OBJECTIVE: Obesity-associated metabolic dysfunction is a major public health concern worldwide. Endothelial dysfunction is a hallmark of metabolic dysfunction, and endothelial cells affect metabolic functions. Because autophagy-related gene 7 (ATG7) is involved in various cellular physiology, we investigated the roles of endothelial cell-ATG7 (EC-ATG7) on high-fat diet-induced obesity and its related metabolic dysfunction. METHODS: We generated an endothelial-specific Atg7 knock-out mouse by breeding Atg7 RESULTS: We found that deletion of EC-Atg7 ameliorated HFD-induced weight gain, fatty liver, and adipocyte hypertrophy and inflammatory response in adipose tissue, and improved insulin sensitivity without changing glucose tolerance. These metabolic effects seem to be due to the reduced food intake because there were no differences in energy expenditure, energy excretion to feces, and physical activity. Interestingly, the deletion of EC-Atg7 protected from HFD-induced vascular rarefaction, and the knock-down of Atg7 in endothelial cells protected from fatty acid-induced cell death. CONCLUSIONS: Our results suggest that EC-Atg7 deletion ameliorates HFD-induced obesity and its related metabolic dysfunction, such as insulin resistance and fatty liver by attenuating appetite and vascular rarefaction. The EC-Atg7 deletion may protect the endothelial cells from lipotoxicity and impaired angiogenesis, which preserves the endothelial function in metabolic tissues. These findings may have implications for developing new therapeutic strategies for preventing and treating obesity and its associated health risks.