Functional Interference between Thyroid Hormone Receptor α (TRα) and Natural Truncated TRΔα Isoforms in the Control of Intestine Development

Abstract

ABSTRACT Thyroid hormone is known to participate in the control of intestine maturation at weaning. Its action is mediated by the thyroid hormone nuclear receptors, encoded by the TRα and TRβ genes. Since previous studies have shown that TRβ plays a minor role in the gut, we focused here our analysis on the TRα gene. The TRα locus generates the TRα1 receptor together with the splicing variant TRα2 and the truncated products TRΔα1 and TRΔα2, which all lack an intact ligand binding domain. The TRΔα isoforms are transcribed from an internal promoter located in intron 7, and their distribution is restricted to a few tissues including those of the intestine. In order to define the functions of the different isoforms encoded by the TRα locus in the intestinal mucosa, we produced mice either lacking all known TRα products or harboring a mutation which inactivates the intronic promoter. We performed a detailed analysis of the intestinal phenotypes in these mice and compared it to that of the previously described TRα −/− mice, in which TRα isoforms are abolished but the TRΔα isoforms remain. This comparative analysis leads us to the following conclusions: (i) the TRα1 receptor mediates the T3-dependent functions in the intestine at weaning time and (ii) the TRΔα products negatively control the responsiveness of the epithelial cells to T3. Moreover, we show that TRΔα proteins can interfere with the transcription of the intestine-specific homeobox genes cdx1 and cdx2 and that their activity is regulated by TRα1. Altogether these data demonstrate that cooperation of TRα and TRΔα products is essential to ensure the normal postnatal development of the intestine and that mutations in the TRα locus can generate different phenotypes caused by the disruption of the equilibrium between these products.