Hypoxia-Inducible Factor 1-Alpha and Glucose Metabolism during Cardiac Remodeling Progression from Hypertrophy to Heart Failure.

In pathological cardiac hypertrophy, the heart is more dependent on glucose than fatty acids. This shift in energy metabolism occurs due to several factors, including the oxygen deficit, which activates hypoxia-inducible factor-1α (HIF-1α), a critical molecule related to glucose metabolism. However, there are gaps regarding the behavior of key proteins in the glycolytic pathway and HIF-1α during the transition from hypertrophy to heart failure (HF). This study assesses the hypothesis that there is an early change and enhancement of HIF-1α and the glycolytic pathway, as well as an association between them during cardiac remodeling. Sham and aortic stenosis Wistar rats were analyzed at 2, 6, and 18 weeks and in HF (n = 10-18). Cardiac structure and function were investigated by echocardiogram. Myocardial glycolysis, the aerobic and anaerobic pathways and glycogen were analyzed by enzymatic assay, Western blot, and enzyme-linked immunosorbent assay (ELISA). The following were observed: increased left ventricular hypertrophy; early diastolic function change and severe systolic and diastolic dysfunction in HF; increased HIF-1α in the 2nd week and in HF; precocious alteration and intensification of glycolysis with a shift to anaerobic metabolism from the 6th week onwards; association between HIF-1α, glycolysis, and the anaerobic pathway. Our hypothesis was confirmed as there was an early change and intensification in glucose metabolism, alteration in HIF-1α, and an association between data during the progression from hypertrophy to heart failure.

A Redução do Colágeno Tipo I está Associada ao Aumento da Atividade da Metaloproteinase-2 e da Expressão Proteica de Leptina no Miocárdio de Ratos Obesos / Decreased Collagen Type I is Associated with Increased Metalloproteinase-2 Activity and Protein Expression of Leptin in the Myocardium of Obese Rats

Resumo Fundamento A obesidade é um fator de risco para complicações médicas, incluindo o sistema cardiovascular. Há informações limitadas sobre o colágeno no coração obeso. Nosso estudo anterior demonstrou uma redução dos níveis proteicos de colágeno miocárdico tipo I em ratos obesos alimentados com uma dieta com alto teor de gordura durante 34 semanas. No entanto, os mecanismos responsáveis pelos níveis baixos não estão completamente elucidados. Objetivo O objetivo deste estudo foi testar a hipótese de que a redução do colágeno tipo I está associada ao aumento da atividade da metaloproteinase-2 (MMP-2), a qual está ligada à elevação de leptina no miocárdio de ratos obesos. Métodos Ratos Wistar machos com 30 dias de idade foram randomizados em dois grupos: controle (dieta padrão) e obeso (dieta com alto teor de gordura), e alimentados durante 34 semanas. Foram avaliados as características gerais dos animais e os perfis metabólicos e endócrinos. Foram avaliados as expressões proteicas miocárdicas de colágeno tipo I, leptina e inibidores teciduais de metaloproteinases (TIMP), bem como a atividade da MMP-2. O teste de correlação de Pearson foi aplicado para determinar as associações entre variáveis. O nível de significância foi de 5%. Resultados Os animais obesos apresentaram índice de adiposidade mais elevado em comparação ao controle. Foram observadas comorbidades como intolerância à glicose, hiperinsulinemia, resistência à insulina, hiperleptinemia e hipertensão nos ratos obesos. A obesidade reduziu o colágeno tipo I, TIMP-1 e TIMP-2, e aumentou a leptina e a MMP-2 no miocárdio. Houve uma correlação negativa entre o colágeno tipo I e a MMP-2 e uma correlação positiva entre a leptina e a MMP-2. Conclusão Foi confirmada a hipótese de que a redução do colágeno tipo I está associada ao aumento da atividade da MMP-2 e da expressão de leptina no miocárdio de ratos obesos. (Arq Bras Cardiol. 2020; 115(1):61-70)

Abstract Background Obesity is a risk factor for medical complications, including the cardiovascular system. There is limited information on collagen in the heart in obesity. Our previous study showed decreased protein levels of myocardial collagen type I in obese rats fed a high-fat diet for 34 weeks. However, the mechanisms responsible for low levels are not fully elucidated. Objective The purpose of this study was to test the hypothesis that the reduction in collagen type I is associated with increased metalloproteinase-2 (MMP-2) activity, which is linked to elevated leptin in the myocardium of obese rats. Methods Thirty-day-old male Wistar rats were randomized into two groups, control (standard diet) and obese (high-fat diet), and fed for 34 weeks. The general animal characteristics and metabolic and endocrine profiles were evaluated. Myocardial protein expressions of collagen I, leptin, tissue inhibitors of metalloproteinases (TIMP), and MMP-2 activity were assessed. Pearson correlation was employed to determine the associations between variables. The level of significance was 5%. Results The obese animals had increased adiposity index compared to control. Comorbidities such as glucose intolerance, hyperinsulinemia, insulin resistance, hyperleptinemia, and hypertension were observed in obese rats. Obesity reduced collagen I, TIMP-1, and TIMP-2, and it increased leptin and MMP-2 in the myocardium. There was a negative correlation between collagen I and MMP-2 and a positive correlation between leptin and MMP-2. Conclusion The hypothesis was confirmed; the reduction in collagen type I is associated with increased MMP-2 activity and leptin expression in the myocardium of obese rats. (Arq Bras Cardiol. 2020; 115(1):61-70)

Decreased Collagen Type I is Associated with Increased Metalloproteinase-2 Activity and Protein Expression of Leptin in the Myocardium of Obese Rats. / A Redução do Colágeno Tipo I está Associada ao Aumento da Atividade da Metaloproteinase-2 e da Expressão Proteica de Leptina no Miocárdio de Ratos Obesos.

Background Obesity is a risk factor for medical complications, including the cardiovascular system. There is limited information on collagen in the heart in obesity. Our previous study showed decreased protein levels of myocardial collagen type I in obese rats fed a high-fat diet for 34 weeks. However, the mechanisms responsible for low levels are not fully elucidated. Objective The purpose of this study was to test the hypothesis that the reduction in collagen type I is associated with increased metalloproteinase-2 (MMP-2) activity, which is linked to elevated leptin in the myocardium of obese rats. Methods Thirty-day-old male Wistar rats were randomized into two groups, control (standard diet) and obese (high-fat diet), and fed for 34 weeks. The general animal characteristics and metabolic and endocrine profiles were evaluated. Myocardial protein expressions of collagen I, leptin, tissue inhibitors of metalloproteinases (TIMP), and MMP-2 activity were assessed. Pearson correlation was employed to determine the associations between variables. The level of significance was 5%. Results The obese animals had increased adiposity index compared to control. Comorbidities such as glucose intolerance, hyperinsulinemia, insulin resistance, hyperleptinemia, and hypertension were observed in obese rats. Obesity reduced collagen I, TIMP-1, and TIMP-2, and it increased leptin and MMP-2 in the myocardium. There was a negative correlation between collagen I and MMP-2 and a positive correlation between leptin and MMP-2. Conclusion The hypothesis was confirmed; the reduction in collagen type I is associated with increased MMP-2 activity and leptin expression in the myocardium of obese rats. (Arq Bras Cardiol. 2020; 115(1):61-70).

Effects of Growth Hormone on Cardiac Remodeling During Resistance Training in Rats / Efeitos do Hormônio do Crescimento na Remodelação Cardíaca Durante Treinamento Resistido em Ratos

Abstract Background: Although the beneficial effects of resistance training (RT) on the cardiovascular system are well established, few studies have investigated the effects of the chronic growth hormone (GH) administration on cardiac remodeling during an RT program. Objective: To evaluate the effects of GH on the morphological features of cardiac remodeling and Ca2+ transport gene expression in rats submitted to RT. Methods: Male Wistar rats were divided into 4 groups (n = 7 per group): control (CT), GH, RT and RT with GH (RTGH). The dose of GH was 0.2 IU/kg every other day for 30 days. The RT model used was the vertical jump in water (4 sets of 10 jumps, 3 bouts/wk) for 30 consecutive days. After the experimental period, the following variables were analyzed: final body weight (FBW), left ventricular weight (LVW), LVW/FBW ratio, cardiomyocyte cross-sectional area (CSA), collagen fraction, creatine kinase muscle-brain fraction (CK-MB) and gene expressions of SERCA2a, phospholamban (PLB) and ryanodine (RyR). Results: There was no significant (p > 0.05) difference among groups for FBW, LVW, LVW/FBW ratio, cardiomyocyte CSA, and SERCA2a, PLB and RyR gene expressions. The RT group showed a significant (p < 0.05) increase in collagen fraction compared to the other groups. Additionally, the trained groups (RT and RTGH) had greater CK-MB levels compared to the untrained groups (CT and GH). Conclusion: GH may attenuate the negative effects of RT on cardiac remodeling by counteracting the increased collagen synthesis, without affecting the gene expression that regulates cardiac Ca2+ transport.

Resumo Fundamento: Apesar de os efeitos benéficos do treinamento resistido (TR) sobre o sistema cardiovascular estarem bem estabelecidos, poucos estudos têm investigado os efeitos crônicos da administração de hormônio do crescimento (GH) sobre a remodelação cardíaca durante um programa de TR. Objetivo: avaliar os efeitos do GH sobre a remodelação cardíaca em suas características morfológicas e na expressão dos genes do trânsito de Ca2+ em ratos submetidos ao TR. Métodos: Ratos Wistar machos foram divididos em 4 grupos (n = 7 por grupo): controle (CT), GH, TR e TR com GH (TRGH). A dose de GH foi de 0,2 UI/kg, a cada dois dias, por 30 dias. O modelo de TR utilizado foi o salto vertical em água (4 séries de 10 saltos, 3 vezes/semana) durante 30 dias consecutivos. Após o período experimental, as seguintes variáveis foram analisadas: peso corporal final (PCF), peso do ventrículo esquerdo (PVE), razão PVE/PCF, área seccional de cardiomiócitos (ASC), fração de colágeno, creatina quinase fração músculo-cérebro (CK-MB) e expressão gênica de SERCA2a, fosfolambam (PLB) e rianodina (RyR). Resultados: Não houve diferença significativa (p > 0,05) entre os grupos para PCF, PVE, razão PVE/PCF, ASC, e expressão gênica de SERCA2a, PLB e RyR. O grupo TR mostrou um significativo aumento (p < 0,05) da fração de colágeno em comparação aos outros. Além disso, os grupos treinados (TR e TRGH) apresentaram maiores níveis de CK-MB em comparação aos não treinados (CT e GH). Conclusão: Esses resultados indicam que o GH pode atenuar os efeitos negativos do TR na remodelação cardíaca por contrabalançar o aumento da síntese de colágeno, sem afetar a expressão de genes que regulam o trânsito de Ca2+ cardíaco.

Obesity does not lead to imbalance between myocardial phospholamban phosphorylation and dephosphorylation.

BACKGROUND: The activation of the beta-adrenergic system promotes G protein stimulation that, via cyclic adenosine monophosphate (cAMP), alters the structure of protein kinase A (PKA) and leads to phospholamban (PLB) phosphorylation. This protein participates in the system that controls intracellular calcium in muscle cells, and it is the primary regulator of sarcoplasmic reticulum calcium pump activity. In obesity, the beta-adrenergic system is activated by the influence of increased leptin, therefore, resulting in higher myocardial phospholamban phosphorylation via cAMP-PKA. OBJECTIVE: To investigate the involvement of proteins which regulate the degree of PLB phosphorylation due to beta-adrenergic activation in obesity. In the present study, we hypothesized that there is an imbalance between phospholamban phosphorylation and dephosphorylation, with prevalence of protein phosphorylation. METHODS: Male Wistar rats were randomly distributed into two groups: control (n = 14), fed with normocaloric diet; and obese (n = 13), fed with a cycle of four unsaturated high-fat diets. Obesity was determined by the adiposity index, and protein expressions of phosphatase 1 (PP-1), PKA, PLB, phosphorylated phospholamban at serine16 (PPLB-Ser16) were assessed by Western blot. RESULTS: Obesity caused glucose intolerance, hyperinsulinemia, hypertriglyceridemia, hyperleptinemia and did not alter the protein expression of PKA, PP-1, PLB, PPLB-Ser16. CONCLUSION: Obesity does not promote an imbalance between myocardial PLB phosphorylation and dephosphorylation via beta-adrenergic system.

Obesity does not Lead to Imbalance Between Myocardial Phospholamban Phosphorylation and Dephosphorylation / Obesidade não Acarreta Desequilíbrio entre Fosforilação e Desfosforilação da Fosfolambam Miocárdica

Background: The activation of the beta-adrenergic system promotes G protein stimulation that, via cyclic adenosine monophosphate (cAMP), alters the structure of protein kinase A (PKA) and leads to phospholamban (PLB) phosphorylation. This protein participates in the system that controls intracellular calcium in muscle cells, and it is the primary regulator of sarcoplasmic reticulum calcium pump activity. In obesity, the beta-adrenergic system is activated by the influence of increased leptin, therefore, resulting in higher myocardial phospholamban phosphorylation via cAMP-PKA. Objective: To investigate the involvement of proteins which regulate the degree of PLB phosphorylation due to beta-adrenergic activation in obesity. In the present study, we hypothesized that there is an imbalance between phospholamban phosphorylation and dephosphorylation, with prevalence of protein phosphorylation. Methods: Male Wistar rats were randomly distributed into two groups: control (n = 14), fed with normocaloric diet; and obese (n = 13), fed with a cycle of four unsaturated high-fat diets. Obesity was determined by the adiposity index, and protein expressions of phosphatase 1 (PP-1), PKA, PLB, phosphorylated phospholamban at serine16 (PPLB-Ser16) were assessed by Western blot. Results: Obesity caused glucose intolerance, hyperinsulinemia, hypertriglyceridemia, hyperleptinemia and did not alter the protein expression of PKA, PP-1, PLB, PPLB-Ser16. Conclusion: Obesity does not promote an imbalance between myocardial PLB phosphorylation and dephosphorylation via beta-adrenergic system. .

Fundamento: A ativação do sistema beta-adrenérgico promove a estimulação da proteína G, que, via adenosina monofosfato cíclico (AMPc), altera a estrutura da proteina quinase A (PKA) e acarreta a fosforilação da fosfolambam (PLB). Essa proteína participa do sistema envolvido no controle de cálcio intracelular, em células musculares, sendo a principal reguladora da atividade da bomba de cálcio do retículo sarcoplasmático. Na obesidade ocorre ativação do sistema beta-adrenérgico por influência do aumento da leptina, acarretando, consequentemente, maior fosforilação da fosfolambam miocárdica, via AMPc-PKA. Objetivo: Investigar, na obesidade, o envolvimento das proteínas que regulam o grau de fosforilação do PLB decorrente da ativação beta-adrenérgica. A hipótese do estudo é que há desequilíbrio entre a fosforilação e a desfosforilação da fosfolambam, com predomínio da fosforilação da proteína. Métodos: Ratos Wistar machos foram randomizados e distribuídos em dois grupos: controle (n = 14), alimentado com dieta normocalórica, e obeso (n = 13), com um ciclo de quatro dietas hiperlipídicas insaturadas. A obesidade foi determinada pelo índice de adiposidade, e as expressões proteicas de fosfatase 1 (PP-1), PKA, PLB, fosfolambam fosforilado na serina 16 (pPLB-ser16) foram realizadas por Western Blot. Resultados: A obesidade acarretou intolerância à glicose, hiperinsulinemia, hipertrigliceridemia, hiperleptinemia e não alterou a expressão proteica de PKA, PP-1, PLB, pPLB-ser16. Conclusão: A obesidade não promove desequilíbrio entre a fosforilação e a desfosforilação, via beta-adrenérgica, do PLB miocárdico. .

Influência do aumento energético proveniente de dieta hiperlipídica na disfunção cardíaca em ratos com estenose aórtica supravalvar: participação das cadeias pesadas de miosina e da bomba de cálcio do retículo sarcoplasmático / Influence of energetic increase from fat diet in cardiac dysfunction in rats with aortic stenosis supravalvular: participation of the heavy chains of myosin and calcium pump of sarcoplasmic reticulum

A remodelação cardíaca (RC) ocorre em resposta a determinadas agressões como, por exemplo, sobrecarga pressórica, e pode manifestar-se por alterações de tamanho, forma e função do coração. No modelo de estenose aórtica supravalvar (EAo) em ratos, estudos ecocardiográficos constataram que, 2 e 6 semanas após indução da EAo, os ratos desenvolvem hipertrofia ventricular esquerda, disfunção diastólica e melhoria da função sistólica. Após 12 semanas há disfunção sistólica e perto da 20ª semana aparecem sinais de insuficiência cardíaca. Diversos fatores poderiam contribuir para a disfunção neste modelo experimental, como modificações na expressão proteica da bomba de cálcio do retículo sarcoplasmático (SERCA2a) e das cadeias pesadas de miosina (MyHC), ambas com alta capacidade ATPásica. Na RC patológica ocorre diminuição na beta oxidação de ácidos graxos, podendo acarretar déficit energético para o músculo cardíaco hipertrofiado. O objetivo deste trabalho foi testar a hipótese de que o aumento da oferta energética, proveniente de dieta hiperlipídica, atenua a disfunção diastólica e preserva a função sistólica no modelo de EAo. Os mecanismos envolvidos na preservação ou melhoria da função estão relacionados com a diminuição na transição da isoforma V1(α) para V3(β) da MyHC e com o aumento da relação SERCA2a/PLB. Foram utilizados ratos Wistar machos, com 21 dias, separados em dois grupos: controle operado (Sham) e estenose aórtica supravalvar (EAo). Seis semanas após cirurgia, os animais foram redistribuídos em quatro grupos (n=12/grupo): tratados com dieta normolipídica (EAo-N e Sham-N) ou hiperlipídica (EAo-H e Sham-H) por 12 semanas. O perfil nutricional foi determinado pelas análises de ingestão alimentar e calórica, eficiência alimentar, peso e gordura corporal, índice de adiposidade, glicemia, triacilglicerol e ácidos graxos livres não-esterificados...

Cardiac remodeling (CR) occurs in response to some cardiac injuries, such as pressure overload, and it may be manifested as changes in size, shape and function of the heart. In the model of supravalvar aortic stenosis (SVAS), echocardiographic studies performed in our laboratory showed that, 2 and 6 weeks post SVAS induction, rats developed left ventricular hypertrophy, diastolic dysfunction and improved systolic function. After 12 weeks there is systolic dysfunction and around the 20th week signs of heart failure appear. Several factors could contribute to the dysfunction in this experimental model, such as changes in protein expression of sarcoplasmic reticulum calcium ATPase (SERCA2a) and myosin heavy chain (MyHC), both with high ATPase capacity. Pathological CR is underscored by a reduction in fatty acid beta oxidation, which may cause energy deficit to the hypertrophied cardiac muscle. The aim of this work was to test the hypothesis that increased energy supply, derived from high-fat diet, attenuates cardiac dysfunction in the SVAS model. The mechanisms involved in the attenuation of dysfunction are related to decreased V1(α) to V3(β) MyHC isoform transition and increased SERCA2a/PLB ratio. Male Wistar rats, aged 21 days, were separated into two groups: operated control (Sham) and supravalvar aortic stenosis (SVAS). Six weeks after surgery, the animals were redistributed into four groups (n=12/group): fed with normolipidic diet (Sham-N and SVAS-N) or high-fat diet (Sham-H and SVAS-H). The nutritional profile was determined by food and calorie intake, feed efficiency, weight and body fat, adiposity index, blood glucose, triacylglycerol and non-esterified free fatty acid. The CR was characterized by analyses of the cardiac structure and function by echocardiogram in the 6th and 18th week, macroscopic study, energy metabolism and SERCA2a/PLB and β/α MyHC cardiac ratios...