The chicken ovalbumin upstream promoter-transcription factors modulate genes and pathways involved in skeletal muscle cell metabolism

The chicken ovalbumin upstream promoter-transcription factors ( COUP-TFs) are orphan members of the nuclear hormone receptor ( NR) superfamily. COUP-TFs are involved in organogenesis and neurogenesis. However, their role in skeletal muscle ( and other major mass tissues) and metabolism remains obscure. Skeletal muscle accounts for similar to 40% of total body mass and energy expenditure. Moreover, this peripheral tissue is a primary site of glucose and fatty acid utilization. We utilize small interfering RNA ( siRNA)-mediated attenuation of Coup-TfI and II ( mRNA and protein) in a skeletal muscle cell culture model to understand the regulatory role of Coup-Tfs in this energy demanding tissue. This targeted NR repression resulted in the significant attenuation of genes that regulate lipid mobilization and utilization ( including Ppar alpha, Fabp3, and Cpt-1). This was coupled to reduced fatty acid beta-oxidation. Additionally we observed significant attenuation of Ucp1, a gene involved in energy expenditure. Concordantly, we observed a 5-fold increase in ATP levels in cells with siRNA-mediated repression of Coup-TfI and II. Furthermore, the expression of classical liver X receptor ( LXR) target genes involved in reverse cholesterol transport ( Abca1 and Abcg1) were both significantly repressed. Moreover, we observed that repression of the Coup-Tfs ablated the activation of Abca1, and Abcg1 mRNA expression by the selective LXR agonist, T0901317. In concordance, Coup-Tf-siRNA-transfected cells were refractory to Lxr-mediated reduction of total intracellular cholesterol levels in contrast to the negative control cells. In agreement Lxr-mediated activation of the Abca1 promoter in Coup-Tf-siRNA cells was attenuated. Collectively, these data suggest a pivotal role for Coup-Tfs in the regulation of lipid utilization/cholesterol homeostasis in skeletal muscle cells and the modulation of Lxr-dependent gene regulation.

Halofenate is a selective peroxisome proliferator-activated receptor gamma modulator with antidiabetic activity

Halofenate has been shown previously to lower triglycerides in dyslipidemic subjects. In addition, significant decreases in fasting plasma glucose were observed but only in type 2 diabetic patients. We hypothesized that halofenate might be an insulin sensitizer, and we present data to suggest that halofenate is a selective peroxisome proliferator-activated receptor (PPAR)-gamma modulator (SPPAR gamma M). We demonstrate that the circulating form of halofenate, halofenic acid (HA), binds to and selectively modulates PPAR-gamma. Reporter assays show that HA is a partial PPAR-gamma agonist, which can antagonize the activity of the full agonist rosiglitazone. The data suggest that the partial agonism of RA may be explained in part by effective displacement of corepressors (N-CoR and SMRT) coupled with inefficient recruitment of coactivators (p300, CBP, and TRAP 220). In human preadipocytes, HA displays weak adipogenic activity and antagonizes rosiglitazone-mediated adipogenic differentiation. Moreover, in 3T3-L1 adipocytes, HA selectively modulates the expression of multiple PPAR-gamma-responsive genes. Studies in the diabetic ob/ob mouse demonstrate halofenate's acute antidiabetic properties. Longer-term studies in the obese Zucker (fa/fa) rat demonstrate halofenate's comparable insulin sensitization to rosiglitazone in the absence of body weight increases. Our data establish halofenate as a novel SPPAR-gamma M with promising therapeutic utility with the potential for less weight gain.

Effects of 15d-PGJ(2)-loaded poly(D,L-lactide-co-glycolide) nanocapsules on inflammation

BACKGROUND and PURPOSEThe PPAR-gamma agonist 15d-PGJ(2) is a potent anti-inflammatory agent but only at high doses. To improve the efficiency of 15d-PGJ(2), we used poly(D,L-lactide-co-glycolide) nanocapsules to encapsulate it, and function as a drug carrier system. The effects of these loaded nanocapsules (15d-PGJ(2)-NC) on inflammation induced by different stimuli were compared with those of free 15d-PGJ(2).EXPERIMENTAL APPROACHMice were pretreated (s.c.) with either 15d-PGJ(2)-NC or unloaded 15d-PGJ(2) (3, 10 or 30 mu g center dot kg-1), before induction of an inflammatory response by i.p. injection of either endotoxin (LPS), carrageenan (Cg) or mBSA (immune response).KEY RESULTSThe 15d-PGJ(2)-NC complex did not display changes in physico-chemical parameters or drug association efficiency over time, and was stable for up to 60 days of storage. Neutrophil migration induced by i.p. administration of LPS, Cg or mBSA was inhibited by 15d-PGJ(2)-NC, but not by unloaded 15d-PGJ(2). In the Cg model, 15d-PGJ(2)-NC markedly inhibited serum levels of the pro-inflammatory cytokines TNF-alpha, IL-1 beta and IL-12p70. Importantly, 15d-PGJ(2)-NC released high amounts of 15d-PGJ(2), reaching a peak between 2 and 8 h after administration. 15d-PGJ(2) was detected in mouse serum after 24 h, indicating sustained release from the carrier. When the same concentration of unloaded 15d-PGJ(2) was administered, only small amounts of 15d-PGJ(2) were found in the serum after a few hours.CONCLUSIONS and IMPLICATIONSThe present findings clearly indicate the potential of the novel anti-inflammatory 15d-PGJ(2) carrier formulation, administered systemically. The formulation enables the use of a much smaller drug dose, and is significantly more effective compared with unloaded 15d-PGJ(2).

Remodelamento do fígado, pâncreas e tecido adiposo em modelo experimental de síndrome metabólica tratado com telmisartana, sitagliptina e metformina

A intervenção farmacológica pode minimizar ou até mesmo reverter o remodelamento adverso em órgãos num modelo de síndrome metabólica. Este trabalho teve como objetivo avaliar os efeitos das monoterapias e associações medicamentosas sobre a morfologia do tecido adiposo, remodelamento hepático e pancreático em camundongos C57bl/6 alimentados com dieta very high-fat. Camundongos C57bl/6 machos foram alimentados com dieta very high-fat (HF, 60% de lipídios) ou dieta padrão (SC, 10% de lipídios) por 10 semanas, quando foram iniciados os tratamentos: HF-T (HF + Telmisartana, 5.2mg/Kg/dia), HF-S (HF + Sitagliptina, 1.08g/Kg/dia), HF-M (HF + Metformina, 310.0mg/Kg/dia) e as associações medicamentosas HF-TM, HF-TS e HF-SM. Os grupos tratados também tiveram livre acesso à dieta high fat e os tratamentos duraram 6 semanas. Técnicas morfométricas, estereológicas, imunohistoquímicas, ELISA, western blotting e microscopia eletrônica foram utilizadas. A dieta high-fat causou sobrepeso, intolerância oral à glucose, hiperinsulinemia, hipertrofia de ilhotas e adipócitos, grau 2 de esteatose hepatica (<33%) redução da expressão de PPAR-alfa e de GLUT-2, concomitante com aumento da expressão de SREBP-1 no grupo HF (P<0.0001). Por outro lado, todos os tratamentos resultaram em perda de peso significativa, reversão da resistência à insulina, hipertrofia de ilhotas e adipócitos e alívio da esteatose hepática. Somente os grupos HF-T e HF-TS apresentaram massa corporal similar ao grupo SC ao final do experimento, sendo que o ultimo também apresentou reversão da esteatose hepática. O aumento da expressão do PPAR-alfa paralelamente ao decréscimo da expressão do SREBP-1 explica os achados favoráveis para o fígado. A normalização do tamanho do adipócito foi consistente com os níveis maiores de adiponectina e com a redução dos níveis de TNF-alfa (P<0.0001) nos grupos tratados.Todos os tratamentos foram eficazes para controlar a síndrome metabólica. Os melhores resultados foram alcançados com a telmisartana e sitagliptina como monoterapias ou como associação entre essas, combinando a ativação parcial do PPAR-alfa no fígado com a extensão do tempo de ação das incretinas

A ingestão precoce de dieta enriquecida com óleo de peixe reverte alterações bioquímicas, hepáticas e do tecido adiposo na prole de camundongos submetidos à restrição proteica

Ingestão precoce de dieta enriquecida com óleo de peixe reverte alterações bioquímicas, hepáticas e do tecido adiposo na prole de camundongos submetidos à restrição protéica. 2010. 61 f. Dissertação (Mestrado em Biologia Humana e Experimental) Instituto de Biologia Roberto Alcântara Gomes, Universidade do Estado do Rio de Janeiro, Rio de Janeiro, 2010. Estudos relacionam obesidade na vida adulta com baixo peso ao nascer (programação metabólica). O fígado é um dos órgãos mais afetados pela programação. O óleo de peixe é rico em ácidos graxos poli-insaturados (AGP) da família n-3: ácido eicosapentaenóico (EPA) e docosahexaenóico (DHA). O EPA e DHA são relacionados com redução da pressão arterial sistólica e ação anti-inflamatória. Testar a hipótese que a ingestão precoce de óleo de peixe (FO) pode reverter os efeitos deletérios da programação na prole adulta de camundongos. Fêmeas grávidas foram alimentadas com ração padrão (SC) ou dieta restrita em proteínas (LP) durante a gestação e lactação. Ao desmame, os seguintes grupos foram formados (de acordo com a suplementação com FO): SC-SC e SC-FO, LP-SC e LP-FO. Foram aferidas massa corporal, ingestão e eficiência alimentar, pressão arterial sistólica (PAS), insulina plasmática, glicose, fator de necrose tumoral (TNF)-alfa, colesterol total (CT), triglicerídeos (TG) e alanina aminotransferase (ALT), morfometria dos adipócitos, estereologia do fígado e expressão proteínas SREBP-1c e PPAR-alfa. A prole LP apresentou maior massa corporal, hipercolesterolemia e hiperglicemia Na idade adulta, os animais restritos tornaram-se hipertensos, com esteatose hepática e elevado nível da SREBP-1c. Entretanto, a prole LP com dieta suplementada com FO ocasionou menor ganho e menor massa corporal final. A dieta FO melhorou o metabolismo lipídico, diminuiu a concentração plasmática de CT e TG, reduziu a massa adiposa e o tamanho dos adipócitos. Além disso, LP-FO mostrou níveis reduzidos da ALT, redução da esteatose hepática, baixa expressão da SREBP-1c e aumento da expressão do PPAR-alfa, além de redução da PAS e dos níveis de TNF-alfa. A dieta com FO teve efeitos benéficos revertendo as respostas da programação sobre o metabolismo da glicose e lipídios, estrutura hepática e tecido adiposo na prole adulta programada.

Benefícios do treinamento intervalado de alta intensidade (natação) na obesidade (estudo experimental)

É um desafio na sociedade moderna controlar a obesidade e comorbidades associadas na população. O objetivo do estudo foi avaliar o impacto do treinamento intervalado de alta intensidade no contexto da obesidade induzida por dieta em modelo animal. Camundongos C57BL/6 foram alimentados com ração padrão (grupo magro - LE) ou dieta rica em gordura (grupo obeso - OB). Após 12 semanas, os animais foram divididos em grupos não treinados (LE-NT e OB-NT) e grupos treinados (LE-T e OB-T) e teve início um protocolo de exercício. Nos grupos treinados em comparação aos grupos não treinados observou-se que o treinamento intervalado de alta intensidade levou a reduções significativas na massa corporal, glicemia e tolerância oral à glicose, colesterol total, triglicérides, lipoproteína de baixa densidade-colesterol, aspartato transaminase e alanina aminotransferase no fígado. Além disso, nos grupos treinados, o protocolo de exercício melhorou a imunodensidade de insulina nas ilhotas, reduziu os níveis de citocinas inflamatórias, adiposidade e esteatose hepática. O treinamento de alta intensidade melhorou a beta-oxidação e os níveis de receptores ativados por proliferador de peroxissomo (PPAR)-alfa e reduziu os níveis de lipogênese e de PPAR-gama no fígado. No músculo esquelético, o treinamento de alta intensidade também melhorou o PPAR-alfa e transportador de glicose (GLUT) -4 e reduziu os níveis de PPAR-gama. Esses achados reforçam a noção de que o treinamento de alta intensidade é relevante como uma abordagem não farmacológica para controlar a resistência à insulina, glicemia, e esteatose hepática. Em conclusão, treinamento de alta intensidade leva à perda de massa corporal e pode atenuar os efeitos adversos causados pela ingestão crônica de uma dieta rica em gordura. Apesar de uma ingestão contínua dessa dieta, o treinamento de alta intensidade melhora as enzimas hepáticas e o perfil inflamatório.

Dieta hiperlipídica e/ou rica em sacarose em camundongos suíços: metabolismo de carboidratos, fígado e tecido adiposo

A doença hepática gordurosa não alcoólica é uma desordem multifatorial causada principalmente por excesso nutricional e resistência à insulina, com prevalência estimada de 20-40% nos países ocidentais. A dieta hiperlipídica e/ou rica em sacarose pode influenciar no desenvolvimento da esteatose hepática associada à obesidade e a resistência à insulina. O fígado, por assumir papel central no controle metabólico, é um órgão alvo nos casos de excesso alimentar, ocasionando, principalmente, acúmulo de gotículas de gordura nos hepatócitos. Este trabalho teve como objetivo avaliar o início das alterações morfológicas e metabólicas no fígado e no tecido adiposo de camundongos suíços machos alimentados com dieta hiperlipídica e/ou rica em sacarose. Camundongos suíços machos aos três meses de idade foram divididos em quatro grupos nutricionais: dieta padrão (SC), dieta hiperlipídica (HF), dieta rica em sacarose (HSu) e dieta hiperlipídica rica em sacarose (HFHSu). Os animais receberam as respectivas dietas durante quatro semanas. A massa corporal, a ingestão alimentar e a tolerância oral à glicose foram avaliados. Ao sacrifício, o fígado e os depósitos de gordura corporal foram removidos e processados para análises histomorfométricas e moleculares. As amostras de sangue foram obtidas para análises bioquímicas plasmáticas. Os dados foram expressos como média e erro padrão da média e as diferenças foram testadas por one-way ANOVA com pós-teste de Holm-Sidak, e foi considerado o nível de significância de p<0,05. Os grupos HF e HFHSu apresentaram-se mais pesados quando comparados aos grupos SC e HSu. Os animais dos grupos HF, HSu e HFHSu apresentaram intolerância à glicose, esteatose hepática e aumento de triglicerídeos hepáticos quando comparados ao grupo SC (p<0,0005). Adicionalmente, houve elevação na expressão hepática das proteínas transportador de glicose 2 (GLUT-2), proteína de ligação ao elemento regulador do esterol 1-c (SREBP1-c), fosfoenolpiruvato carboxiquinase (PEPCK), glicose -6- fosfatase (G6PASE), substrato do receptor da insulinaI-1 (IRS-1) e proteína quinase B (AKt/ou PKB) e redução da expressão no fígado do receptor ativador de proliferação peroxissomal (PPAR-α) nos grupos experimentais em comparação com o grupo SC (p<0,0005). A administração de dieta hiperlipídica e/ou rica em sacarose promoveu intolerância à glicose e danos hepáticos (hepatomegalia, esteatose, redução da beta-oxidação, aumento na lipogênese e na produção de glicose) em camundongos machos adultos.

Thiazolidinediones: effects on insulin resistance and the cardiovascular system.

Abstract
Thiazolidinediones (TZDs) have been used for the treatment of hyperglycaemia in type 2 diabetes for the past 10 years. They may delay the development of type 2 diabetes in individuals at high risk of developing the condition, and have been shown to have potentially beneficial effects on cardiovascular risk factors. TZDs act as agonists of peroxisome proliferator-activated receptor-gamma (PPAR-gamma) primarily in adipose tissue. PPAR-gamma receptor activation by TZDs improves insulin sensitivity by promoting fatty acid uptake into adipose tissue, increasing production of adiponectin and reducing levels of inflammatory mediators such as tumour necrosis factor-alpha (TNF-alpha), plasminogen activator inhibitor-1(PAI-1) and interleukin-6 (IL-6). Clinically, TZDs have been shown to reduce measures of atherosclerosis such as carotid intima-media thickness (CIMT). However, in spite of beneficial effects on markers of cardiovascular risk, TZDs have not been definitively shown to reduce cardiovascular events in patients, and the safety of rosiglitazone in this respect has recently been called into question. Dual PPAR-alpha/gamma agonists may offer superior treatment of insulin resistance and cardioprotection, but their safety has not yet been assured

Balancing Inflammatory, Lipid, and Xenobiotic Signaling Pathways by VSL#3, a Biotherapeutic Agent, in the Treatment of Inflammatory Bowel Disease

Background: The interleukin 10 knockout mouse (IL10-KO) is a model of human inflammatory bowel disease (IBD) used to Study host microbial interactions and the action of potential therapeutics. Using Affymetrix data analysis, important signaling pathways and transcription factors relevant to gut inflammation and antiinflammatory probiotics were identified.

Methods: Affymetrix microarray analysis on both wildtype (WT) and IL10-KO mice orally administered with and without the probiotic VSL#3 was performed and the results validated by real-time polymerase chain reaction (PCR), immunocytochemistry, proteomics, and histopathology. Changes in metabolically active bacteria were assessed with denaturing gradient gel electrophoresis (DGGE).

Results: Inflammation in IL10-KO mice was characterized by differential regulation of inflammatory, nuclear receptor, lipid, and xenobiotic signaling pathways. Probiotic intervention resulted in downregulation of CXCL9 (fold change [FC] = -3.98, false discovery rate [FDR] = 0.019), CXCL10 (FC = -4.83, FDR = 0.0008), CCL5 (FC -3.47 FDR = 0.017), T-cell activation (Itgal [FC = -4.72, FDR = 0.00009], Itgae [FC = -2.54 FDR = 0.0044]) and the autophagy gene IRGM (FC = -1.94, FDR = 0.01), a recently identified susceptibility gene in human IBD. Consistent with a marked reduction in integrins, probiotic treatment decreased the number of CCL5+ CD3+ double-positive T Cells and upregulated galectin2, which triggers apoptosis of activated T cells. Importantly, genes associated with lipid and PPAR signaling (PPAR alpha [FC = 2.36, FDR = 0.043], PPARGC1 alpha [FC 2.58, FDR = 0.016], Nrld2 [FC = 3.11, FDR = 0.0067]) were also upregulated. Altered microbial diversity was noted in probiotic-treated mice.

Conclusions: Bioinformatics analysis revealed important immune response. phagocytic and inflammatory pathways dominated by elevation of T-helper cell 1 type (TH1) transcription factors in IL10-KO mice. Probiotic intervention resulted in a site-specific reduction of these pathways but importantly upregulated PPAR, xenobiotic, and lipid signaling genes. potential antagonists of NF-kappa B inflammatory pathways.

Peroxisome proliferator-activated receptor structures: ligand specificity, molecular switch and interactions with regulators.

Peroxisome proliferator-activated receptors (PPARs) compose a family of nuclear receptors that mediate the effects of lipidic ligands at the transcriptional level. In this review, we highlight advances in the understanding of the PPAR ligand binding domain (LBD) structure at the atomic level. The overall structure of PPARs LBD is described, and important protein ligand interactions are presented. Structure-activity relationships between isotypes structures and ligand specificity are addressed. It is shown that the numerous experimental three-dimensional structures available, together with in silico simulations, help understanding the role played by the activating function-2 (AF-2) in PPARs activation and its underlying molecular mechanism. The relation between the PPARs constitutive activity and the intrinsic stability of the active conformation is discussed. Finally, the interactions of PPARs LBD with co-activators or co-repressors, as well as with the retinoid X receptor (RXR) are described and considered in relation to PPARs activation.

Activation of peroxisome proliferator-activated receptors (PPARs) by their ligands and protein kinase A activators.

The nuclear peroxisome proliferator-activated receptors (PPARs) alpha, beta, and gamma activate the transcription of multiple genes involved in lipid metabolism. Several natural and synthetic ligands have been identified for each PPAR isotype but little is known about the phosphorylation state of these receptors. We show here that activators of protein kinase A (PKA) can enhance mouse PPAR activity in the absence and the presence of exogenous ligands in transient transfection experiments. Activation function 1 (AF-1) of PPARs was dispensable for transcriptional enhancement, whereas activation function 2 (AF-2) was required for this effect. We also show that several domains of PPAR can be phosphorylated by PKA in vitro. Moreover, gel retardation experiments suggest that PKA stabilizes binding of the liganded PPAR to DNA. PKA inhibitors decreased not only the kinase-dependent induction of PPARs but also their ligand-dependent induction, suggesting an interaction between both pathways that leads to maximal transcriptional induction by PPARs. Moreover, comparing PPAR alpha knockout (KO) with PPAR alpha WT mice, we show that the expression of the acyl CoA oxidase (ACO) gene can be regulated by PKA-activated PPAR alpha in liver. These data demonstrate that the PKA pathway is an important modulator of PPAR activity, and we propose a model associating this pathway in the control of fatty acid beta-oxidation under conditions of fasting, stress, and exercise.

Fenofibrate and Pioglitazone Do Not Ameliorate the Altered Vascular Reactivity in Aorta of Isoproterenol-treated Rats

Chronic stimulation of beta-adrenoceptors with isoproterenol induces alteration of vascular reactivity and increases local proinflammatory cytokines. We investigated whether fenofibrate and pioglitazone, PPAR-alpha and -gamma agonists, respectively, improve the changes in vascular reactivity induced by isoproterenol. Wistar rats received isoproterenol (0.3 mg.kg(-1).day(-1), SC) or vehicle (CT) plus fenofibrate (alpha, 100 mg.kg(-1).day(-1), PO), pioglitazone (gamma, 2.5 mg.kg(-1).day(-1), PO), or water for 7 days. In aortas, isoproterenol treatment enhanced the maximal response (Rmax) to phenylephrine (10(-10) to 10(-4) M) compared to CT as previously demonstrated. The effects of endothelium removal (E-) or L-NAME incubation (100 mu M) on the phenylephrine response were smaller in isoproterenol-treated animals compared to CT while superoxide dismutase (SOD, 150 U/mL) significantly reduced the Rmax to phenylephrine to CT levels. Neither fenofibrate nor pioglitazone changed the effects induced by isoproterenol in aorta. E-, L-NAME, or SOD effects were similar between CT alpha and CT. However, pioglitazone per se increased Rmax to phenylephrine (CT: 59 +/- 4 versus CT gamma: 72 +/- 5 % of contraction to KCl). E- or L-NAME effects were reduced in CT gamma compared to CT, and SOD normalized the altered reactivity to phenylephrine in the CT gamma group. In conclusion, neither fenofibrate nor pioglitazone ameliorates the altered vascular reactivity present in aorta from isoproterenol-treated rats. Moreover, pioglitazone per se induced endothelial dysfunction and increased phenylephrine-induced contraction in aorta.

Exercise training increases lipid metabolism gene expression in human skeletal muscle

The effects of a single bout of exercise and exercise training on the expression of genes necessary for the transport and beta -oxidation of fatty acids (FA), together with the gene expression of transcription factors implicated in the regulation of FA homeostasis were investigated. Seven human subjects (3 male, 4 female, 28.9 ± 3.1 yr of age, range 20-42 yr, body mass index 22.6 kg/m², range 17-26 kg/m²) underwent a 9-day exercise training program of 60 min cycling per day at 63% peak oxygen uptake (V_{O2 peak}; 104 ± 14 W). On days 1 and 9 of the program, muscle biopsies were sampled from the vastus lateralis muscle at rest, at the completion of exercise, and again 3 h postexercise. Gene expression of key components of FA transport [FA translocase (FAT/CD36), plasma membrane-associated FA-binding protein], beta -oxidation [carntine palmitoyltransferase(CPT) I, beta -hydroxyacyl-CoA dehydrogenase] and transcriptional control [peroxisome proliferator-activated receptor (PPAR)alpha , PPARgamma , PPARgamma coactivator 1, sterol regulatory element-binding protein-1c] were unaltered by exercise when measured at the completion and at 3 h postexercise. Training increased total lipid oxidation by 24% (P < 0.05) for the 1-h cycling bout. This increased capacity for lipid oxidation was accompanied by an increased expression of FAT/CD36 and CPT I mRNA. Similarly, FAT/CD36 protein abundance was also upregulated by exercise training. We conclude that enhanced fat oxidation after exercise training is most closely associated with the genes involved in regulating FA uptake across the plasma membrane (FAT/CD36) and across the mitochondrial membrane (CPT I).

Dietary regulation of fat oxidative gene expression in different skeletal musle fiber types

Objective: To determine the effect of a high-fat diet on the expression of genes important for fat oxidation, the protein abundance of the transcription factors peroxisome proliferator-activated receptor (PPAR) isoforms α and γ, and selected enzyme activities in type I and II skeletal muscle. Research Methods and Procedures: Sprague-Dawley rats consumed either a high-fat (HF: 78% energy, n = 8) or high-carbohydrate (64% energy, n = 8) diet for 8 weeks while remaining sedentary. Results: The expression of genes important for fat oxidation tended to increase in both type I (soleus) and type II (extensor digitorum longus) fiber types after an HF dietary intervention. However, the expression of muscle type carnitine palmitoyltransferase I was not increased in extensor digitorum longus. Analysis of the gene expression of both peroxisome proliferator-activated receptor-γ coactivator and forkhead transcription factor O1 demonstrated no alteration in response to the HF diet. Similarly, PPARα and PPARγ protein levels were also not altered by the HF diet. Discussion: An HF diet increased the expression of an array of genes involved in lipid metabolism, with only subtle differences evident in the response within differing skeletal muscle fiber types. Despite changes in gene expression, there were no effects of diet on peroxisome proliferator-activated receptor-gamma coactivator and forkhead transcription factor O1 mRNA and the protein abundance of PPARα and PPARγ.