Activation of cancer-specific gene expression by the survivin promoter.

BACKGROUND: Survivin, a member of the IAP (inhibitor of apoptosis) gene family, appears to be overexpressed in common cancers but not in corresponding normal adult tissues. To investigate whether the survivin promoter controls cancer cell-specific gene expression, we determined whether the survivin gene promoter could regulate reporter gene expression in cancer cell lines and xenografts. METHODS: Survivin protein levels were determined in human and murine cancer cell lines and in normal tissues of adult C57BL/6 mice by Western blot analysis. A reporter construct in which a portion of the survivin gene promoter was used to drive transcription of a human secreted alkaline phosphatase (SEAP) gene was transiently transfected into cancer cells, and promoter activity was extrapolated from SEAP activity. A2780 human ovarian cancer cells were transfected with this construct, and stable transfectants were injected into the intrabursal ovarian space of immunodeficient mice. Tumor growth was monitored, and plasma SEAP levels were used as a measure of survivin promoter activity in vivo. RESULTS: Survivin protein was detected in all cancer cell lines examined but not in most normal adult mouse tissues. After transfection, the survivin promoter was more active in all cancer cell lines than in normal ovarian surface epithelial cells or mouse 3T3 cells. After 0.8 x 10(6) stable transfectant cells were injected into the intrabursal cavity of mouse ovaries, plasma SEAP activity was detected within 24 hours, and the activity increased with time and tumor growth. CONCLUSION: Transfection experiments indicate that survivin protein expression in cancer tissue appears to be regulated, at least in part, transcriptionally. Thus, the survivin promoter may be useful in controlling gene expression in cancer cells.

Decreased expression of retinol-binding proteins is associated with malignant transformation of the ovarian surface epithelium.

We have developed a modified form of suppression subtractive hybridization (SSH) that allows multiple specimens of distinct phenotypic groups to be compared for consistent differences in gene expression. We applied this system to identify genes that were expressed in normal rat ovarian surface epithelial (ROSE) cells but whose expression was lost/downregulated in four independently transformed rat ovarian cancer cell lines. Northern blot analysis using 14 of 28 nonredundant cDNA fragments from this difference library showed that the mRNA transcripts were present in normal ROSE cells but lost or markedly downregulated in four related transformed cell lines. Of particular interest, cellular retinol-binding protein 1 (CRBP1) and retinol-binding protein (RBP), two genes whose products are involved in retinol transport and metabolism, were found to be downregulated in this ovarian cancer model system. To determine if this change had relevance to human ovarian cancer, we evaluated a series of human ovarian cancer cell lines and a limited number of frozen human ovarian tumors and found lost or decreased expression of CRBP1 and RBP relative to expression in human ovarian surface epithelial (HOSE) cells. We hypothesize that the loss of CRBP1 and RBP expression disrupts retinol metabolism and retinoic acid production, which may facilitate the occurrence of genetic damage leading to the malignant transformation of the ovarian surface epithelium, the cells from which ovarian cancer arises.