Empagliflozin attenuates cardiac microvascular ischemia/reperfusion through activating the AMPKα1/ULK1/FUNDC1/mitophagy pathway

Keyphrases

• Anti-diabetes Drugs 12%
• Apoptotic Pathway 12%
• Beneficial Effects 12%
• Cardiac Microvascular Endothelial Cells 50%
• Cellular Homeostasis 12%
• Empagliflozin 100%
• Endothelial Barrier Function 12%
• Endothelial Barrier Integrity 12%
• Endothelial Hyperpermeability 12%
• Endothelial Nitric Oxide Synthase (eNOS) 12%
• Endothelin-1 (ET-1) 12%
• Erythrocytes 12%
• FUNDC1 100%
• Genetic Ablation 12%
• Heart Tissue 12%
• In Vitro Ischemia 12%
• Ischemia-reperfusion Injury 100%
• Luminal Stenosis 12%
• Microvascular Function 25%
• Microvascular Ischemia 100%
• Microvasculature 12%
• Microvessels 12%
• Mitochondria 12%
• Mitochondrial Apoptosis 12%
• Mitochondrial Fission 25%
• Mitochondrial Function 12%
• Mitochondrial Fusion 12%
• Mitochondrium 12%
• Mitophagy 37%
• Mitophagy Pathways 100%
• Myocardial Ischemia-reperfusion Injury 12%
• Myocardial Microcirculation 12%
• Neutrophil Infiltration 12%
• Oxidative Stress Signaling 12%
• P-AMPK 100%
• Perfusion Defect 12%
• Protective Effect 12%
• Reactive Oxygen Species 12%
• Species Concentration 12%
• ULK1 100%
• Vascular Endothelial-cadherin 12%
• Vascular Structure 25%
• Wall Damage 12%
• Working Mechanism 12%

Medicine and Dentistry

• Adhesive Agent 12%
• Antidiabetic Agent 12%
• Empagliflozin 100%
• Endothelial Cell 50%
• Endothelial Nitric Oxide Synthase 12%
• Endothelin 1 12%
• Erythrocyte 12%
• Fibrinogen 12%
• FUNDC1 100%
• Heart Tissue 12%
• Homeostasis 12%
• In Vitro 25%
• Ischemia 37%
• Microcirculation 12%
• Microvascular Ischemia 100%
• Microvessel 25%
• Mitochondrial Fission 25%
• Mitochondrial Fusion 12%
• Mitochondrion 12%
• Mitophagy 100%
• Myocardial Ischemia Reperfusion Injury 12%
• Neutrophil Chemotaxis 12%
• Oxidative Stress 12%
• Programmed Cell Death 12%
• Reactive Oxygen Species 12%
• Reperfusion Injury 37%
• Stenosis 12%
• Vascular Endothelial Cadherin 12%

Immunology and Microbiology

• Endothelin 12%
• Erythrocyte 12%
• Heart Tissue 12%
• Homeostasis 12%
• In Vitro 25%
• Microcirculation 12%
• Microvasculature 12%
• Mitochondrion 12%
• Mitophagy 100%
• Neutrophil Chemotaxis 12%
• Nitric Oxide Synthase 12%
• Oxidative Stress 12%
• Perfusion 12%
• Programmed Cell Death 12%
• Reperfusion 100%
• VE-cadherin 12%