Double gene deletion reveals the lack of cooperation between PPARalpha and PPARbeta in skeletal muscle |
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| Authors: | Bedu E Desplanches D Pequignot J Bordier B Desvergne B |
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| Affiliation: | Center of Integrative Genomics, University of Lausanne, CH-1015 Lausanne, Switzerland. |
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| Abstract: | The peroxisome proliferator-activated receptors (PPARs) are involved in the regulation of most of the pathways linked to lipid metabolism. PPARalpha and PPARbeta isotypes are known to regulate muscle fatty acid oxidation and a reciprocal compensation of their function has been proposed. Herein, we investigated muscle contractile and metabolic phenotypes in PPARalpha-/-, PPARbeta-/-, and double PPARalpha-/- beta-/- mice. Heart and soleus muscle analyses show that the deletion of PPARalpha induces a decrease of the HAD activity (beta-oxidation) while soleus contractile phenotype remains unchanged. A PPARbeta deletion alone has no effect. However, these mild phenotypes are not due to a reciprocal compensation of PPARbeta and PPARalpha functions since double gene deletion PPARalpha-PPARbeta mostly reproduces the null PPARalpha-mediated reduced beta-oxidation, in addition to a shift from fast to slow fibers. In conclusion, PPARbeta is not required for maintaining skeletal muscle metabolic activity and does not compensate the lack of PPARalpha in PPARalpha null mice. |
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| Keywords: | Lipid metabolism Skeletal muscle Heart PPARα PPARβ Null mice Fiber-type Enzyme activity |
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