Epigenetics of Muscle Insulin Resistance

University of Arizona72 enrolled

Overview

The investigators are trying to understand the role of DNA (deoxyribonucleic acid) methylation in insulin resistance in skeletal muscle and blood tissues. DNA methylation is a normal chemical process in the body that modifies DNA. By studying this, the investigators hope to better understand the causes of insulin resistance.

Insulin resistance is defined as the decreased ability of insulin to perform its biological function in the muscle, liver and fat. Genetic and environmental factors are known to influence insulin sensitivity. It is not known how this is mediated. This study looks at the role of epigenetics (modifications of proteins associated with DNA and methylation of DNA) in alterations in insulin resistance. The investigators will study lean healthy people, obese non-diabetic people and people with type 2 diabetes to characterize the DNA methylation patterns in muscle in each group. The second aim of the study is to see how a single bout of exercise affects the DNA methylation in the muscle. The third aim looks at the effect of 8 weeks of supervised exercise on the DNA methylation.

Study Type

OBSERVATIONAL

Enrollment

Conditions

Diabetes Mellitus, Type 2 Obesity

Eligibility

Sex: ALLMin age: 21 YearsMax age: 55 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion Criteria 1. Age 21-55 2. BMI: Lean, BMI less than or equal to 25; Obese, BMI between 30- 50; type 2 diabetic, BMI between 30- 50. 3. Subjects must be able to communicate meaningfully with the investigator and must be legally competent to provide written informed consent. 4. Subjects may be of either sex with age as described in each protocol. Female subjects must be non-lactating and will be eligible only if they have a negative pregnancy test throughout the study period. 5. Subjects must range in age as described in each specific protocol. 6. Subjects must have the following laboratory values: 1. Hematocrit ≥ 35 vol% 2. Serum creatinine ≤ 1.6 mg/dl 3. AST (SGOT) \< 2 times upper limit of normal 4. ALT (SGPT) \< 2 times upper limit of normal 5. Alkaline phosphatase \< 2 times upper limit of normal 6. Triglycerides \< 150 mg/dl for nondiabetics 7. Triglycerides \<300 for diabetics 8. INR ≤ 1.3 Exclusion Criteria 1. Subjects must not be receiving any of the following medications: thiazide or furosemide diuretics, beta-blockers, or other chronic medications with known adverse effects on glucose tolerance levels unless the patient has been on a stable dose of such agents for the past three months before entry into the study. Subjects may be taking a stable dose of estrogens or other hormonal replacement therapy, if the subject has been on these agents for the prior three months. Subjects taking systemic glucocorticoids are excluded. Patients with type 2 diabetes will be excluded if they are taking thiazolidinediones, but may be taking sulfonylureas or other medications known to work through effects on insulin secretion. 2. Subjects receiving Gemfibrozil must not also be receiving a statin. 3. Subjects with a history of clinically significant heart disease (New York Heart Classification greater than grade II; more than non-specific ST-T wave changes on the EKG), peripheral vascular disease (history of claudication), or pulmonary disease (dyspnea on exertion of one flight or less; abnormal breath sounds on auscultation) will not be studied. 4. Recent systemic or pulmonary embolus, untreated high-risk proliferative retinopathy, recent retinal hemorrhage, uncontrolled hypertension, systolic BP\>180, diastolic BP\>105, autonomic neuropathy, resting heart rate \>100, electrolyte abnormalities.

Locations (1)

University of Arizona

Tucson, Arizona, United States

Outcomes

Primary Outcomes

DNA methylation of genes in insulin resistance

DNA methylation of genes involved in mitochondrial biogenesis, oxidative phosphorylation, extracellular matrix and cytoskeleton proteins in insulin resistance, with an acute episode of exercise, and with eight weeks of training exercise.

Time frame: 9 months

Secondary Outcomes

mRNA expression of genes

mRNA expression of genes involved in mitochondrial biogenesis, oxidative phosphorylation, extracellular matrix and cytoskeletal signaling are altered in insulin resistance, with an acute episode of exercise and with 8 weeks of exercise training.

Time frame: 9 months

Data from ClinicalTrials.gov

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