Cloning of the full length pig PIT1 (POU1F1) CDNA and a novel alternative PIT1 transcript, and functional studies of their encoded proteins

PIT1 is an essential regulatory gene of growth hormone (GH), prolactin (PRL ) and thyrotropin beta subunit (TSH beta). Previously, a partial pig PIT1 c DNA and a genomic clone of the entire 3' end of the PIT1 gene was isolated, and polymorphisms at PIT1 were associated with several performance traits in the pig. In order to understand the biological function of the pig PIT1 gene and its possible application in swine genetics, reverse transcriptase- polymerase chain reaction (RT-PCR) was used to complete the cloning of the full length cDNA for pig PIT1. The pig PIT1 cDNA and its deduced protein se quence have approximately 90% and 95% identity, respectively, with the PIT1 cDNA and protein of other mammals (human, bovine, sheep and rodents). Surp risingly, sequence comparison to other pig PIT1 sequences indicated only ap proximately 93% identity. Additional sequencing confirmed our sequence, and identified a new polymorphism in exon 4. Phylogenetic analysis of several mammalian PIT1 sequences indicates sequencing errors may account for the di screpancies observed in the other pig sequences reported. Several PIT1 alte rnative spliced forms were also identified by RT-PCR. They were the Delta 3 PIT1 (missing entire exon 3), Delta 4PIT1 (missing entire exon 4) and PIT1 beta (additional 26 amino acids inserted in front of exon 2) transcripts. T he Delta 4PIT1 and PIT1 beta transcripts have been found to encode function ally different proteins in rodents. The Delta 3PIT1 transcript is a novel i soform of PIT1. Potentially different functions between pig Delta 3PIT1 and Pin were analyzed by expressing these proteins in bacteria. The E. coli-ex pressed PIT1 and Delta 3PIT1 proteins were used with rat growth hormone (rG H) and rat prolactin (rPRL) promoter DNA in DNA mobility shift assays. The results showed that pig PIT1 can specifically bind rGH and rPRL promoter re gions, but that the pig Delta 3PIT1 cannot, even at very high protein conce ntrations. Possible protein-protein interactions between Delta 3PIT1 and PI T1 were tested by mixing protein extracts before the gel shift assay, acid the results showed that Delta 3PIT1 protein did not affect PIT1 binding to its target DNA. These data demonstrate the functionality of the PIT1 cDNA c loned in this study, and identify a novel Delta 3PIT1 transcript which enco des a protein that cannot bind rGH/rPRL target sequences.