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| The pan-pituitary activator of transcription, Ptx1 (pituitary homeobox 1), acts in synergy with SF-1 and Pit1 and is an upstream regulator of the lim-homeodomain gene Lim3/Lhx3 |
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| Author(s): Tremblay JJ, Lanctot C, Drouin J |
| Source: MOLECULAR ENDOCRINOLOGY Volume: 12 Issue: 3 Pages: 428-441 Published: MAR 1998 |
| Times Cited: 170 References: 66 |
| Abstract: The Ptx1 (pituitary homeobox 1) homeobox transcription factor was isolated as a transcription factor of the pituitary POMC gene. In corticotrope cells that express POMC, cell-specific transcription is conferred in part by the synergistic action of Ptx1 with the basic helix-loop-helix factor NeuroD1. Since Ptx1 expression precedes pituitary development and differentiation, we investigated its expression and function in other pituitary lineages. Ptx1 is expressed in most pituitary-derived cell lines and as is the related Ptx2 (Rieger) gene. However, Ptx1 appears to be the only Ptx protein in corticotropes and the predominant one in gonadotrope cells. Most pituitary hormone-coding gene promoters are activated by Ptx1. Thus, Ptx1 appears to be a general regulator of pituitary-specific transcription. In addition, Ptx1 action is synergized by cell-restricted transcription factors to confer promoter-specific expression. Indeed, in the somato-lactotrope lineage, synergism between Ptx1 and Pit1 is observed on the PRL promoter, and strong synergism between Ptx1 and SF-1 is observed in gonadotrope cells on the beta LH promoter but not on the alpha GSU (glycoprotein hormone alpha-subunit gene) and beta FSH promoters. Synergism between these two classes of factors is reminiscent of the interaction between the products of the Drosophila genes Ftz (fushi tarazu) and Ftz-F1. Antisense RNA experiments performed in alpha T3-1 cells that express the alpha GSU gene showed that expression of endogenous alpha GSU is highly dependent on Ptx1 whereas many other genes are not affected. Interestingly, the only other gene found to be highly dependent on Ptx1 for expression was the gene for the Lim3/Lhx3 transcription factor. Thus, these experiments place Ptx1 upstream of Lim3/Lhx3 in a cascade of regulators that appear to work in a combinatorial code to direct pituitary-, lineage-, and promoter-specific transcription. |
| Document Type: Article |
| Language: English |
| Reprint Address: Drouin, J (reprint author), Inst Rech Clin Montreal, Genet Mol Lab, Quebec City, PQ H2W 1R7 Canada |
Addresses:
1. Inst Rech Clin Montreal, Genet Mol Lab, Quebec City, PQ H2W 1R7 Canada |
| Publisher: ENDOCRINE SOC, 4350 EAST WEST HIGHWAY SUITE 500, BETHESDA, MD 20814-4110 USA |
| Subject Category: Endocrinology & Metabolism |
| IDS Number: YZ443 |
| ISSN: 0888-8809 |
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