Abstract
Triiodothyronine (T3) causes a 30-fold increase in transcription of the malic enzyme gene in chick embryo hepatocytes; medium-chain fatty acids (MCFAs) inhibit this increase. T3 action is mediated by T3 receptors (TRs) that bind to T3 response elements (T3REs) in this gene's 5'-flanking DNA. In transiently transfected hepatocytes, fragments of 5'-flanking DNA of the malic enzyme gene or artificial T3REs that conferred T3 stimulation also conferred MCFA inhibition to linked reporter genes. Thus, MCFA inhibition may be mediated through cis-acting T3REs and trans-acting TRs, distinguishing MCFA action from that of other fatty acids which act through unique sequence elements. Using binding assays and overexpression of TR, we showed that MCFAs inhibited the transactivating but not the silencing function of TR and did not alter binding of T3 to TR or of TR to T3RE. The C-terminal ligand-binding domain of TR was sufficient to confer stimulation by T3, but not inhibition by MCFA. Inhibition of transactivation by MCFA was specific: ligand-stimulated transcription from T3 or estrogen response elements was inhibited, but that from glucocorticoid or cyclic AMP response elements was not. We propose that MCFAs or metabolites thereof influence the activity of a factor(s) that interacts with the T3 and estrogen receptors to inhibit ligand-stimulated transcription.
Highlights
Expression of the chicken malic enzyme gene can be mimicked quantitatively in chick embryo hepatocytes in culture [5]
We report here that inhibition of T3-stimulated transcription of the chicken malic enzyme gene caused by mediumchain fatty acids (MCFAs) is mediated by the receptor that binds to T3 response elements (T3REs)
The cis-acting elements in the 5Ј-flanking DNA of the chicken malic enzyme gene that confer inhibition by MCFAs co-localized with the T3REs in this DNA
Summary
T3, triiodothyronine; T3RE, T3 response element; T3RU, T3 response unit; TR, T3 receptor; TRIP, TR-interacting protein; MCFA, medium-chain fatty acid; PUFA, polyunsaturated longchain fatty acid; PPAR, peroxisomal proliferator-activated receptor; ER, estrogen receptor; ERE, estrogen response element; GR, glucocorticoid receptor; GRE, glucocorticoid response element; RXR, retinoid X receptor; CAT, chloramphenicol acetyltransferase; TK, thymidine kinase; CMV, cytomegalovirus; GAL, -galactosidase; RSV, Rous sarcoma virus; LUC, luciferase; ME, malic enzyme; CRE, cAMP response element; CREB, CRE-binding protein; DR4, direct repeat T3RE with a 4-bp spacer; bp, base pair(s); CPT-cAMP, 8-(4-chlorophenylthio)adenosine 3Ј:5Ј-monophosphate; DBD, DNA-binding domain; LBD, ligand-binding domain. Hexanoate Inhibits Action of T3 and Estrogen Receptors [18] These factors bind to peroxisomal proliferator response elements in the acyl-CoA oxidase gene. Long-chain fatty acids inhibit binding of T3 to nuclear TR in cells in culture [21, 22]. We report here that inhibition of T3-stimulated transcription of the chicken malic enzyme gene caused by MCFAs is mediated by the receptor that binds to T3REs. We report here that inhibition of T3-stimulated transcription of the chicken malic enzyme gene caused by MCFAs is mediated by the receptor that binds to T3REs This mechanism is distinct from that of fatty acids that act through unique sequence elements. MCFAs inhibit estrogen-stimulated transcription through an estrogen response element and the estrogen receptor (ER), but have no effect on ligand-stimulated transcription mediated by glucocorticoid or cAMP response elements
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