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.].
Proteins on this pathway have targeted assays available via the [https://assays.cancer.gov/available_assays?wp_id=WP3934 CPTAC Assay Portal]This pathway was inferred from Mus musculus pathway "Leptin and adiponectin", WP683 revision 71946, with a 100.0% conversion rate.e92Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:72674Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:105787Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:19079Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:16846Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:68465Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:107476Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:19082Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:16847Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:12894Homology Mapping from Mus musculus to Homo sapiens: Original ID = L:11450glucose metabolism diseaseDOID:4194Human Disease Ontologyleptin system pathwayPW:0000363Pathway Ontologyadiponectin signaling pathwayPW:0000563Pathway Ontology16497175PubMedThe role of adipokines as regulators of skeletal muscle fatty acid metabolism and insulin sensitivity.Acta Physiol (Oxf)2006Dyck DJHeigenhauser GJBruce CR