In vitro studies revealed that insulin resistance might be associated with the intracellular formation of ceramide, the second messenger in the sphingomyelin signaling pathway. The aim of the present study was to examine the content and composition of fatty acids in ceramide and sphingomyelin in human muscle and to evaluate their relationships with insulin sensitivity. The study was conducted on 27 male subjects with normal glucose tolerance. Euglycemic-hyperinsulinemic clamps and biopsies of vastus lateralis muscle were performed. In 10 subjects, additional biopsies were taken after a 4-h clamp and after a clamp with concurrent Intralipid/ heparin infusion. We identified 13 ceramides and sphingomyelins according to fatty acid residues. Insulin sensitivity was related to total ceramide content (r ؍ ؊0.49, P ؍ 0.01) and to ceramide consisting of palmitic (r ؍ ؊0.48, P ؍ 0.011), palmitoleic (r ؍ ؊0.45, P ؍ 0.019), mirystic (r ؍ ؊0.42, P ؍ 0.028), and nervonic acid (r ؍ ؊0.39, P ؍ 0.047). Hyperinsulinemia did not affect estimated muscle parameters. Intralipid/heparin infusion resulted in a 24.73% decrease in insulin sensitivity (P ؍ 0.007) and a 47.81% increase in ceramide content (P ؍ 0.005). These changes were significantly related to each other (r ؍ ؊0.64, P ؍ 0.046). A relationship with the decrease in insulin sensitivity was also observed for ceramides consisting of palmitic (r ؍ ؊0.68, P ؍ 0.03) and linoleic (r ؍ ؊0.66, P ؍ 0.038) acid. Our data indicate that the sphingomyelin signaling pathway in muscle might be an important factor determining the development of insulin resistance in humans.
Intramuscular lipid pool turnover [triacylglycerols (TG), phospholipids (PL), mono- and diacylglycerols (MG, DG)] and the oxidation of endogenous and exogenous lipids were determined with pulse-chase studies in incubated muscles of varied oxidative potential [soleus strips (SOL)--> epitrochlearis --> flexor digitorum brevis]. Incorporation of palmitate into TG and PL pools and its oxidation were linearly related to time and exogenous palmitate concentration in all muscles. Total palmitate incorporation (deposition and oxidation) was greatest in SOL. However, palmitate incorporation into TG was similar in all muscles when expressed as a percentage of the total incorporation. In contrast, palmitate incorporation into PL was greatest in the least oxidative muscle. Palmitate oxidation, incorporation into TG, and citrate synthase activity were all strongly correlated with muscle cytosolic fatty acid-binding protein content (r = 0.96, 1.0, and 0.98, respectively). During the chase, reducing exogenous palmitate from 1.0 mM to 0.5 or 0 mM resulted in a significant (approximately 30%) loss of [(14)C]palmitate from the TG pool in SOL and a significant increase in (14)CO(2) production from endogenous stores. No significant loss of (14)C label from lipid pools occurred in the less oxidative muscles, suggesting a closely regulated interaction between energy provision from exogenous and endogenous lipid pools in oxidative muscle. Glucose oxidation increased significantly in all muscles in the absence of palmitate. The loss of (14)C label from TG in SOL during the chase without palmitate was not accompanied by a significant change in TG content. This suggests that, during rest, there is a small subpool of TG with a relatively rapid turnover.
Aims/hypothesis Intramyocellular lipids, including ceramide, a second messenger in the sphingomyelin signalling pathway, might contribute to the development of insulin resistance. The aim of our study was to assess parameters of the skeletal muscle sphingomyelin signalling pathway in men at risk of developing type 2 diabetes. Methods We studied 12 lean (BMI<25 kg/m 2 ) men without a family history of diabetes (control group), 12 lean male offspring of type 2 diabetic patients, and 21 men with overweight or obesity comprising 12 with NGT (obese-NGT) and nine with IGT (obese-IGT). A euglycaemic-hyperinsulinaemic clamp and a biopsy of vastus lateralis muscle were performed. Ceramide, sphingomyelin, sphinganine and sphingosine levels and sphingomyelinase and ceramidase activities were measured in muscle. Muscle diacylglycerol and triacylglycerol levels were estimated in a subgroup of 27 men (comprising men from all the above groups). Results Compared with the control group, the lean offspring of diabetic patients and the men with overweight or obesity showed lower insulin sensitivity (all p<0.005) and a greater muscle ceramide level (all p<0.01). The obese-IGT group had lower insulin sensitivity (p=0.0018) and higher muscle ceramide (p=0.0022) than the obese-NGT group. There was lower muscle sphingosine level and alkaline ceramidase activity in offspring of diabetic patients (p=0.038 and p=0.031, respectively) and higher sphinganine level in the obese-NGT (p=0.049) and obese-IGT (p=0.002) groups than in the control group. Muscle sphingomyelin was lower (p=0.0028) and neutral sphingomyelinase activity was higher (p=0.00079) in the obese-IGT than in the obese-NGT group. Muscle ceramide was related to insulin sensitivity independently of other muscle lipid fractions. Conclusions/interpretations Ceramide accumulates in muscle of men at risk of developing type 2 diabetes.
Aims/hypothesis Fatty acids of marine origin, i.e. docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA) act as hypolipidaemics, but they do not improve glycaemic control in obese and diabetic patients. Thiazolidinediones like rosiglitazone are specific activators of peroxisome proliferator-activated receptor γ, which improve wholebody insulin sensitivity. We hypothesised that a combined treatment with a DHA and EPA concentrate (DHA/EPA) and rosiglitazone would correct, by complementary additive mechanisms, impairments of lipid and glucose homeostasis in obesity.Methods Male C57BL/6 mice were fed a corn oil-based high-fat diet. The effects of DHA/EPA (replacing 15% dietary lipids), rosiglitazone (10 mg/kg diet) or a combination of both on body weight, adiposity, metabolic markers and adiponectin in plasma, as well as on liver and muscle gene expression and metabolism were analysed. Euglycaemic-hyperinsulinaemic clamps were used to characterise the changes in insulin sensitivity. The effects of the treatments were also analysed in dietary obese mice with impaired glucose tolerance (IGT). Results DHA/EPA and rosiglitazone exerted additive effects in prevention of obesity, adipocyte hypertrophy, Diabetologia (2009) 52:941-951
Dobrzyń , Agnieszka, and Jan Gó rski. Ceramides and sphingomyelins in skeletal muscles of the rat: content and composition. Effect of prolonged exercise. Am J Physiol Endocrinol Metab 282: E277-E285, 2002; 10.1152/ajpendo. 00151.2001.-The sphingomyelin-signaling pathway has been described in many tissues. Ceramide is the main second messenger in this pathway. Ceramide has also been shown to be present in skeletal muscles; however, there are few data on the regulation of the content of ceramide in muscle tissue. Moreover, there are no data on the content of particular ceramides or their composition in the muscles. The aim of the present study was to examine the content and composition of fatty acids (FA) in ceramide and sphingomyelin moieties and the activity of neutral Mg 2ϩ -dependent sphingomyelinase in different skeletal muscle types of the rat at rest and after exhausting exercise of moderate intensity. The experiments were carried out on male Wistar rats, divided into two groups: 1) control and 2) exercised until exhaustion on a treadmill. Soleus and red and white gastrocnemius muscles were taken. Ceramide and sphingomyelin were separated by TLC. The content of individual FA in the two compounds was determined by gas-liquid chromatography. Twelve different ceramides and sphingomyelins were identified and quantified in each muscle type according to the FA residues. Saturated FA consisted of 68, 67, and 66% of total ceramide-FA and 75, 77, and 78% of total sphingomyelin-FA in soleus and red and white gastrocnemius, respectively. The total content of ceramide-and sphingomyelin-FA and the activity of sphingomyelinase were highest in the soleus and lowest in the white gastrocnemius. Exercise resulted in a reduction in the total content of ceramide-and sphingomyelin-FA in each muscle. This was accounted for mostly by a reduction in content in the amount of saturated FA. Exercise reduced the activity of neutral Mg 2ϩ -dependent sphingomyelinase in the soleus and red gastrocnemius and did not affect its activity in the white gastrocnemius. We conclude that the sphingomyelin-signaling pathway is present in skeletal muscles and that it is influenced by prolonged exercise.
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