Voluntary exercise opposes insulin resistance of skeletal muscle glucose transport during liquid fructose ingestion in rats

Abstract

We have recently reported that male rats given liquid fructose ingestion exhibit features of cardiometabolic abnormalities including non-obese insulin resistance with impaired insulin signaling transduction in skeletal muscle (Rattanavichit Y et al. Am J Physiol Regul Integr Comp Physiol 311: R1200-R1212, 2016). While exercise can attenuate obesity-related risks of cardiometabolic syndrome, the effectiveness and potential mechanism by which exercise modulates non-obese insulin resistance have not been fully studied. The present investigation evaluated whether regular exercise by voluntary wheel running (VWR) can reduce cardiometabolic risks induced by fructose ingestion. Moreover, the potential cellular adaptations following VWR on key signaling proteins known to influence insulin-induced glucose transport in skeletal muscle of fructose-ingested rats were investigated. Male Sprague-Dawley rats were given either water or liquid fructose (10% wt/vol) without or with access to running wheel for 6 weeks. We demonstrated that VWR restored insulin-stimulated glucose transport in the soleus muscle by improving the functionality of several signaling proteins, including insulin-stimulated IRβ Tyr¹¹⁵⁸/Tyr¹¹⁶²/Tyr¹¹⁶³ (82%), IRS-1 Tyr⁹⁸⁹ (112%), Akt Ser⁴⁷³ (56%), AS160 Thr⁶⁴² (76%), and AS160 Ser⁵⁸⁸ (82%). These effects were accompanied by lower insulin-stimulated phosphorylation of IRS-1 Ser³⁰⁷ (37%) and JNK Thr¹⁸³/Tyr¹⁸⁵ (49%), without significant changes in expression of proteins in the renin-angiotensin system. Intriguingly, multiple cardiometabolic abnormalities were not observed in fructose-ingested rats with access to VWR. Collectively, this study demonstrates that the development of cardiometabolic abnormalities as well as insulin resistance of skeletal muscle and defective signaling molecules in rats induced by fructose ingestion could be opposed by VWR.

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