence des ponts anaphasiques et des erreurs de ségrégation dans les cellules compétentes pour la RH, pour atteindre un niveau comparable aux cellules déficientes pour la RH. Ainsi, une altération de la dynamique de réplication consécutive à une déficience de RH ou à un traitment avec de faibles doses d’HU induit des défauts au cours de la mitose. Un lien direct entre une dynamique de réplication anormale et l’apparition d’un nombre aberrant de centrosomes pourrait être la persistance en mitose d’ADN non répliqué ou endommagé.  Comme l’ADN non répliqué ou les fourches bloquées induisent la formation d’ADN simple brin couvert par RPA, nous avons compté le nombre de cellules en G2/M présentant des foyers de RPA, et observé que la fraction de cellules ayant plus de 5 foyers de RPA augmente dans des cellules déficientes pour Brca2. En conclusion, nous proposons un lien direct entre des altérations de la cinétique de réplication, l’apparition de centrosomes surnuméraires et des défauts de ségrégation des chromosomes en mitose dans les cellules déficientes pour la RH même non soumises à un stress exogène. L’utilisation de faibles doses d’HU dans des cellules compétentes pour la RH mime les phénotypes observés dans les cellules déficientes pour la RH et confirme notre modèle.Nous avons également cherché à comprendre les causes du ralentissement des fourches de réplication observé dans les cellules déficientes pour la RH. Il est ainsi possible que les arrêts de fourches spontanés soient une conséquence d’un stress oxydatif endogène. Dans les cellules compétentes pour la RH, le redémarrage des fourches bloquées est possible et assure une progression normale de la réplication de l’ADN. Ceci favorise une ségrégation équilibrée des chromosomes, le maintien de la diploïdie et la stabilité du génome. Dans des cellules déficientes pour la RH, les blocages de fourches devraient être délétères puisque les principaux mécanismes de redémarrage des fourches ne sont pas fonctionnels. De plus, l’arrêt prolongé des fourches ainsi que les cassures double brin générées par l’effondrement des fourches devraient activer des voies de signalisation. Nous avons néanmoins observé que les cellules ne sont pas bloquées dans le cycle cellulaire, ce qui suggère qu’un seuil supérieur de dommages doive être atteint pour induire l’arrêt du cycle. Les stress endogènes ne semblent donc pas suffisamment élevés pour atteindre ce seuil : même si l’ensemble des fourches parcourant le génome sont ralenties, l’activation d’origines cryptiques permet de compenser et ainsi de maintenir la progression dans le cycle. Mais puisque les cellules ne sont pas arrêtées dans le cycle, des fourches bloquées, de l’ADN endommagé ou non répliqué pourraient persister jusqu’à la transition G2/M et in fine perturber le déroulement de la mitose. Des centrosomes multipolaires provoquent la formation de fuseaux multipolaires et favorisent la ségrégation déséquilibrée des chromosomes, entraînant l’aneuploïdie, la déstabilisation du génome et le développement de cancers. / HR deficient cells show slow replication kinetics, aberrant centrosome number and aneuploidy even in the absence of any exogenous stress (Bertrand P 2003, Daboussi F 2005, 2008, Deng 1999, 2002, Griffin 2000, Kraakman-van der Zwet 2002). Frequency of mitosis with extra centrosomes is elevated and replication kinetics decreased in HR deficient compared to HR proficient cells, in the absence of exogenous stress. Thus the question arose, if replication slowing down in HR deficient cells has direct impact on the appearance of supernumerary centrosomes. Furthermore we wanted to know if this might directly impact chromosome segregation. The results we gained are brought together in the paper “Homologous recombination suppression causes spontaneous mitotic alterations through endogenous replication stress”. By treating our HR proficient cells with 5µM HU we found the perfect concentration to mimic replication dynamics of HR deficient cells in an HR proficient background. This concentration was applied to HR proficient cells. After HU treatment the frequency of mitosis with extra centrosomes was elevated in HR proficient cells. Now they showed the same frequency of mitosis with extra centrosomes, than unchallenged HR deficient cells. We measured the impact of HU treatment on occurrence of anaphase bridges or aberrant mitotic segregation. In the absence of treatment higher frequency of anaphase bridges and aberrant mitotic segregation was detected for HR deficient cells. With 5µM HU the frequency of anaphase bridges and aberrant mitosis could be elevated in HR proficient cells. Now they showed aberrant mitotic features with the same frequency than unchallenged HR deficient cells. A direct link between abnormal replication kinetics and aberrant centrosomes might be unreplicated or damaged DNA, that enter mitosis. Unreplicated or blocked DNA might harbour ss DNA bound RPA. Thus we counted G2/M cells with RPA foci. Indeed the fraction of cells that harbour more than 5 RPA foci was elevated in Brca2 deficient in comparison to Brca2 proficient cells. In conclusion we propose a direct link between delayed replication, supernumerary centrosomes and aberrant chromosome segregation in unchallenged HR deficient cells. If we mimicked replication kinetics of HR deficient cells in an HR proficient background, we also mimicked frequency of mitosis with extra centrosome number and aberrant chromosome segregation. Furthermore we investigated the causes of replication slowing down in HR deficient cells. It can be hypothesized that endogenous oxidative stress is implicated in spontaneous fork arrest. In HR proficient cells, reactivation of stalled replication forks and therefore normal replication progression is assured. This favours balanced chromosome segregation, diploidy and genetic stability.In HR deficient cells, replication fork blockage might be detrimental as the main restart mechanism for blocked forks is absent. Prolonged fork blockage or DSB’s arising by fork collapse or resolution of blocked replication forks might activate signalling pathways. However cells are not arrested in cell cycle progression, suggesting that a threshold should be reached to activate cell cycle arrest. Endogenous stress is not sufficient high to reach this threshold. Replication is genome wide slowed down. In this context, the activation of cryptic origins compensates at least partly the slow replication velocity. However, because cells were not arrested in cell cycle progression, some blocked replication forks and damaged or unreplicated DNA regions might persist until G2/M phase and affect centrosome duplication and chromosome segregation. Multipolar centrosomes cause multipolar spindles and favour unbalanced chromosome segregation leading to aneuploidy, genetic instability and cancer development.

RECOMBINAISON HOMOLOGUE

STRESS DE REPLICATION

DEFECTS DE CENTROSOME

DEFECTS DE SEGREGATION DE CHROMOSOME

STRESS OXIDATIVE

HOMOLOGOUS RECOMBINATION

REPLICATION STRESS

CENTROSOME DEFECTS

CHROMOSOME SEGREGATION DEFECTS

OXIDATIVE STRESS

Analýza transkriptů vybraných genů v myokardu potkana adaptovaného na chronickou hypoxii / Analysis of selected gene transcripts in the rat myocardium adaptated to chronic hypoxia

Kašparová, Dita

January 2010

Dita Kašparová Chronická hypoxie a exprese genů 4 Abstract Adaptation to chronic hypoxia (CH) is characterized by a variety of functional changes in order to maintain metabolic and energy homeostasis. It has been known for many years that both humans and animals indigenous or adapted to high-altitude hypoxia are more tolerant to an acute ischemic injury of the heart. Cardioprotective mechanisms activated by adaptive responses to chronic hypoxia can be the result of altered transcriptional regulations in left ventricles. Here we report results from the gene expression profiling of adaptive responses in three models of chronically hypoxic heart. Adult male Wistar rats were exposed for 21 days to either continuous normobaric hypoxia (CCH; 10% O2) or CCH interrupted daily by 1-hour reoxygenation (RCH) or CCH interrupted daily by 16-hour (CIH). Cardiprotective effect of CCH adaptation is abolished by brief daily reoxygenation, RCH adaptation. In the present study, we aimed to determine myocardial mRNA expression of 19 candidate genes divided into three important groups: i) Hypoxia inducible factor (HIF1α) and its prolyl and asparaginyl hyroxylases (PHDs and FIH respectively, ii) Creatine kinase (CK) isoenzymes which play important role in energy homeostases of heart and iii) the group of main enzymatic...