Abstract
BackgroundAlternative processing of α-thyroid hormone receptor (TRα, NR1A1) mRNAs gives rise to two functionally antagonistic nuclear receptors: TRα1, the α-type receptor, and TRα2, a non-hormone binding variant that is found only in mammals. TRα2 shares an unusual antisense coding overlap with mRNA for Rev-erbα (NR1D1), another nuclear receptor protein. In this study we examine the structure and expression of these genes in the gray short-tailed opossum, Monodelphis domestica, in comparison with that of eutherian mammals and three other marsupial species, Didelphis virginiana, Potorous tridactylus and Macropus eugenii, in order to understand the evolution and regulatory role of this antisense overlap.ResultsThe sequence, expression and genomic organization of mRNAs encoding TRα1 and Rev-erbα are very similar in the opossum and eutherian mammals. However, the sequence corresponding to the TRα2 coding region appears truncated by almost 100 amino acids. While expression of TRα1 and Rev-erbα was readily detected in all tissues of M. domestica ages 0 days to 18 weeks, TRα2 mRNA was not detected in any tissue or stage examined. These results contrast with the widespread and abundant expression of TRα2 in rodents and other eutherian mammals. To examine requirements for alternative splicing of TRα mRNAs, a series of chimeric minigenes was constructed. Results show that the opossum TRα2-specific 5' splice site sequence is fully competent for splicing but the sequence homologous to the TRα2 3' splice site is not, even though the marsupial sequences are remarkably similar to core splice site elements in rat.ConclusionsOur results strongly suggest that the variant nuclear receptor isoform, TRα2, is not expressed in marsupials and that the antisense overlap between TRα and Rev-erbα thus is unique to eutherian mammals. Further investigation of the TRα and Rev-erbα genes in marsupial and eutherian species promises to yield additional insight into the physiological function of TRα2 and the role of the associated antisense overlap with Rev-erbα in regulating expression of these genes.
Highlights
Alternative processing of a-thyroid hormone receptor (TRa, NR1A1) mRNAs gives rise to two functionally antagonistic nuclear receptors: TRa1, the a-type receptor, and TRa2, a non-hormone binding variant that is found only in mammals
Closer inspection of the sequence for M. domestica TRa, reveals that the first coding exon of TRa1 mRNA is entirely missing in the genome assembly due to a 5 kb gap [36]
To further explore the significance of this sequence comparison, we examined 1.5 kb of genomic sequence that span the 3’ end of TRa1 and extend across exon 8 and part of exon 7 of Rev-erba in three other marsupial species: Didelphis virginiana, P. tridactylus, and Macropus eugenii
Summary
Alternative processing of a-thyroid hormone receptor (TRa, NR1A1) mRNAs gives rise to two functionally antagonistic nuclear receptors: TRa1, the a-type receptor, and TRa2, a non-hormone binding variant that is found only in mammals. One of the first examples of an antisense overlap between two mRNAs involves two nuclear receptor genes, the a-type thyroid hormone receptor gene (TRa; NR1A1 or THRA) and the Rev-erba gene (NR1D1) [15,16,17]. These genes share an antisense overlap that reflects the presence of a novel alternatively spliced mRNA that is highly conserved in most mammals but is absent in non-mammalian vertebrates [18]. Both Rev-erba and TRa2 are constitutive repressors, they bind distinct sets of target genes
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