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Mitochondrial Mechanisms in Diabetic Cardiomyopathy
by
Gollmer, Johannes
, Bugger, Heiko
, Zirlik, Andreas
in
Adenosine triphosphate
/ Biology
/ Cardiomyopathy
/ Cardiovascular disease
/ Diabetes
/ diabetes mellitus
/ diabetic cardiomyopathies
/ Diabetic Cardiomyopathies - metabolism
/ Efficiency
/ Energy Metabolism
/ Enzymes
/ Genotype & phenotype
/ Glucose
/ Heart - physiopathology
/ Heart failure
/ Heart Failure - metabolism
/ Humans
/ Hypertension
/ Insulin
/ Mitochondria
/ Mitochondria, Heart - metabolism
/ Mitochondrial Dynamics
/ Myocardium - metabolism
/ Oxidation
/ Oxidative Stress
/ Reactive Oxygen Species - metabolism
/ Respiration
/ Review
/ Rodents
/ Sirtuins - metabolism
/ 내과학
2020
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Mitochondrial Mechanisms in Diabetic Cardiomyopathy
by
Gollmer, Johannes
, Bugger, Heiko
, Zirlik, Andreas
in
Adenosine triphosphate
/ Biology
/ Cardiomyopathy
/ Cardiovascular disease
/ Diabetes
/ diabetes mellitus
/ diabetic cardiomyopathies
/ Diabetic Cardiomyopathies - metabolism
/ Efficiency
/ Energy Metabolism
/ Enzymes
/ Genotype & phenotype
/ Glucose
/ Heart - physiopathology
/ Heart failure
/ Heart Failure - metabolism
/ Humans
/ Hypertension
/ Insulin
/ Mitochondria
/ Mitochondria, Heart - metabolism
/ Mitochondrial Dynamics
/ Myocardium - metabolism
/ Oxidation
/ Oxidative Stress
/ Reactive Oxygen Species - metabolism
/ Respiration
/ Review
/ Rodents
/ Sirtuins - metabolism
/ 내과학
2020
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Do you wish to request the book?
Mitochondrial Mechanisms in Diabetic Cardiomyopathy
by
Gollmer, Johannes
, Bugger, Heiko
, Zirlik, Andreas
in
Adenosine triphosphate
/ Biology
/ Cardiomyopathy
/ Cardiovascular disease
/ Diabetes
/ diabetes mellitus
/ diabetic cardiomyopathies
/ Diabetic Cardiomyopathies - metabolism
/ Efficiency
/ Energy Metabolism
/ Enzymes
/ Genotype & phenotype
/ Glucose
/ Heart - physiopathology
/ Heart failure
/ Heart Failure - metabolism
/ Humans
/ Hypertension
/ Insulin
/ Mitochondria
/ Mitochondria, Heart - metabolism
/ Mitochondrial Dynamics
/ Myocardium - metabolism
/ Oxidation
/ Oxidative Stress
/ Reactive Oxygen Species - metabolism
/ Respiration
/ Review
/ Rodents
/ Sirtuins - metabolism
/ 내과학
2020
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Journal Article
Mitochondrial Mechanisms in Diabetic Cardiomyopathy
2020
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Overview
Mitochondrial medicine is increasingly discussed as a promising therapeutic approach, given that mitochondrial defects are thought to contribute to many prevalent diseases and their complications. In individuals with diabetes mellitus (DM), defects in mitochondrial structure and function occur in many organs throughout the body, contributing both to the pathogenesis of DM and complications of DM. Diabetic cardiomyopathy (DbCM) is increasingly recognized as an underlying cause of increased heart failure in DM, and several mitochondrial mechanisms have been proposed to contribute to the development of DbCM. Well established mechanisms include myocardial energy depletion due to impaired adenosine triphosphate (ATP) synthesis and mitochondrial uncoupling, and increased mitochondrial oxidative stress. A variety of upstream mechanisms of impaired ATP regeneration and increased mitochondrial reactive oxygen species have been proposed, and recent studies now also suggest alterations in mitochondrial dynamics and autophagy, impaired mitochondrial Ca²⁺ uptake, decreased cardiac adiponectin action, increased O-GlcNAcylation, and impaired activity of sirtuins to contribute to mitochondrial defects in DbCM, among others. In the current review, we present and discuss the evidence that underlies both established and recently proposed mechanisms that are thought to contribute to mitochondrial dysfunction in DbCM.
Publisher
Korean Diabetes Association / Daehan Dangnyobyeong Hakoe,Korean Diabetes Association,대한당뇨병학회
Subject
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