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1. Short‐term exercise counteracts accelerated ageing impacts on physical performance and liver health in mice.

3. Tissue‐specific roles of mitochondrial unfolded protein response during obesity.

7. IL-6 deletion decreased REV-ERBα protein and influenced autophagy and mitochondrial markers in the skeletal muscle after acute exercise

8. FOXO1 is downregulated in obese mice subjected to short‐term strength training

9. Evidence for a neuromuscular circuit involving hypothalamic interleukin-6 in the control of skeletal muscle metabolism

10. Chronic rapamycin treatment decreases hepatic IL ‐6 protein but increases autophagy markers as a protective effect against the overtraining‐induced tissue damage

11. Genetic deletion of IL‐6 increases CK‐MB, a classic cardiac damage marker, and decreases UPRmt genes after exhaustive exercise

12. Muscle endoplasmic reticulum stress in exercise

14. Exercise Counterbalances Rho/ROCK2 Signaling Impairment in the Skeletal Muscle and Ameliorates Insulin Sensitivity in Obese Mice

15. Physical exercise reduces pyruvate carboxylase (PCB) and contributes to hyperglycemia reduction in obese mice

18. Targeted Disruption of Inducible Nitric Oxide Synthase Protects Against Aging, S-Nitrosation, and Insulin Resistance in Muscle of Male Mice

19. Physical Exercise and Liver Autophagy: Potential Roles of IL-6 and Irisin.

20. Moderate, but Not Excessive, Training Attenuates Autophagy Machinery in Metabolic Tissues

21. Strength exercise reduces hepatic pyruvate carboxylase and gluconeogenesis in DIO mice

22. The Combination of Fasting, Acute Resistance Exercise, and Protein Ingestion Led to Different Responses of Autophagy Markers in Gastrocnemius and Liver Samples

24. NAD+ precursor increases aerobic performance in mice

25. TGF‐β1 downregulation in the hypothalamus of obese mice through acute exercise

26. Short-term Resistance Training Increases APPL1 Content in the Liver and the Insulin Sensitivity of Mice Fed a Long-term High-fat Diet

27. Exhaustive acute exercise-induced ER stress is attenuated in IL-6-knockout mice

28. NAD+ precursor increases aerobic performance in mice.

29. Short-term Resistance Training Increases APPL1 Content in the Liver and the Insulin Sensitivity of Mice Fed a Long-term High-fat Diet.

31. Excessive treadmill training enhances the insulin signaling pathway and glycogen deposition in mice hearts

32. Endurance training prevents inflammation and apoptosis in hypothalamic neurons of obese mice

33. Exercise activates the hypothalamic S1PR1–STAT3 axis through the central action of interleukin 6 in mice

35. Excessive training induces molecular signs of pathologic cardiac hypertrophy

36. Exercise decreases CLK2 in the liver of obese mice and prevents hepatic fat accumulation

37. Treadmill Slope Modulates Inflammation, Fiber Type Composition, Androgen, and Glucocorticoid Receptors in the Skeletal Muscle of Overtrained Mice

38. Obesity Increases Mitogen-Activated Protein Kinase Phosphatase-3 Levels in the Hypothalamus of Mice

40. Chronic exercise reduces hypothalamic transforming growth factor-β1 in middle-aged obese mice

41. Physical exercise reduces pyruvate carboxylase (PCB) and contributes to hyperglycemia reduction in obese mice

43. Exhaustive Training Leads to Hepatic Fat Accumulation

44. The role of sphingosine‐1‐phosphate in skeletal muscle: Physiology, mechanisms, and clinical perspectives.

46. Endurance training prevents inflammation and apoptosis in hypothalamic neurons of obese mice.

48. Exercise increases Rho‐kinase activity and insulin signaling in skeletal muscle.

50. Obesity Increases Mitogen-Activated Protein Kinase Phosphatase-3 Levels in the Hypothalamus of Mice.

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