Abstract
Skeletal muscle utilizes both free fatty acids (FFAs) and glucose that circulate in the blood stream. When blood glucose levels acutely increase, insulin stimulates muscle glucose uptake, oxidation, and glycogen synthesis. Under these conditions, skeletal muscle preferentially oxidizes glucose while the oxidation of fatty acids (FAs) oxidation is reciprocally decreased. In metabolic disorders associated with insulin resistance, such as diabetes and obesity, both glucose uptake, and utilization muscle are significantly reduced causing FA oxidation to provide the majority of ATP for metabolic processes and contraction. Although the causes of this metabolic inflexibility or disrupted “glucose-fatty acid cycle” are largely unknown, a diet high in fat and sugar (HFS) may be a contributing factor. This metabolic inflexibility observed in models of obesity or with HFS feeding is detrimental because high rates of FA oxidation in skeletal muscle can lead to the buildup of toxic metabolites of fat metabolism and the accumulation of pro-inflammatory cytokines, which further exacerbate the insulin resistance. Further, HFS leads to skeletal muscle atrophy with a decrease in myofibrillar proteins and phenotypically characterized by loss of muscle mass and strength. Overactivation of ubiquitin proteasome pathway, oxidative stress, myonuclear apoptosis, and mitochondrial dysfunction are some of the mechanisms involved in muscle atrophy induced by obesity or in mice fed with HFS. In this review, we will discuss how HFS diet negatively impacts the various physiological and metabolic mechanisms in skeletal muscle.
Highlights
Obesity is defined as an excess in adipose tissue mass that may have adverse consequences on health (Ofei, 2005)
This study provided many avenues explaining how lipids induce resistance, especially with correlations suggesting that protein kinase C (PKC) could cause insulin resistance by affecting the insulin receptor substrate (IRS) and other components of the insulin-signaling cascade
high in fat and sugar (HFS) (20% refined carbohydrates 7% sucrose and 13% maltodextrin, 20% protein and 60% saturated and mono-unsaturated fat, primarily from lard) High fat diet and high fat sunflower oil both provided 60% kcal fat HFD composed of 20% sucrose, 15% protein consisted of 32.5% corn oil and lard
Summary
Obesity is defined as an excess in adipose tissue mass that may have adverse consequences on health (Ofei, 2005). High Fat Sugar and Myodegeneration to hyperleptinemia and leptin resistance as well as increased production of pro-inflammatory cytokines (Maffei et al, 1995; Marsh et al, 1999; Schwartz et al, 2000; Fantuzzi, 2005) resulting in decreases in whole body insulin sensitivity and disruption in appetite control and regulation of food intake (Hellstrom, 2013) These metabolic alterations depict the relationship between obesity and T2DM. Free fatty acids (FFAs) increases protein kinase C (PKC) activation, which in turn, inhibit the metabolic insulin signaling pathways (Griffin et al, 1999; Itani et al, 2002) One mechanism behind this theory suggests changes in PKC, diacylglyerol (DAG), and IKB-Kinase (IκB-α) are induced by an increased concentration of FAs in the plasma membrane. Type IIb fibers are less response to the effects of insulin on glucose uptake and is correlated with reduced capillary density and in the obese patient (Lillioja et al, 1987)
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