PGC-1alpha regulates the isoform mRNA ratio of the alternatively spliced thyroid hormone receptor alpha transcript.

Transcripts derived from the thyroid hormone receptor alpha (TRalpha) gene are alternatively spliced resulting in a functional receptor TRalpha1 and a non-T3-binding variant TRalpha2 that can exert a dominant negative effect on the transactivation functions of other TRs. There is evidence that the ratio of TRalpha isoform transcripts can be modulated and here, we investigate whether the PPARgamma co-activator alpha (PGC-1alpha) has an effect on this splicing process. PGC-1alpha was discovered not only as a transcriptional co-activator, but also has certain motifs characteristic of splicing factors. We demonstrate that PGC-1alpha alters the ratio of endogenously expressed TRalpha isoform transcripts in HepG2 cells, by decreasing TRalpha1 mRNA levels twofold. This change in isoform ratio is accompanied by a decrease in 5'-deiodinase expression, whereas no differences were found in TRbeta1 expression. Deletion of the RNA-processing domain of PGC-1alpha abrogated the effect on the TRalpha splicing, whereas expression of only the RNA-processing domain favored TRalpha1 expression. PGC-1alpha showed a similar effect on the splicing of a TRalpha minigene containing only the last four exons and introns of the TRalpha gene. These data suggest that PGC-1alpha is involved in the RNA processing of TRalpha transcripts.

A genetic analysis of glucocorticoid receptor signaling. Identification and characterization of ligand-effect modulators in Saccharomyces cerevisiae.

To find novel components in the glucocorticoid signal transduction pathway, we performed a yeast genetic screen to identify ligand-effect modulators (LEMs), proteins that modulate the cellular response to hormone. We isolated several mutants that conferred increased glucocorticoid receptor (GR) activity in response to dexamethasone and analyzed two of them in detail. These studies identify two genes, LEM3 and LEM4, which correspond to YNL323w and ERG6, respectively. LEM3 is a putative transmembrane protein of unknown function, and ERG6 is a methyltransferase in the ergosterol biosynthetic pathway. Analysis of null mutants indicates that LEM3 and ERG6 act at different steps in the GR signal transduction pathway.