Leptin and adiponectin (WP683)
Mus musculus
Proposed mechanism by which leptin and adiponectin stimulate fatty acid oxidation. Adapted from fig 1 in [http://www.ncbi.nlm.nih.gov/pubmed/16497175 Dyck et al.].
Authors
Thomas Kelder and Egon WillighagenActivity
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Cited In
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Organisms
Mus musculusCommunities
Annotations
Disease Ontology
glucose metabolism diseasePathway Ontology
leptin system pathway adiponectin signaling pathway| Label | Type | Compact URI | Comment |
|---|---|---|---|
| Fatty acid | Metabolite | chebi:35366 | |
| Acetyl-CoA | Metabolite | chebi:15351 | |
| Malonyl-CoA | Metabolite | chebi:15531 | |
| Adipor1 | GeneProduct | ncbigene:72674 | |
| Prkaa1 | GeneProduct | ncbigene:105787 | |
| Prkab1 | GeneProduct | ncbigene:19079 | |
| Leptin | GeneProduct | ncbigene:16846 | |
| Adipor2 | GeneProduct | ncbigene:68465 | |
| Acc1 | GeneProduct | ncbigene:107476 | |
| Prkag1 | GeneProduct | ncbigene:19082 | |
| Lepr | GeneProduct | ncbigene:16847 | |
| Cpt1 | GeneProduct | ncbigene:12894 | |
| Adiponectin | GeneProduct | ncbigene:11450 |
References
- The role of adipokines as regulators of skeletal muscle fatty acid metabolism and insulin sensitivity. Dyck DJ, Heigenhauser GJF, Bruce CR. Acta Physiol (Oxf). 2006 Jan;186(1):5–16. PubMed Europe PMC Scholia