Diastolic dysfunction in prediabetic male rats: Role of mitochondrial oxidative stress

Koncsos, Gábor; Varga, Zoltán V.; Baranyai, Tamás; Boengler, Kerstin; Rohrbach, Susanne; Li, Ling; Schlüter, Klaus‐Dieter; Schreckenberg, Rolf; Radovits, Tamás; Oláh, Attila; Mátyás, Csaba; Lux, Árpád; Al-Khrasani, Mahmoud; Komlódi, Tímea; Bukosza, Nóra; Máthé, Domokos; Deres, László; Barteková, Monika; Rajtík, Tomáš; Adameová, Adriana; Szigeti, Krisztián; Hamar, Péter; Helyes, Zsuzsanna; Tretter, László; Pacher, Pál; Merkely, Béla; Giricz, Zoltán; Schulz, Rainer; Ferdinándy, Péter

doi:10.1152/ajpheart.00049.2016

Cited by 76 publications

(78 citation statements)

References 88 publications

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“…Recently we showed that diet-induced obesity leads to decreased induction of autophagy in response to fasting in mice involving altered expression of numerous proteins related to metabolic pathways [15], which is in parallel to our current findings. However, in Long-Evans rats fed with high-fat diet we demonstrated only early signs of decreased mitophagy, but no major changes in overall cardiac autophagy or mTOR pathway [38]. In contrast, elsewhere metabolic syndrome induced by high-fat feeding increased cardiac LC3-II and SQSTM1/p62 in mice [39].…”

Section: Discussionmentioning

confidence: 99%

Hypercholesterolemia downregulates autophagy in the rat heart

et al. 2017

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BackgroundWe have previously shown that efficiency of ischemic conditioning is diminished in hypercholesterolemia and that autophagy is necessary for cardioprotection. However, it is unknown whether isolated hypercholesterolemia disturbs autophagy or the mammalian target of rapamycin (mTOR) pathways. Therefore, we investigated whether isolated hypercholesterolemia modulates cardiac autophagy-related pathways or programmed cell death mechanisms such as apoptosis and necroptosis in rat heart.MethodsMale Wistar rats were fed either normal chow (NORM; n = 9) or with 2% cholesterol and 0.25% cholic acid-enriched diet (CHOL; n = 9) for 12 weeks. CHOL rats exhibited a 41% increase in plasma total cholesterol level over that of NORM rats (4.09 mmol/L vs. 2.89 mmol/L) at the end of diet period. Animals were sacrificed, hearts were excised and briefly washed out. Left ventricles were snap-frozen for determination of markers of autophagy, mTOR pathway, apoptosis, and necroptosis by Western blot.ResultsIsolated hypercholesterolemia was associated with a significant reduction in expression of cardiac autophagy markers such as LC3-II, Beclin-1, Rubicon and RAB7 as compared to controls. Phosphorylation of ribosomal S6, a surrogate marker for mTOR activity, was increased in CHOL samples. Cleaved caspase-3, a marker of apoptosis, increased in CHOL hearts, while no difference in the expression of necroptotic marker RIP1, RIP3 and MLKL was detected between treatments.ConclusionsThis is the first comprehensive analysis of autophagy and programmed cell death pathways of apoptosis and necroptosis in hearts of hypercholesterolemic rats. Our data show that isolated hypercholesterolemia suppresses basal cardiac autophagy and that the decrease in autophagy may be a result of an activated mTOR pathway. Reduced autophagy was accompanied by increased apoptosis, while cardiac necroptosis was not modulated by isolated hypercholesterolemia. Decreased basal autophagy and elevated apoptosis may be responsible for the loss of cardioprotection reported in hypercholesterolemic animals.

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Section: Discussionmentioning

confidence: 99%

Hypercholesterolemia downregulates autophagy in the rat heart

et al. 2017

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“…Increased ROS production in the diabetic heart is a contributing factor in the development and progression of DCM. Koncsos et al reported that mild diastolic dysfunction and cardiac hypertrophy are associated with elevated oxidative stress in prediabetes, and prediabetes-induced oxidative stress originates from the subsarcolemmal mitochondria [15]. When ROS generation and ROS-degrading pathways are imbalanced, superoxide-mediated damage and cellular dysfunction will accumulate [16, 17].…”

Section: Discussionmentioning

confidence: 99%

Dihydromyricetin Protects against Diabetic Cardiomyopathy in Streptozotocin-Induced Diabetic Mice

Lin

Luo

et al. 2017

BioMed Research International

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Diabetic cardiomyopathy (DCM) is an important cause of heart failure in diabetic patients. The present study sought to explore the potential effects of dihydromyricetin (DHM) on DCM and its possible mechanism. A diabetic model was induced by intraperitoneal injection of streptozotocin (STZ) in C57BL/6J mice. Two weeks after the STZ injection, mice were randomly allocated into the following 4 groups for treatment: the control group (CON), the control treated with DHM group (CON + DHM), the diabetes group (DM), and the diabetes treated with DHM group (DM + DHM). DHM was dissolved in distilled water and administered daily by gavage. For 14 weeks, the CON + DHM group and DM + DHM group were given a dose of 100 mg/kg/day DHM (Sigma-Aldrich), while the CON and DM groups were intragastrically given equivalent volumes of distilled water. Assessments and comparisons were made among the groups based on cardiac function and structural changes, inflammation factors, markers of oxidative stress, mitochondria function, apoptosis, and autophagy. The DHM treatment normalized body weight, preserved cardiac function, attenuated oxidative stress (MDA, SOD, and GSH-Px), reduced the levels of inflammation factors (IL-6, TNF-α), alleviated pathological changes, improved mitochondrial function (ATP content, CS activity, and complex Ι/ΙΙ/ΙΙΙ/ΙV/V activities), inhibited cardiac apoptosis, and restored autophagy in diabetic mice. DHM may have a great therapeutic potential in the treatment of DCM.

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“…Relative to the control, the contents of mitophagy-related proteins were significantly altered in several diabetic tissues including the heart. In male prediabetic rats, the generation of mitochondrial ROS increased and BNIP3 was downregulated in comparison with the corresponding values in the controls [14,114]. In types 1 and 2 diabetes models, PINK1 and Parkin were downregulated [109,115,116].…”

Section: Diabetic Cardiomyopathymentioning

confidence: 91%

Role of Mitophagy in Cardiovascular Disease

Yang¹,

Li²,

Li³

et al. 2020

Aging and disease

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Cardiovascular disease is the leading cause of mortality worldwide, and mitochondrial dysfunction is the primary contributor to these disorders. Recent studies have elaborated on selective autophagy-mitophagy, which eliminates damaged and dysfunctional mitochondria, stabilizes mitochondrial structure and function, and maintains cell survival and growth. Numerous recent studies have reported that mitophagy plays an important role in the pathogenesis of various cardiovascular diseases. This review summarizes the mechanisms underlying mitophagy and advancements in studies on the role of mitophagy in cardiovascular disease.

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Diastolic dysfunction in prediabetic male rats: Role of mitochondrial oxidative stress

Cited by 76 publications

References 88 publications

Hypercholesterolemia downregulates autophagy in the rat heart

Hypercholesterolemia downregulates autophagy in the rat heart

Dihydromyricetin Protects against Diabetic Cardiomyopathy in Streptozotocin-Induced Diabetic Mice

Role of Mitophagy in Cardiovascular Disease

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