Institute of Life Science, Kurume University, 2432-3 Aikawa-machi, Kurume, Fukuoka, 839 Japan

^aAuthor for correspondence

Proto-oncogene c-myc is implicated in proliferation of mammalian cells. Although c-Myc protein has been demonstrated to function as a transcription factor recognizing an E-box (CACGTG) element, few c-myc-regulated genes have been identified and the specific role of c-myc is still unclear. RCC1 is necessary for mammalian cells to proliferate. Four CACGTG elements exist within 1.3 kb downstream of the major transcription start site for the human RCC1 gene in HeLa cells. Stimulation of HeLa cells with serum increased c-myc expression and RCC1 expression. Therefore the relationship between the expression of RCC1 and c-myc was investigated. Rat 3Y1 cells overexpressing c-myc contained about twice as much RCC1 mRNA as control cells. When a chimeric protein comprised of c-myc and the estrogen binding domain of estrogen receptor was activated by addition of 4-hydroxytamoxifen (OHT), expression of RCC1 mRNA increased twofold. To examine whether c-Myc functions through the CACGTG elements, a DNA fragment of RCC1 intron 4, exon 5 and part of intron 5 was joined to firefly luciferase cDNA to construct a reporter plasmid. In transient expression experiments using HeLa cells, co-transfection with c-myc stimulated the luciferase activity up to 2.5-fold in a dose-dependent manner. When the CACGTG elements in the reporter plasmid were destroyed, stimulation by c-myc was not observed. The four CACGTG elements did not contribute equally to the stimulation by c-myc. Gel retardation experiments suggest that c-Myc with Max binds to the CACGTG elements in the context of the RCC1 gene sequence in vitro. These results indicate that c-Myc can regulate expression of RCC1 through the E-box elements.

c-myc; RCC1; E box element; gene expression