Peroxisome proliferator-activated receptor alpha inhibits hepatic S14 gene transcription. Evidence against the peroxisome proliferator-activated receptor alpha as the mediator of polyunsaturated fatty acid regulation of s14 gene transcription.

The peroxisome proliferator-activated receptor (PPARalpha) has been implicated in fatty acid regulation of gene transcription. Lipogenic gene transcription is inhibited by polyunsaturated fatty acids (PUFA). We have used the PUFA-sensitive rat liver S14 gene as a model to examine the role PPARalpha plays in fatty acid regulation of hepatic lipogenic gene transcription. Both PPARalpha and the potent peroxisome proliferator, WY14643, inhibit S14CAT activity in transfected primary hepatocytes. WY14643 and PPARalpha target the S14 T3 regulatory region (TRR, -2.8 to -2.5 kilobases), a region containing 3 T3 response elements (TRE). Transfer of the TRR to the thymidine kinase (TK) promoter conferred negative control to the TKCAT gene following WY14643 and PPARalpha treatment. Gel shift analysis showed that PPARalpha, either alone or with RXRalpha, did not bind the S14TRR. However, PPARalpha interfered with TRbeta/RXRalpha binding to a TRE (DR+4). Functional studies showed that co-transfected RXRalpha, but not T3 receptor beta1 (TRbeta1), abrogated the inhibitory effect of PPARalpha on S14 gene transcription. These results suggest that WY14643 and PPARalpha functionally interfere with T3 regulation of S14 gene transcription by inhibiting TRbeta1/RXR binding to S14 TREs. Previous studies had established that the cis-regulatory targets of PUFA control were located within the proximal promoter region of the S14 gene, i.e. between -220 and -80 bp. Finding that the cis-regulatory elements for WY14643/PPARalpha and PUFA are functionally and spatially distinct argues against PPARalpha as the mediator of PUFA suppression of S14 gene transcription.