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Induction of UCP1 and thermogenesis by a small molecule via AKAP1/PKA modulation
- Source :
- J Biol Chem
- Publication Year :
- 2020
-
Abstract
- Strategies to increase energy expenditure are an attractive approach to reduce excess fat storage and body weight to improve metabolic health. In mammals, uncoupling protein-1 (UCP1) in brown and beige adipocytes uncouples fatty acid oxidation from ATP generation in mitochondria and promotes energy dissipation as heat. We set out to identify small molecules that enhance UCP1 levels and activity using a high-throughput screen of nearly 12,000 compounds in mouse brown adipocytes. We identified a family of compounds that increase Ucp1 expression and mitochondrial activity (including un-coupled respiration) in mouse brown adipocytes and human brown and white adipocytes. The mechanism of action may be through compound binding to A kinase anchoring protein (AKAP) 1, modulating its localization to mitochondria and its interaction with protein kinase A (PKA), a known node in the β-adrenergic signaling pathway. In mice, the hit compound increased body temperature, UCP1 protein levels, and thermogenic gene expression. Some of the compound effects on mitochondrial function were UCP1- or AKAP1-independent, suggesting compound effects on multiple nodes of energy regulation. Overall, our results highlight a role for AKAP1 in thermogenesis, uncoupled respiration, and regulation energy balance.
- Subjects :
- 0301 basic medicine
Adipocytes, White
A Kinase Anchor Proteins
Mitochondrion
Bioenergetics
Biochemistry
Small Molecule Libraries
03 medical and health sciences
chemistry.chemical_compound
Mice
Adipocyte
Uncoupling protein
Animals
Humans
Protein kinase A
Molecular Biology
Beta oxidation
Cells, Cultured
Uncoupling Protein 1
030102 biochemistry & molecular biology
Gene Expression Profiling
Reproducibility of Results
Thermogenesis
Cell Biology
Cyclic AMP-Dependent Protein Kinases
Thermogenin
Cell biology
High-Throughput Screening Assays
Mitochondria
Enzyme Activation
030104 developmental biology
Adipocytes, Brown
chemistry
Signal transduction
Energy Metabolism
Signal Transduction
Subjects
Details
- ISSN :
- 1083351X
- Volume :
- 295
- Issue :
- 44
- Database :
- OpenAIRE
- Journal :
- The Journal of biological chemistry
- Accession number :
- edsair.doi.dedup.....419a2cf1c72c3e3da09b5f84bfe2fb61