Sp1-Mediated Transcription of the Werner Helicase Gene Is Modulated by Rb and p53

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Molecular and Cellular Biology, November 1998, p. 6191-6200, Vol. 18, No. 11
0270-7306/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.

Sp1-Mediated Transcription of the Werner Helicase Gene Is Modulated by Rb and p53

Yukako Yamabe,¹ Akira Shimamoto,¹ Makoto Goto,² Jun Yokota,³ Minoru Sugawara,¹ and Yasuhiro Furuichi¹^,^*

AGENE Research Institute, Kamakura, Kanagawa 247,¹ Tokyo Metropolitan Otsuka Hospital, Minami Otsuka, Toshima-ku, Tokyo 170,² and National Cancer Center, Chuo-ku, Tokyo 104,³ Japan

Received 3 April 1998/Returned for modification 23 June 1998/Accepted 12 August 1998

The regulation of Werner's syndrome gene (WRN) expression was studied by characterizing the cis-regulatory elements in thepromoter region and the trans-activating factors that bind tothem. First, we defined the transcription initiation sites andthe sequence of the 5' upstream region (2.8 kb) of WRN that containsa number of cis-regulatory elements, including 7 Sp1, 9 retinoblastomacontrol element (RCE), and 14 AP2 motifs. A region consistingof nucleotides $-$ 67 to +160 was identified as the principal promoterof WRN by reporter gene assays in HeLa cells, using a series ofWRN promoter-luciferase reporter (WRN-Luc) plasmids that containedthe 5'-truncated or mutated WRN upstream regions. In particular,two Sp1 elements proximal to the transcription initiation siteare indispensable for WRN promoter activity and bind specificallyto Sp1 proteins. The RCE enhances WRN promoter activity. Coexpressionof the WRN-Luc plasmids with various dosages of plasmids expressingRb or p53 in Saos2 cells lacking active Rb and p53 proteins showedthat the introduced Rb upregulates WRN promoter activity a maximumof 2.5-fold, while p53 downregulates it a maximum of 7-fold, bothdose dependently. Consistently, the overexpressed Rb and p53 proteinsalso affected the endogenous WRN mRNA levels in Saos2 cells, resultingin an increase with Rb and a decrease with p53. These findingssuggest that WRN expression, like that of other housekeeping genes,is directed mainly by the Sp1 transcriptional control system butis also further modulated by transcription factors, includingRb and p53, that are implicated in the cell cycle, cell senescence,and genomic instability.

^* Corresponding author. Mailing address: AGENE Research Institute, 200 Kajiwara, Kamakura, Kanagawa 247, Japan. Phone: 81-467-46-9590.Fax: 81-467-48-6595. E-mail: furuichi{at}agene.co.jp.

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