Variant forms of upstream stimulatory factors (USFs) control the promoter activity of hTERT,the human gene encoding the catalytic subunit of telomerase

It is known that Myc regulates the expression of TERT, the telomerase catalytic subunit gene, by binding to E box. Here we show that another E box-binding protein, upstream stimulatory factor (USF), also regulates TERT expression. Specifically, the N-terminally truncated form of USF2 is present in telomerase-negative/resting human lymphocytes, but not in telomerase-positive/phytohemagglutinin-activated lymphocytes. In electrophoretic mobility shift assay, both full-length and truncated USF2s bound to the TERT E box. In a transient expression assay, the truncated USF had a dominant-negative effect on both exogenous full-length USF and endogenous positive regulators for activating TERT expression. These results suggest that the differential abundance of truncated USF2 may regulate telomerase activity during lymphocyte activation.     

HPV-18 E7 conjugates to c-Myc and mediates its transcriptional activity

Several reports in the literature have indicated that the E6 not only elevates the level of c-Myc level but that the protein also associates with the Myc complex and activates Myc-responsive genes. There would seem to be a mechanism by which this oncogene can modulate cell proliferation and differentiation. Furthermore, an increase in c-Myc levels has also observed during ectopic expression of HPV E7 alone. Using the yeast two-hybrid system, we further found that the c-Myc interacts and forms a specific complex with HPV-16E7. In this study, we have demonstrated that E7 does indeed interact with c-Myc and a sequential deletion analysis of E7 maps the c-Myc interaction site to the carboxyl-terminal region. We determined two HPV-18 E7 binding sites on c-Myc involving the amino acids regions 1-100 and 367-439. The interaction of the high-risk type HPV E7 with c-Myc can augment c-Myc transactivation activity but this does not occur with low-risk type HPV E7. Deletion within the Cys-X-X-Cys repeat motif at the C-terminus of HPV-18 E7 leads to a lost of association with c-Myc and also abolishes the enhancement of c-Myc's transactivation activity. Furthermore, the interaction of HPV-18 E7 with c-Myc functionally promotes c-Myc's DNA-binding ability. Using the hTERT promoter as a model, enhanced c-Myc binding ability to the hTERT promoter as measured by immunoprecipitation assay was observed and occurred in an E7 dose-dependent manner. Taken together, these results provide significant new insights into the association of c-Myc with E7 and the possible involvement of high-risk E7 in oncogenesis.