Ceramide Content Is Increased in Skeletal Muscle From Obese Insulin-Resistant Humans
The University of Texas at San Antonio Health Science Center · Georgia Institute of Technology
Abstract
Increased intramyocellular lipid concentrations are thought to play a role in insulin resistance, but the precise nature of the lipid species that produce insulin resistance in human muscle are unknown. Ceramides, either generated via activation of sphingomyelinase or produced by de novo synthesis, induce insulin resistance in cultured cells by inhibitory effects on insulin signaling. The present study was undertaken to determine whether ceramides or other sphingolipids are increased in muscle from obese insulin-resistant subjects and to assess whether ceramide plays a role in the insulin resistance of Akt in human muscle. Lean insulin-sensitive and obese insulin-resistant subjects (n = 10 each) received…
Citation impact
- FWCI
- 10.00
- Percentile
- 100%
- References
- 41
Authors
7- JMJohn M. AdamsCorresponding
The University of Texas at San Antonio Health Science Center
- TPThongchai Pratipanawatr
The University of Texas at San Antonio Health Science Center
- RBRachele Berria
The University of Texas at San Antonio Health Science Center
- EWElaine Wang
Georgia Institute of Technology
- RARalph A. DeFronzo
The University of Texas at San Antonio Health Science Center
Topics & keywords
- Internal medicine
- Endocrinology
- Insulin resistance
- Ceramide
- Insulin
- Skeletal muscle
- Sphingolipid
- Basal (medicine)