Expression and copy number analysis of TRPS1, EIF3S3 and MYC genes in breast and prostate cancer.

The long arm of chromosome 8 is one of the most common regions of amplification in cancers of several organs, especially carcinomas of the breast and prostate. TRPS1, MYC and EIF3S3 genes are located in one of the minimal regions of amplification, 8q23-q24, and have been suggested to be the target genes of the amplification. Here, our goal was to study copy number and expression of the three genes in order to investigate the significance of the genes in breast and prostate cancer. By using fluorescence in situ hybridisation (FISH), we first found that TRPS1 and EIF3S3 were amplified together in about one-third of hormone-refractory prostate carcinomas. Next, we analysed the mRNA expression of the three genes by real-time quantitative RT-PCR and the gene copy number by FISH in six breast and five prostate cancer cell lines. Breast cancer cell line, SK-Br-3, which contained the highest copy number of all three genes, showed overexpression of only EIF3S3. Finally, the expression levels of TRPS1, EIF3S3 and MYC were measured in freshly frozen clinical samples of benign prostate hyperplasia (BPH), as well as untreated and hormone-refractory prostate carcinoma. The TRPS1 and MYC expression levels were similar in all prostate tumour groups, whereas EIF3S3 expression was higher (P=0.029) in prostate carcinomas compared to BPH. The data suggest that the expression of EIF3S3 is increased in prostate cancer, and that one of the mechanisms underlying the overexpression is the amplification of the gene.

Amplification of urokinase gene in prostate cancer.

Prostate cancer is the most common male malignancy in the United States as well as in many European countries. It is curable as long as it is localized, but the invasion of prostate cancer and formation of metastasis turn it into a life-threatening disease. Urokinase-type plasminogen activator (uPA) is believed to play a key role in tissue degradation and cell migration under various normal and pathological conditions, including cancer invasion and metastasis. Increased expression of uPA has been reported in various malignancies including prostate cancer. However, the mechanisms of the overexpression have remained poorly understood. Here, we report increased copy number of uPA gene in 3 of 13 hormone-refractory prostate carcinomas, including 1 high-level amplification. Real-time quantitative reverse transcription-PCR showed that the increased expression of uPA coincided with the amplification of the gene in these tumors. Matrigel invasion assay showed that prostate cancer cell line PC-3, containing amplification of the uPA gene, was more sensitive to the urokinase inhibitor, amiloride, than DU145 or LNCaP cell lines, which do not have the amplification. The findings suggest that one of the mechanisms underlying the overexpression of the uPA is the amplification of the gene, which is associated with the increased invasive potential of the cells.

Amplification and overexpression of androgen receptor gene in hormone-refractory prostate cancer.

The expression level of the androgen receptor (AR) gene in androgen-dependent and -independent prostate cancer was determined by using real-time quantitative reverse transcription-PCR assay. Eight benign prostate hyperplasias, 33 untreated and 13 hormone-refractory locally recurrent carcinomas, as well as 10 prostate cancer xenografts, were analyzed. All hormone-refractory tumors expressed AR and showed, on average, 6-fold higher expression than androgen-dependent tumors or benign prostate hyperplasias (P < 0.001). Four of 13 (31%) hormone-refractory tumors contained AR gene amplification detected by fluorescence in situ hybridization. Androgen-independent tumors with gene amplification expressed, on average, a 2-fold higher level of AR than the refractory tumors without the gene amplification. Two xenografts (LuCaP 35 and 69) showed amplification and high-level expression of the AR gene. These xenografts are the first prostate cancer model systems containing the gene amplification. The findings demonstrate that AR is highly expressed in androgen-independent prostate cancer, suggesting that the AR signaling pathway is important in the progression of prostate cancer during endocrine treatment. The two xenografts with the AR gene amplification will enable studies evaluating the functional significance of the amplification and development of new treatment strategies based on high-level expression of AR.

Hormone-resistant prostate cancer with symptomatic pelvic tumours: patient survival and prognostic factors.

OBJECTIVES: To determine the survival and investigate the prognostic significance of immunohistochemical variables and clinical factors in patients with hormone-resistant prostate cancer (HRPC) and symptomatic pelvic tumours, in whom preliminary observations indicated that survival exceeded the median 8-10 months of patients with HRPC and painful bone metastases. PATIENTS AND METHODS: Seventy-five patients with HRPC referred for palliative pelvic radiotherapy between 1980 and 1996 were identified. For all patients at least two prostate biopsies had been obtained, one before primary hormone treatment and at least one after clinical progression despite androgen deprivation (HRPC biopsy). Bone scans at the time of referral were assessed. The medical records were reviewed for clinical variables of possible prognostic significance. Histological grade was recorded, and prostate-specific antigen (PSA), androgen receptors (ARs), Ki-67 and p53 determined immunohistochemically. In 18 HRPC specimens the degree of AR amplification was analysed. RESULTS: Positive staining for ARs was high in the HRPC biopsies, although there was no association with AR amplification. Ki-67 positivity increased after the development of HRPC. The median (range) survival was 14 (1-141) months; age < 65 years was associated with increased survival. In a multivariate analysis the following variables remained independent prognostic factors for survival from the time of the HRPC biopsy: bone metastases (0-10 vs > 10 lesions, P < 0.001), low Ki-67 score (0 vs 1-3, P = 0.006) and low p53 positivity score (0 vs 1-3, P = 0.014) in the HRPC biopsy. CONCLUSIONS: The median survival of patients with HRPC and pelvic tumours requiring palliation seems to exceed that of patients with HRPC and dominating painful bone metastases by at least 4-6 months. Simple clinical (bone metastases) and immunohistochemical variables (Ki-67, p53) enable patients with particularly long survival times to be identified, and in whom palliative treatment needs to be improved.

Androgen receptor gene mutations in hormone-refractory prostate cancer.

Prostate cancer is considered to be one of the most hormone-dependent human malignancies. As a key mediator of hormonal response, the androgen receptor (AR) is believed to have an important role in the progression of prostate cancer. Mutations in the coding region of the AR gene have been found in both untreated and hormone-refractory prostate cancer, but the frequency of such mutations at different stages of the disease is poorly documented and even contradictory results have been published. In the present study, the frequency of AR gene mutations was determined in 30 locally recurrent and two metastatic hormone-refractory prostate tumours using the polymerase chain reaction (PCR), non-radioactive single strand conformation polymorphism (SSCP), and sequencing. The length of the polymorphic CAG repeat, which is inversely correlated with the ability of the AR to activate transcription, was also analysed as well as the GGC repeat. Twelve samples were known to contain an AR gene amplification. Altogether, one point mutation (Gly(674)-->Ala) and one microsatellite mutation (CAG(20)-->CAG(18)) were found, both in cancers containing the AR gene amplification. The mean lengths of the polymorphic CAG and GGC repeats were similar to those observed in the normal population. These results favour the view that mutations in the AR gene are rare in hormone-refractory prostate cancer and do not play an important role, at least, in local relapse. Instead, the amplification and consequent overexpression of the wild-type AR gene seem to be the most common alteration involving the AR in hormone-refractory prostate cancer.