Obesity Clinical Trial
Official title:
MOLECULAR REGULATION OF MUSCLE GLUCOSE METABOLISM (AIMS 2A, 2B, 3)
The molecular nature of insulin resistance in human muscle is still incompletely defined. Our data indicate that acetylation of mitochondrial proteins in humans is regulated by muscle contraction and is dysregulated in insulin resistance. Poor function of mitochondria in skeletal muscle is a hallmark of insulin resistance in skeletal muscle. We propose to use a combination of clinical research and mass spectrometry techniques to determine how the cytosolic and mitochondrial protein acetylation is regulated by muscle contraction in insulin sensitive and resistant human volunteers. We will test the hypothesis that mitochondrial protein acetylation is decreased to a greater degree following a bout of exercise in insulin sensitive than in insulin resistant human muscle. Using these techniques we also propose to determine how acetylation of mitochondrial adenine nucleotide translocase (ANT1) at lysines 10, 23, and 92 regulates ANT1 structure and function. Finally, we propose 4) to use a combination of molecular modeling and in vitro assays together with the approach developed in Aim 3 to characterize the role of acetylation in other mitochondrial proteins. Protein targets for this aim will be prioritized based on the potential role of the protein in insulin resistance or mitochondrial function as well as dysregulation of its acetylation state in insulin resistant muscle.
The purpose of this project has been to define the molecular basis for insulin resistance in
human muscle. The preceding two cycles of this project were devoted to using proteomics
approaches to map and quantify serine/threonine (S/T) phosphorylation sites on insulin
receptor substrate (IRS)-1 in skeletal muscle from healthy and insulin resistant humans.
Recent proteomics experiments reveal that another protein modification, lysine acetylation,
is more common in non-histone proteins than has been recognized. There are no data, to our
knowledge, regarding a relationship between insulin resistance in vivo in human muscle and
protein acetylation. We have used proteomics techniques to discover a number of lysine
acetylation sites in skeletal muscle proteins in vivo in humans, and this is prominent in
mitochondrial proteins. Preliminary data show that mitochondrial protein acetylation is
regulated by muscle contraction, and that this response is reduced in insulin resistance.
Finally, the mitochondrial inner membrane protein adenine nucleotide translocase (ANT)1 was
abundantly acetylated under resting conditions, and its deacetylation in response to
contraction was reduced in insulin resistance. Because ANT1 exerts significant physiological
control strength for ADP/ATP exchange, and because mitochondrial function is altered in
insulin resistance, it is important to characterize this abnormality. Therefore, in order to
determine how abnormalities in regulation of lysine acetylation characterize insulin
resistant muscle, we propose:
2. To determine how the cytosolic and mitochondrial protein acetylomes are regulated by
muscle contraction in insulin sensitive and resistant human volunteers. We will test the
hypotheses that:
a. There is differential acetylation of cytosolic or mitochondrial proteins in insulin
resistance.
b. Mitochondrial protein acetylation is decreased to a greater degree following a bout of
exercise in insulin sensitive than in insulin resistant human muscle.
3. To determine how acetylation of the mitochondrial inner membrane adenine nucleotide
translocase ANT1 regulates protein structure and function. We will use mitochondria isolated
from human muscle biopsies and molecular dynamics and elastic network modeling to test the
hypotheses that:
1. Deacetylation of lysines 10, 23, and 92 increases ANT1 activity.
2. Oxidation of the mitochondrial matrix (increasing the NAD/NADH ratio) raises
deacetylation activity and decreases acetylation of ANT1.
3. ANT1 molecular dynamics are altered by acetylation of lysines 10, 23, and 92.
These aims that involve clinical research will be complemented by two aims (Aims 1 and 4)
performed entirely in vitro, not using human specimens or data. For context, these aims are
listed on page 1 of the accompanying Research Proposal. We have retained the numbering scheme
from the original proposal to avoid confusion. Please note that only Aims 2 and 3 involve
clinical research.
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