| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 8358940 | Progress in Lipid Research | 2016 | 61 Pages |
Abstract
The nuclear receptor peroxisome proliferator-activated receptor γ (PPARγ) is the key decisive factor controlling the development of adipocytes. Ligand-mediated activation of PPARγ occurs early during adipogenesis and is thought to prime adipose conversion. Although several fatty acids and their derivatives are known to bind to and activate PPARγ, the identity of the ligand(s) responsible for initiating adipocyte differentiation is still a matter of debate. Here we review recent data on pathways involved in ligand production as well as possible endogenous, adipogenic PPARγ agonists.
Keywords
EPAPTMGGTIBMXCOXSREBP-1cCBRCPALBDCyPflavin adenine dinucleotideMEFXORFASADHFFAGPXNOSAF-2PPARγBATMUFAAF-1GPCPRBcPLA2LPAEpacNOX4RXRChREBPTZDKETEDPEPhydroxyeicosatrienoic acid PeroxynitriteHPGDThromboxane A synthasePGFSLTC4SHpODEeLOX3PTGDSELOVL3PGDHLNO215-hydroxyprostaglandin dehydrogenase15-deoxy-Δ12,14-Prostaglandin J2C/EBPDHETHODEMAPKNADPH oxidase 4Cytosolic PLA2ROSsEHUcp1AdipogenesiscyclooxygenasePPREArachidonic acidEicosapentaenoic aciddihydroxyeicosatrienoic acidcyclic phosphatidic acidlysophosphatidic acidLinoleic acidhydroperoxyeicosatetraenoic acidhydroperoxyoctadecadienoic acidFree fatty acidPolyunsaturated fatty acidsfatty acid synthasePolyunsaturated fatty acidmonounsaturated fatty acidPUFApost-translational modificationAlcohol dehydrogenasexanthine oxidoreductaseLOXisobutyl-methylxanthineWhite adipose tissuebrown adipose tissueFADthromboxaneThiazolidinedioneEETligand binding domainDipeptidaseLeukotriene C4 synthaseProstacyclin synthaseSuperoxidecytochrome P450 monooxygenaseCyclooxygenasesperoxisome proliferator response elementPhospholipaselipoxygenaselipoxygenasesmouse embryonic fibroblastmolybdenum cofactorNO2Nitric oxidenitric oxide synthaseHPETEHETEEpoxide hydrolaseSoluble epoxide hydrolaseCCAAT/enhancer binding proteinExchange protein directly activated by cAMPuncoupling protein 1retinoblastoma proteinmitogen-activated protein kinaseProstaglandin D2 synthaseprostaglandin E synthaseProstaglandin F synthaseprostaglandinWATCarbonyl reductaseGamma-glutamyltransferaseglutathione peroxidaseglycerophosphocholineReactive oxygen speciesretinoic X receptorperoxisome proliferator-activated receptor γNuclear receptor
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Authors
Philip Hallenborg, Rasmus K. Petersen, Irene Kouskoumvekaki, John W. Newman, Lise Madsen, Karsten Kristiansen,