Cloning and characterization of a novel gene PDRG that is differentially regulated by p53 and ultraviolet radiation

Abstract

We report the cloning and characterization of a novel p53 and DNA damage-regulated gene (PDRG). The human and mouse PDRG sequences are highly homologous and contain open reading frames of 133 amino acids each with molecular masses of 15.5 and 15.3 kDa, respectively. PDRG codes for a novel protein that does not show similarity to any known protein in the databases. Human PDRG is predominantly expressed in normal testis and exhibits reduced but detectable expression in other organs. GFP-tagged PDRG was predominantly detected as aggregates that appeared to reside in a distinct subcellular compartment. PDRG mRNA was upregulated by ultraviolet radiation (UV) but downregulated by tumor suppressor p53. UV is known to transcriptionally upregulate the expression of certain genes by activating the transcription factor Oct-1, while p53 has been reported to suppress transcription of certain genes by directly binding to a novel head-to-tail response element. Cloning and sequence analysis of PDRG promoter revealed the presence of Oct-1-binding element and a putative head-to-tail-type p53-binding site. Indeed, UV as well as exogenous Oct-1 independently increased PDRG promoter activity, suggesting that UV could mediate PDRG upregulation via Oct-1. Exogenous wild-type p53 was found to downregulate the PDRG promoter activity indicating that wild-type p53 transcriptionally suppresses the expression of PDRG and may mediate its effect via the putative head-to-tail response element. Furthermore, stable expression of exogenous PDRG was found to decrease the clonogenic survival after UV irradiation, which highlights the significance of PDRG in facilitating UV-induced killing.