Uta Schmidt

Expression of the extracellular matrix signaling molecule Cyr61 is downregulated in prostate cancer

Prostate cancer (CaP) is one of the most common neoplasms in the USA and Europe. We used differential display PCR (DD‐PCR) to identify genes related to the development of prostate cancer.

Microarray analyses in bladder cancer cells: Inhibition of hTERT expression down‐regulates EGFR

The human telomerase reverse transcriptase (hTERT) contributes to the immortal phenotype of the majority of cancers. Targeting hTERT by transfection with antisense oligonucleotides (AS‐ODNs) induced immediate growth inhibition in human bladder cancer (BCa) cells. The molecular basis of the antiproliferative capacity of hTERT AS‐ODNs was investigated by oligonucleotide microarray analyses and was compared to effects caused by siRNA‐mediated knock‐down of hTERT in EJ28 BCa cells. Two different AS‐ODNs—both down‐regulated the expression of hTERT—changed the expression of different genes mainly involved in stress response (including EGR1, ATF3 and GDF15), but without an association to telomerase function. This indicates that the immediate growth inhibition was caused, at least in part, by off‐target effects. In comparison to that the blockade of the expression of hTERT using 2 different siRNAs was accompanied by the down‐regulation of the oncogenes FOS‐like antigen 1 (FOSL1) and epidermal growth factor receptor (EGFR), known to be overexpressed in BCa. We show here for the first time that repression of the hTERT transcript number decreased the expression of EGFR both at the mRNA and protein levels, suggesting a potential new function of hTERT in the regulation of EGFR‐stimulated proliferation. Furthermore, the suppression of hTERT by siRNAs caused an enhancement of the antiproliferative capacity of the chemotherapeutics mitomycin C and cisplatin. The results presented herein may support the hypothesis that hTERT promotes the growth of tumor cells by mechanisms independent from telomere lengthening. The detailed clarification of these processes will shed light on the question, whether telomerase inhibitors might constitute suitable anticancer tools.

Comparison of the Clinical Value of Complexed PSA and Total PSA in the Discrimination between Benign Prostatic Hyperplasia and Prostate Cancer

Background: To compare the clinical value of the measurement of complex and total PSA in the discrimination between benign prostatic hyperplasia (BPH) and prostate cancer. Methods: In serum samples collected from 166 men with histopathologically proven clinically localized prostate cancer and of 97 men with BPH, total prostate-specific antigen (PSA), complexed PSA and the free to total PSA ratio were determined. The statistical analysis was done by the comparison of the receiver operator characteristic (ROC) curves. Results: The areas under the ROC curves were 0.776 for total PSA, 0.799 for complexed PSA (total PSA vs. cPSA: p < 0.0001) and 0.812 for the free to total PSA ratio. With a cut-off of 3.0 ng/ml for complexed PSA, the sensitivity was 90%, the specificity 58%, the positive and the negative predictive values 79 and 78%, respectively. With a cut-off of 4.0 ng/ml for total PSA, the sensitivity was 87%, the specificity 59%, the positive and the negative predictive values were 78 and 72%, respectively. Conclusions: There was a statistically significant advantage for complexed PSA compared to total PSA in the discrimination between BPH and prostate cancer. The difference was, however, small and its clinical relevance is questionable.

QUANTITATIVE MULTIGENE EXPRESSION PROFILING OF PRIMARY PROSTATE CANCER

BACKGROUND This study describes the evaluation of the expression patterns of prostate-related transcripts in 106 matched prostate tissues from prostatectomies as predictors for prostate cancer (PCa). METHODS Quantitative PCR (QPCR) assays with site-specific hybridization probes were established for four housekeeping genes (GAPDH, HPRT, PBGD, TBP) and nine prostate-related genes (AibZIP, D-GPCR, EZH2, PCA3, PDEF, prostein, PSA, PSCA, TRPM8). RESULTS The relative mRNA expression levels of AibZIP, D-GPCR, EZH2, PCA3, PDEF, PSA, TRPM8 (all P < 0.001) and prostein (P = 0.019) normalized to the TBP reference gene were significantly higher in malignant compared to non-malignant prostate tissues. Employing receiver-operating characteristic (ROC) analyses, PCA3 was the best single tumor marker with the highest area-under-the-curve (AUC = 0.85). A multivariate logit model for the predictability of the tumor was developed, which employed the relative expression levels of EZH2, PCA3, prostein, and TRPM8 and yielded an AUC of 0.90. CONCLUSIONS The transcript marker PCA3 is a powerful predictor of primary PCa but the inclusion of EZH2, prostein, and TRPM8 adds even more to the diagnostic power. The finding of a significantly higher mRNA expression of three different genes (prostein, PSA, TRPM8) in organ-confined tumors compared to non-organ-confined tumors as well as the multi-marker PCa prediction model developed in the retrospective model system on prostatectomies could be of clinical importance for diagnostic purposes, and should be verified in diagnostic biopsies.

LOH analyses in the region of the putative tumor suppressor gene C13 on chromosome 13Q13

BACKGROUND In previous studies we isolated a new cDNA fragment named C13 which is down-regulated in malignant prostate tissues. The corresponding gene is localized on chromosome 13q13 between the known tumour suppressor genes (TSG) BRCA-2 and RB-1. MATERIALS AND METHODS Loss of heterozygosity (LOH) analyses were carried out in the region of C13 in order to investigate the importance of the new putative TSG for prostate cancer development. Using semiquantitative LOH analysis, we screened 21 prostate carcinoma patients of different tumour stages (pT2-pT4) for 14 microsatellite markers in the region of C13 (13q13) and in the flanking BRCA-2 and the RB-1 loci. RESULTS For 18 (86%) patients LOH or allelic imbalances were found. We identified three to nine alterations in affected tumours per marker. An overall genetic alteration frequency per patient of 38% (86 of 225 informative cases) could be calculated. One important finding regarding the overall frequency of determined microsatellite instability is that the LOH/AI rate of 47% for the seven C13-associated markers was higher than for the four markers of the RB-1 locus (39%) and for the three BRCA-2 markers (25%). Surprisingly, defining LOH critical regions (LCR) for the investigated marker panel, eight of the ten affected LCR cases showed chromosomal imbalances simultaneously for the RB-1 and the C13 LOH markers. CONCLUSIONS The high LOH rate for eight different microsatellite markers in and around the putative TSG locus C13 on chromosome 13q13 further supports an involvement of C13 in prostate tumourigenesis.

MICROARRAY ANALYSES IN BLADDER CANCER CELLS: INHIBITION OF HTERT EXPRESSION DOWN-REGULATES EGFR

The human telomerase reverse transcriptase (hTERT) contributes to the immortal phenotype of the majority of cancers. Targeting hTERT by transfection with antisense oligonucleotides (AS-ODNs) induced immediate growth inhibition in human bladder cancer (BCa) cells. The molecular basis of the antiproliferative capacity of hTERT AS-ODNs was investigated by oligonucleotide microarray analyses and was compared to effects caused by siRNA-mediated knock-down of hTERT in EJ28 BCa cells. Two different AS-ODNs -- both down-regulated the expression of hTERT -- changed the expression of different genes mainly involved in stress response (including EGR1, ATF3 and GDF15), but without an association to telomerase function. This indicates that the immediate growth inhibition was caused, at least in part, by off-target effects. In comparison to that the blockade of the expression of hTERT using 2 different siRNAs was accompanied by the down-regulation of the oncogenes FOS-like antigen 1 (FOSL1) and epidermal growth factor receptor (EGFR), known to be overexpressed in BCa. We show here for the first time that repression of the hTERT transcript number decreased the expression of EGFR both at the mRNA and protein levels, suggesting a potential new function of hTERT in the regulation of EGFR-stimulated proliferation. Furthermore, the suppression of hTERT by siRNAs caused an enhancement of the antiproliferative capacity of the chemotherapeutics mitomycin C and cisplatin. The results presented herein may support the hypothesis that hTERT promotes the growth of tumor cells by mechanisms independent from telomere lengthening. The detailed clarification of these processes will shed light on the question, whether telomerase inhibitors might constitute suitable anticancer tools.

326Chemosensitization of bladder cancer cells by survivin-directed antisense oligodeoxynucleotides and sirna

Survivin is known to be overexpressed in numerous tumor types including human bladder cancer and to cause resistance to radiation and chemotherapy. Therefore, we tested the antisense oligodeoxynucleotide AS-SVV286 and the small interfering RNA si-SVV284 to down-regulate survivin in the BCa cell lines EJ28 and 5637 thereby acting as sensitizers for chemotherapy. Pretreatment with these inhibitors followed by chemotherapy caused an enhanced decrease in cell viability. The observed reduction in cell counts associated with increased rates of apoptosis paralleled the degree of reduction of survivin expression that was achieved more efficiently by the siRNA than by the AS-ODN. Nevertheless, both therapy approaches in combination with all tested chemotherapeutics provoked a remarkable inhibition of viability and may serve as suitable additive tools for chemosensitization of bladder cancer cells.