Guoping Ren

Distinct Genomic Alterations in Prostate Cancers in Chinese and Western Populations Suggest Alternative Pathways of Prostate Carcinogenesis

Prostate cancer is significantly more common in Western men than in Asian men, but the basis for this difference remains unknown. Because genomic studies of Asian prostate cancer are very limited, we used a genome-wide approach to reveal the genomic alterations in Chinese prostate cancers. We found a significant reduction in the frequency of certain somatic genomic changes that are commonly found in Western prostate cancers, including the 21q22.2-22.3 deletion, which involves the TMPRSS2:ERG fusion gene, and 10q deletion, which causes PTEN inactivation. Array results were confirmed by PCR-based molecular copy-number counting in selected samples. The different frequencies of these genomic changes were further evaluated by fluorescent in situ hybridization and immunohistochemistry analyses of tissue microarray samples. These alterations might be key genetic changes underlying the regional/ethnic difference in clinical incidence and might be induced by specific environmental and/or genetic risk factors that Western men are exposed to. Our findings suggest that tumors arise in Western and Chinese populations by alternative pathogenetic mechanisms.

PRSS3 promotes tumour growth and metastasis of human pancreatic cancer

Background and aims Metastasis accounts for the poor outcome of patients with pancreatic cancer. We recently discovered PRSS3 to be over-expressed in metastatic human pancreatic cancer cells. This study aimed to elucidate the role of PRSS3 in the growth and metastasis of human pancreatic cancer. Methods PRSS3 expression in human pancreatic cancer cell lines was detected by qPCR and immunoblotting. The effect of PRSS3 on cancer cell proliferation, migration and invasion in vitro, tumour growth and metastasis in vivo were investigated by manipulation of PRSS3 expression in human pancreatic cancer cell lines. VEGF expression was detected by ELISA, and the pathway through which PRSS3 regulates VEGF expression was investigated. The therapeutic effect of targeting this pathway on metastasis was assessed in vivo. Immunohistochemistry was employed to detect PRSS3 expression in human pancreatic cancer tissues. Results PRSS3 was over-expressed in the metastatic PaTu8988s cell line, but not in the non-metastatic PaTu8988t cell line. Over-expression of PRSS3 promoted pancreatic cancer cell proliferation as well as invasion in vitro, and tumour progression and metastasis in vivo. Stepwise investigations demonstrated that PRSS3 upregulates VEGF expression via the PAR1-mediated ERK pathway. ERK inhibitor significantly delayed the progression of metastases of pancreatic cancer and prolonged the survival of animals bearing metastatic pancreatic cancer (p<0.05). 40.54% of human pancreatic cancers (n=74) were positive for PRSS3 protein. A significant correlation was observed between PRSS3 expression and metastasis (p<0.01). Multivariate Cox regression analysis indicated that patients with PRSS3 expression in their tumours had a shorter survival time compared to those without PRSS3 expression (p<0.05). Conclusion PRSS3 plays an important role in the progression, metastasis and prognosis of human pancreatic cancer. Targeting the PRSS3 signalling pathway may be an effective and feasible approach for treatment of this lethal cancer.

Identification of frequent BRAF copy number gain and alterations of RAF genes in Chinese prostate cancer.

We recently found that TMPRSS2:ERG fusion genes and PTEN loss, which are common in Western prostate cancers are infrequent in Chinese cases. As previous studies indicated a higher frequency of RAS and BRAF mutation rates in Eastern Asian than in Western prostate cancers and fusion genes involving the RAF family genes BRAF and RAF1 were recently identified in prostate cancer in the American population, we investigated BRAF and RAF1 alterations in Chinese prostate cancer. Using fluorescence in situ hybridization, we found that BRAF was truncated in five of 200 informative Chinese cases (2.5%) and that RAF1 was truncated in three of 204 informative cases (1.5%) and genomic rearrangements of these genes were significantly correlated with high Gleason scores (>7; P < 0.01) and have a trend to appear in high clinical stage disease. A high frequency of BRAF and RAF1 copy number gain was found (29 and 15%, respectively). BRAF copy number gain in Chinese cancers was significantly higher than in UK cases (9.2%)(P < 0.001) and correlated with a number of clinical parameters. High‐level expression of BRAF was found by immunohistochemistry in Chinese cancer samples compared with adjacent nonmalignant epithelial cells, which was correlated with high BRAF copy number. We also identified KRAS codon 12 mutations in three of 96 Chinese cases, no BRAF V600E mutations were observed. Our finding suggests that the activation of the RAS/RAF/MEK/ERK pathway may be frequent in Chinese prostate cancer, with RAF gene copy number gain potentially being the main contributor.

Transcription-mediated chimeric RNAs in prostate cancer: time to revisit old hypothesis?

Chromosomal rearrangements and fusion genes play important roles in tumor development and progression. Four high-frequency prostate cancer-specific fusion genes were recently reported in Chinese cases. We attempted to confirm one of the fusion genes, USP9Y-TTTY15, by reverse transcription PCR, but detected the presence of the USP9Y-TTTY15 fusion transcript in cancer samples, nonmalignant prostate tissues, and normal tissues from other organs, demonstrating that it is a transcription-induced chimeric RNA, which is commonly produced in normal tissues. In 105 prostate cancer samples and case-matched adjacent nonmalignant tissues, we determined the expression level of USP9Y-TTTY15 and a previously reported transcription-induced chimeric RNA, SLC45A3-ELK4. The expression levels of both chimeric RNAs vary greatly in cancer and normal cells. USP9Y-TTTY15 expression is neither higher in cancer than adjacent normal tissues, nor correlated with features of advanced prostate cancer. Although the expression level of SLC45A3-ELK4 is higher in cancer than normal cells, and a dramatic increase in its expression from normal to cancer cells is correlated with advanced disease, its expression level in cancer samples alone is not correlated with any clinical parameters. These data show that both chimeric RNAs contribute less to prostate carcinogenesis than previously reported.

Up-regulation of eEF1A2 promotes proliferation and inhibits apoptosis in prostate cancer

BACKGROUND eEF1A2 is a protein translation factor involved in protein synthesis, which possesses important function roles in cancer development. This study aims at investigating the expression pattern of eEF1A2 in prostate cancer and its potential role in prostate cancer development. METHODS We examined the expression level of eEF1A2 in 30 pairs of prostate cancer tissues by using RT-PCR and immunohistochemical staining (IHC). Then we applied siRNA specifically targeting eEF1A2 to down-regulate its expression in DU-145 and PC-3 cells. Flow cytometer was used to explore apoptosis and Western-blot was used to detect the pathway proteins of apoptosis. RESULTS Our results showed that the expression level of eEF1A2 in prostate cancer tissues was significantly higher compared to their corresponding normal tissues. Reduction of eEF1A2 expression in DU-145 and PC-3 cells led to a dramatic inhibition of proliferation accompanied with enhanced apoptosis rate. Western blot revealed that apoptosis pathway proteins (caspase3, BAD, BAX, PUMA) were significantly up-regulated after suppression of eEF1A2. More importantly, the levels of eEF1A2 and caspase3 were inversely correlated in prostate cancer tissues. CONCLUSION Our data suggests that eEF1A2 plays an important role in prostate cancer development, especially in inhibiting apoptosis. So eEF1A2 might serve as a potential therapeutic target in prostate cancer.

A genetic study and meta-analysis of the genetic predisposition of prostate cancer in a Chinese population

Prostate cancer predisposition has been extensively investigated in European populations, but there have been few studies of other ethnic groups. To investigate prostate cancer susceptibility in the under-investigated Chinese population, we performed single-nucleotide polymorphism (SNP) array analysis on a cohort of Chinese cases and controls and then meta-analysis with data from the existing Chinese prostate cancer genome-wide association study (GWAS). Genotyping 211,155 SNPs in 495 cases and 640 controls of Chinese ancestry identified several new suggestive Chinese prostate cancer predisposition loci. However, none of them reached genome-wide significance level either by meta-analysis or replication study. The meta-analysis with the Chinese GWAS data revealed that four 8q24 loci are the main contributors to Chinese prostate cancer risk and the risk alleles from three of them exist at much higher frequencies in Chinese than European populations. We also found that several predisposition loci reported in Western populations have different effect on Chinese men. Therefore, this first extensive single-nucleotide polymorphism study of Chinese prostate cancer in comparison with European population indicates that four loci on 8q24 contribute to a great risk of prostate cancer in a considerable large proportion of Chinese men. Based on those four loci, the top 10% of the population have six- or two-fold prostate cancer risk compared with men of the bottom 10% or median risk respectively, which may facilitate the design of prostate cancer genetic risk screening and prevention in Chinese men. These findings also provide additional insights into the etiology and pathogenesis of prostate cancer.

NKAIN2 functions as a novel tumor suppressor in prostate cancer

Recurrent chromosome breakpoints at 6q22.31, leading to truncation and potential loss-of-function of the NKAIN2 gene, in Chinese prostate cancer patients were previously identified. In this study we investigated genomic, methylation and expression changes of NKAIN2 in a large number of prostate cancer samples and determined its functional role in prostate cancer cells. Fluorescence in situ hybridization analysis confirmed that NKAIN2 truncation is specific to Chinese while deletion of the gene is frequent in both Chinese and UK prostate cancers. Significantly reduced expression of NKAIN2 was also detected at both RNA and protein levels. Somatic mutations of NKAIN2 in prostate cancer samples exist but at very low frequency, suggesting that it is a putative tumor suppressor gene (TSG) with haploid insufficiency. Our functional studies showed that overexpression of NKAIN2 in prostate cancer cells inhibits cellular growth by promoting cell apoptosis, and decreasing cell migration and invasion. Conversely, knockdown of NKAIN2 promotes prostate cancer cell growth by inhibiting cell apoptosis, and increasing cell migration and invasion. These data imply that NKAIN2 is a novel TSG whose activity is commonly reduced in prostate cancer. It may restrain the disease development and progression by inducing apoptosis and suppressing cancer cell growth, migration and invasion. This study provides new insights into prostate carcinogenesis and opportunities for development of novel therapies for prostate cancer.

The different genetic alterations between Western and Chinese prostate cancers and the underlying mechanisms.

184 Background: Prostate cancer shows a wide variation in the clinical incidence and mortality rates of different geographical regions. While it is the most common male cancer in Western countries, it is much less frequent in Asian countries. We investigated genomic changes in prostate cancers from UK and China using microarrays to determine the genetic similarities and differences as well as the underlying mechanisms. METHODS We determined genome-wide genomic alterations using Affymetrix SNP array 6.0, and evaluated data using fluorescence in situ hybridisation (FISH) and immunohistochemistry. In addition, we assess androgen induced TMPRSS2 and ERG co-localization and fusion. Microsatellite analysis was used for AR CAG repeat polymorphism in UK and Chinese population. RESULTS Genome-wide analysis of 32 UK and 39 Chinese samples revealed that losses of 21q22 (leading to TMPRSS2:ERG fusion) and 10q23.3 (PTEN) were at much higher frequency in Western than Chinese prostate cancers. Using FISH analysis of 160 UK and 143 Chinese samples, we showed that PTEN deletion and ERG rearrangements were at a significantly higher frequency in samples from UK than China (p<0.001 for both). We found that PTEN and ERG protein were also differentially expressed (p<0.001) in the two populations. Investigating this further, we induced TMPRSS2 and ERG gene proximity and TMPRSS2:ERG fusion in two immortalised prostate epithelial cell lines by exposure to high dose of androgen. This androgen treatment did not cause increased global DNA damage but was associated with low expression of PIWIL1, which is involved in repairing double-strand breaks. Overexpression of PIWIL1 by transfection inhibited androgen induced TMPRSS2:ERG fusion. We found that AR CAG repeat lengths, which associated with AR activity, are significantly shorter in the UK than Chinese patients (p<0.05). CONCLUSIONS We revealed genomic differences in prostate cancer comparing the high-risk (Western) and low-risk (Chinese) populations. We further demonstrated that TMPRSS2:ERG fusion can be induced by androgen. The difference of CAG repeat length between the two populations are potentially associated with TMPRSS2:ERG fusion positive prostate cancers.

Abstract 3878: The different genetic alterations between Western and Chinese samples indicate alternate pathways of prostate cancer development

Prostate cancer is the most common male cancer in Western countries, but much less frequent in Asian countries. We systematically investigated genomic changes in prostate cancers from UK and China to determine genetic similarity and difference and potential alternative mechanisms of prostate carcinogenesis in these high and low cancer incidence populations. Using Affymetrix array 6.0 microarrays, we analyzed genome-wide genomic alterations in 32 UK and 39 Chinese prostate cancer samples. Distinct difference in genomic alterations between Western and Chinese prostate cancers were found, including loss of 21q22 and PTEN deletion, which are the most common genomic changes in Western prostate cancer but rarely detected in the Chinese samples. To further evaluate the difference between Western and Chinese samples, FISH analysis for PTEN deletion and ERG rearrangements and immunohistochemistry analysis for PTEN and ERG expressions were applied to UK (n=160) and Chinese (n=143) prostate cancer tissue microarrays (TMAs). PTEN deletion and ERG rearrangements were found at a significantly higher frequency in samples from UK (42.3% and 37.4%) than China (14.3% and 7.5% respectively) (P In conclusion, we compared genetic alterations in prostate cancer samples from UK and China and found there are significant differences between the two groups, commencing at pre-invasive, HGPIN, stage. Our findings suggest that tumours arise in Western and Chinese populations by alternative pathogenetic mechanisms. These alterations, differentially presented in these two populations may be key genetic changes underlying the regional/ethnic difference in clinical incidence and may be induced by specific environmental and/or genetic risk factors that Western men are exposed to. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 3878. doi:10.1158/1538-7445.AM2011-3878