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Am. J. Physiol. Heart Circ. Physiol. · Mar 2007
Inhibition of PPAR-alpha activity in mice with cardiac-restricted expression of tumor necrosis factor: potential role of TGF-beta/Smad3.
- Kenichi Sekiguchi, Qi Tian, Masakuni Ishiyama, Jana Burchfield, Feng Gao, Douglas L Mann, and Philip M Barger.
- Winters Center for Heart Failure Research, Baylor College of Medicine, Houston, TX 77030, USA.
- Am. J. Physiol. Heart Circ. Physiol. 2007 Mar 1; 292 (3): H1443-51.
AbstractA shift in energy substrate utilization from fatty acids to glucose has been reported in failing hearts, resulting in improved oxygen efficiency yet perhaps also contributing to a state of energy deficiency. Peroxisome proliferator-activated receptor (PPAR)-alpha, the principal transcriptional regulator of cardiac fatty acid beta-oxidation (FAO) genes, is downregulated in heart failure, and this may contribute to reduced fatty acid utilization. Cardiomyopathic states are also accompanied by elevated levels of circulating cytokines, such as tumor necrosis factor (TNF), as well as increased local production of cytokines and profibrotic factors, such as transforming growth factor (TGF)-beta. However, whether these molecular pathways directly modulate cardiac energy metabolism and PPAR-alpha activity is not known. Therefore, FAO capacity and FAO gene expression were determined in mice with cardiac-restricted overexpression of TNF (MHCsTNF(3)). MHCsTNF(3) hearts had significantly lower FAO capacity and decreased expression of PPAR-alpha and FAO target genes compared with control hearts. Surprisingly, TNF had little effect on PPAR-alpha activity and FAO rates in cultured ventricular myocytes, suggesting that TNF acts indirectly on myocyte FAO in vivo. We found that TGF-beta expression was upregulated in MHCsTNF(3) hearts and that treatment of cultured myocytes with TGF-beta significantly suppressed FAO rates and directly impaired PPAR-alpha activity, a result reproduced by Smad3 overexpression. This work demonstrates that TGF-beta signaling pathways directly suppress PPAR-alpha activity and reduce FAO in cardiac myocytes, perhaps in response to locally elevated TNF. Although speculative, TGF-beta-driven repair mechanisms may also include the additional benefit of limiting FAO in injured myocardium.
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