Regulation of Muscle Protein Phenotype in Humans With Obesity

Study Description

Brief Summary

Maintenance of protein homeostasis is impaired in skeletal muscle of humans with obesity. A hallmark of this defect is distorted expression of isoforms of the myosin heavy chain (MHC) protein, and this defect is linked to obesity-associated adverse health outcomes. By employing exercise and increase in plasma amino acids as investigational tools the investigators intend to modulate the metabolism of muscle MHC isoforms in order to unravel the biological mechanisms that sustain distorted MHC protein metabolism in muscle of humans with obesity.

Detailed Description

Distorted expression of isoforms of the skeletal muscle myosin heavy chain (MHC) protein is a hallmark of altered protein metabolism in muscle of humans with obesity. The most striking feature of this, is a characteristic reduction in the content of the slow MHC-I isoform, which is responsible for determining the content of Type I muscle fibers. These fibers are characterized by increased capacity for glucose uptake, and in contrast to Type II fibers, maintain sensitivity to fuel metabolism within the adverse metabolic environment of obesity. Increased content of Type I fibers in skeletal muscle, and thus favorable metabolic effects in muscle, require increased expression of MHC-I in muscle. Importantly, the slow MHC-I gene drives the molecular mechanisms that determine the overall MHC protein metabolism and fiber type phenotype in skeletal muscle. The project seeks to determine the underlying biology that sustains distorted MHC protein metabolism in skeletal muscle of humans with obesity.

The investigators evaluate protein metabolism in skeletal muscle of humans with obesity and lean controls, and focus specifically on that of MHC isoforms. The investigators determine gene expression of the MHC isoforms and associated molecular factors implicated in activating Type I muscle fiber programming. Acute aerobic exercise and increase in plasma amino acids are employed as experimental tools to target biological processes of transcription and translation related to MHC genes expression in skeletal muscle. The overall findings will provide an understanding of mechanisms responsible for unfavorable MHC proteome and fiber type phenotype in skeletal muscle of humans with obesity.

Study Design

Outcome Measures

Primary Outcome Measures

1. Change in Protein Synthesis [9 Hours on 2 separate days one month apart]

   Change from baseline in the synthesis rates of overall protein, overall mitochondrial protein, and myosin heavy chain (MHC) isoforms (MHC-I, MHC-IIa, and MHC-IIx) in skeletal muscle will be evaluated in response to the following interventions: exercise+amino acid infusion amino acid infusion exercise

2. Change in Eukaryotic initiation factor 4F (eIF4F) [9 Hours on 2 separate days one month apart]

   Change from baseline in the formation of the active eIF4F complex in skeletal muscle will be evaluated in response to the following interventions: exercise+amino acid infusion amino acid infusion exercise

3. Change in mRNA [9 Hours on 2 separate days one month apart]

   Change from baseline in mRNA content of MHC-I, MHC-IIa, and MHC-IIx in skeletal muscle will be evaluated in response to the following interventions: exercise+amino acid infusion amino acid infusion exercise

Secondary Outcome Measures

1. Change in Protein breakdown [9 Hours on 2 separate days one month apart]

   Change from baseline in the breakdown rates of overall protein and myosin heavy chain (MHC) isoforms (MHC-I, MHC-IIa, and MHC-IIx) in skeletal muscle will be evaluated in response to the following interventions: exercise+amino acid infusion amino acid infusion exercise

Eligibility Criteria

Criteria

Inclusion Criteria:

• ability to sign informed consent form

• body mass index (BMI), 18-25 kg/m2 (lean subjects), 32-50 kg/m2 (subjects with obesity)

• insulin sensitivity (Matsuda insulin sensitivity index: lean > 7, subjects with obesity < 4).

Exclusion Criteria:

• prescription or over-the-counter medication

• supplements known to affect protein metabolism (i.e., amino acids, protein, omega-3 fatty acids)

• diabetes

• acute illness

• liver disease

• uncontrolled metabolic disease, including renal disease

• heart disease related to atrial fibrillation, history of syncope, limiting or unstable angina, congestive heart failure or ECG documented abnormalities such as >0.2 mV horizontal or downsloping ST-segment depression, or frequent arrhythmias (>10 premature ventricular contractions/min)

• low hemoglobin or hematocrit

• use of anabolic steroids or corticosteroids (within 3 months)

• not classified as inactive/sedentary based on the Stanford Brief Activity Survey and accelerometry data

• participation in a weight-loss regimen

• extreme dietary practices (i.e., vegan, vegetarian)

• smoking

• pregnancy

• gastro-intestinal surgery

• any other condition or event considered exclusionary by the PI and the study physician.

Contacts and Locations

Locations

Sponsors and Collaborators

• Mayo Clinic
• National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)

Investigators

• Principal Investigator: Lori R Roust, MD, Mayo Clinic
• Principal Investigator: Christos S Katsanos, PhD, Arizona State University

Study Documents (Full-Text)

More Information

Additional Information:

• Mayo Clinic Clinical Trials

Publications