Regulation of PPARγ function by TNF-α
J Ye - Biochemical and biophysical research communications, 2008 - Elsevier
J Ye
Biochemical and biophysical research communications, 2008•ElsevierThe nuclear receptor PPARγ is a lipid sensor that regulates lipid metabolism through gene
transcription. Inhibition of PPARγ activity by TNF-α is involved in pathogenesis of insulin
resistance, atherosclerosis, inflammation, and cancer cachexia. PPARγ activity is regulated
by TNF-α at pre-translational and post-translational levels. Activation of serine kinases
including IKK, ERK, JNK, and p38 may be involved in the TNF-regulation of PPARγ. Of the
four kinases, IKK is a dominant signaling molecule in the TNF-regulation of PPARγ. IKK acts …
transcription. Inhibition of PPARγ activity by TNF-α is involved in pathogenesis of insulin
resistance, atherosclerosis, inflammation, and cancer cachexia. PPARγ activity is regulated
by TNF-α at pre-translational and post-translational levels. Activation of serine kinases
including IKK, ERK, JNK, and p38 may be involved in the TNF-regulation of PPARγ. Of the
four kinases, IKK is a dominant signaling molecule in the TNF-regulation of PPARγ. IKK acts …
The nuclear receptor PPARγ is a lipid sensor that regulates lipid metabolism through gene transcription. Inhibition of PPARγ activity by TNF-α is involved in pathogenesis of insulin resistance, atherosclerosis, inflammation, and cancer cachexia. PPARγ activity is regulated by TNF-α at pre-translational and post-translational levels. Activation of serine kinases including IKK, ERK, JNK, and p38 may be involved in the TNF-regulation of PPARγ. Of the four kinases, IKK is a dominant signaling molecule in the TNF-regulation of PPARγ. IKK acts through at least two mechanisms: inhibition of PPARγ expression and activation of PPARγ corepressor. In this review article, literature is reviewed with a focus on the mechanisms of PPARγ inhibition by TNF-α.
Elsevier