Mitogen-activated protein kinase signalling pathways such as the c-Jun NH2-terminal kinase (JNK) pathway play an important role in transducing environmental and growth factor signals into changes in cell proliferation and differentiation. Blockade of JNK stimulates conversion of mesenchymal stem cells to adipocytes(Reference Tominaga, Tomohiro, Takahashi, Hirose and Osumi1), but deletion of JNK1 leads to protection from high-fat-diet-induced obesity and insulin resistance(Reference Hirosumi, Tuncman, Chang, Gorgun, Uysal, Maeda, Karin and Hotamisligil2), suggesting that energy expenditure by brown adipose tissue may be increased. The transcriptional regulation of a gene (PGC-1α) involved in brown adipocyte differentiation has previously been investigated(Reference Karamanlidis, Karamitri, Docherty, Hazlerigg and Lomax3). Here the effect of an inhibitor of JNK, SP600125, on the expression of PGC-1α and the brown-fat-specific marker gene UCP1 is reported.
A mouse brown preadipocyte cell line (HIB-1B) was seeded into culture dishes and transfected at 70% confluence with a PGC-1α luciferase reporter construct (PGC1α-PGL3) containing 264 bp of the PGC-1α proximal promoter, and a CCAAT-enhancer-binding protein-β (C/EBPβ) overexpression vector as described previously(Reference Karamanlidis, Karamitri, Docherty, Hazlerigg and Lomax3). At confluence (48 h later) cells were incubated with SP600125 and forskolin for 12 h followed by measurement of luciferase activity. Another group of cells received similar treatments except that transfection with PGC1α-PGL3 was omitted and the cells were harvested for RNA after incubation with SP600125 and forskolin.
It has been reported )previously that overexpression of C/EBPβ significantly increases forskolin-stimulated expression of both the PGC-1α reporter construct and accumulation of PGC-1α mRNA(Reference Karamanlidis, Karamitri, Docherty, Hazlerigg and Lomax3). Addition of the JNK inhibitor SP600125 significantly increased both PGC-1α reporter activity (Figure) and mRNA expression in HIB-1B cells treated with both forskolin and forskolin+C/EBPβ overexpression. These effects were matched by an increase in mRNA for C/EBPβ and UCP1 with both forskolin and forskolin+SP600125.
These results are interpreted as demonstrating that JNK blockade increases the expression of key genes involved in the brown adipose tissue differentiation programme, which may be of relevance to the protection from obesity observed in JNK1 (-/-) mice. Previous results(Reference Karamanlidis, Karamitri, Docherty, Hazlerigg and Lomax3) combined with those from the present study suggest that JNK blockade promotes cAMP-dependent transcriptional activation of a number of genes involved in brown adipogenesis.