Selective down-regulation of human papillomavirus transcription by 2-deoxyglucose

Abstract

The glycolytic pathway inhibitor 2-deoxyglucose (2-DG) is capable of suppressing the transcription of the human pathogenic papillomavirus type 18 (HPV 18) in cervical carcinoma cells and derived non-tumorigenic somatic cell hybrids at the level of transcription initiation. HPV down-regulation is selective, since other reference genes are not affected or even up-regulated under the same experimental conditions. Moreover, 2-DG appears to restore the normal half-life of the tumor suppressor gene product p53, because the protein is strongly up-regulated after HPV 18 E6/E7 suppression. The observed 2-DG-effect is not cytotoxic and is reversible after refeeding with fresh medium. HPV 18 suppression by 2-DG can be completely abrogated by simultaneous treatment with the intracellular Ca2+ antagonist TMB-8, indicating that Ca2+, a known intracellular "second messenger", is involved in this process. Elevated c-myc and p53 expression appears to be responsible for the time-dependent accumulation of apoptotic cells after prolonged 2-DG treatment. The finding that 2-DG acts selectively against the expression of a human pathogenic papillomavirus strongly suggests that an appropriate level of glycolysis is not only a peculiarity of growing tumors, but even may be an essential prerequisite for the maintenance of virus-specific E6/E7 gene expression. Our results may have substantial implications for the potential therapeutic application of 2-DG or other glucose derivatives in the treatment of precancerous and malignant HPV-associated lesions.