Se-Lyun Yoon

Short rare hTERT-VNTR2-2nd alleles are associated with prostate cancer susceptibility and influence gene expression

BackgroundThe hTERT (human telomerase reverse transcriptase) gene contains five variable number tandem repeats (VNTR) and previous studies have described polymorphisms for hTERT-VNTR2-2nd. We investigated how allelic variation in hTERT-VNTR2-2nd may affect susceptibility to prostate cancer.MethodsA case-control study was performed using DNA from 421 cancer-free male controls and 329 patients with prostate cancer. In addition, to determine whether the VNTR polymorphisms have a functional consequence, we examined the transcriptional levels of a reporter gene linked to these VNTRs and driven by the hTERT promoter in cell lines.ResultsThree new rare alleles were detected from this study, two of which were identified only in cancer subjects. A statistically significant association between rare hTERT-VNTR2-2nd alleles and risk of prostate cancer was observed [OR, 5.17; 95% confidence interval (CI), 1.09-24.43; P = 0.021]. Furthermore, the results indicated that these VNTRs inserted in the enhancer region could influence the expression of hTERT in prostate cancer cell lines.ConclusionsThis is the first study to report that rare hTERT VNTRs are associated with prostate cancer predisposition and that the VNTRs can induce enhanced levels of hTERT promoter activity in prostate cancer cell lines. Thus, the hTERT-VNTR2-2nd locus may function as a modifier of prostate cancer risk by affecting gene expression.

A polymorphic minisatellite region of BORIS regulates gene expression and its rare variants correlate with lung cancer susceptibility

Aberrant expression of BORIS/CTCFL (Brother of the Regulator of Imprinted Sites/CTCF-like protein) is reported in different malignancies. In this study, we characterized the entire promoter region of BORIS/CTCFL, including the CpG islands, to assess the relationship between BORIS expression and lung cancer. To simplify the construction of luciferase reporter cassettes with various-sized portions of the upstream region, genomic copies of BORIS were isolated using TAR cloning technology. We analyzed three promoter blocks: the GATA/CCAAT box, the CpG islands and the minisatellite region BORIS-MS2. Polymorphic minisatellite sequences were isolated from genomic DNA prepared from the blood of controls and cases. Of the three promoter blocks, the GATA/CCAAT box was determined to be a critical element of the core promoter, while the CpG islands and the BORIS-MS2 minisatellite region were found to act as regulators. Interestingly, the polymorphic minisatellite region BORIS-MS2 was identified as a negative regulator that repressed the expression levels of luciferase reporter cassettes less effectively in cancer cells compared with normal cells. We also examined the association between the size of BORIS-MS2 and lung cancer in a case–control study with 590 controls and 206 lung cancer cases. Rare alleles of BORIS-MS2 were associated with a statistically significantly increased risk of lung cancer (odds ratio, 2.04; 95% confidence interval, 1.02–4.08; and P=0.039). To conclude, our data provide information on the organization of the BORIS promoter region and gene regulation in normal and cancer cells. In addition, we propose that specific alleles of the BORIS-MS2 region could be used to identify the risk for lung cancer.

Analysis of promoter methylation and polymorphic minisatellites of BORIS and lack of association with gastric cancer.

BORIS is a member of the cancer-testis gene family that comprises genes normally expressed only in testis but abnormally activated in different malignancies. In this study, we examined the relation between BORIS expression and gastric cancer, which is the most common cancer in Korea. Abnormal BORIS expression in the patients gastric cancer tissues was observed. We checked the methylation status of the gene in gastric cancer tissue, because the regulation by methylation in its CpG islands is well known for BORIS. However, there was no correlation between the methylation status and gene expression. Then, we focused on the minisatellites (variable number of tandem repeats) of BORIS as another possible regulator for this abnormal expression. Previously, we reported the characterization of BORIS-MS2 and determined the frequency of alleles in cancer patients. A case-control study was performed using DNA from 774 controls and 496 patients with gastric cancer. There was no significant difference observed in the overall distribution of minisatellite alleles. These results suggest that additional different regulators for the abnormal BORIS expression in gastric cancer may exist. Additionally, we performed a segregation analysis of BORIS-MS2 with genomic DNA obtained from two generations of five families and from three generations of two families. BORIS-MS2 alleles were transmitted through meiosis following Mendelian inheritance, which suggests that this polymorphic minisatellite could be a useful marker for paternity mapping and DNA fingerprinting.

Variants of BORIS minisatellites and relation to prognosis of prostate cancer

BORIS, a member of the cancer-testis antigen family with testis specific expression, showed abnormal expression in various cancer types including prostate cancer. In our previous work, we identified the polymorphic minisatellite, BORIS-MS2, located in the promoter region of BORIS. BORIS-MS2 was revealed as a polymorphic minisatellite that contains seven alleles each with different numbers of the repeat unit. We assessed the association between the allelic variation of BORIS-MS2 and prostate cancer by a case-control study. Using a PCR-based method, 315 cancer-free male controls and 648 cases with prostate cancer were genotyped. There was no significant difference observed in the overall distribution of this minisatellite, which indicates that this polymorphism is not responsible for prostate cancer susceptibility in the Korean population. Additionally, two new rare alleles (9 and 19 copies) were detected in this study, which were identified only in cancer subjects. When we compared the clinicopathological information with the Jewett-Whitmore system of prostate cancer classification, the frequency of rare allele cases in the higher grade was significantly higher than in the total prostate group (P = 0.032). The higher grades in the Jewett-Whitmore system were associated with a poor prognosis. Therefore, this result suggests that the rare alleles of BORIS-MS2 may be used as a marker of poor outcome in prostate cancer patients.

Abstract 4283: Cross-species hybridization of microarrays for studying tumor transcriptome of brain metastasis

Although the importance of the cellular microenvironment (soil) during invasion and metastasis of cancer cells (seed) has been well-recognized, technical challenges have limited the ability to assess the influence of the microenvironment on cancer cells at the molecular level. Here, we show that an experimental strategy, competitive cross-species hybridization of microarray experiments, can characterize the influence of different microenvironments on cancer cells by independently extracting gene expression data of cancer and host cells when human cancer cells were xenografted into different organ sites of immunocompromised mice. Surprisingly, the analysis of gene expression data showed that the brain microenvironment induces complete reprogramming of metastasized cancer cells, resulting in a gain of neuronal cell characteristics and mimicking neurogenesis during development. We also show that epigenetic changes coincide with transcriptional reprogramming in cancer cells. These observations provide proof of principle for competitive cross-species hybridization of microarray experiments to characterize the effect of the microenvironment on tumor cell behavior Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 4283. doi:1538-7445.AM2012-4283

Abstract 917: Polymorphic analysis of MUC4 minisatellites and its relation to cancer

The membrane-bound mucins belong to O-glycoproteins family and they are thought to play important biological roles in cell-cell and cell-matrix interactions, in cell signalling and in modulating biological properties of cancer cells. Among them, MUC4 is well characterized and their altered expression in cancer indicates an important role for these membrane-bound mucins in tumour progression and metastasis; however, their genomic levels are unclear because of complex genomic properties. In this study, we identified seven novel minisatellites from the entire MUC4 region and investigated how allelic variation in these minisatellites may affect susceptibility to cancers. We analyzed genomic DNA from the blood of normal healthy individuals and five (MUC4-MS2, MS3, MS4, MS6, MS7) among the seven minisatellites exhibited polymorphism. Furthermore, a case-control study was performed that compared genomic DNA from 351 cancer-free controls with DNA from individuals with 352 gastric cancers. A statistically significant association was identified between long alleles of MUC4-MS3 and the odds of gastric cancer: odds ratio (OR), 1.3; 95% confidence interval (CI), 1.02-1.59; and p = 0.03. Moreover, MUC4-MS3 alleles showed the highest heterozygosity (h = 0.74) among seven minisatellites that may play a role in its chromosomal instability. This idea was examined by comparing the polymorphic alleles of hypervariable MUC4-MS3 minisatellites in the blood and cancer tissues from 36 patients with gastric cancer and 27 patients with liver cancer. The frequency of rearrangement in MUC4-MS3 was shown each as 27% and 11% in gastric and liver cancer tissues. Furthermore, these rearrangements were detected significantly higher in long alleles than in short alleles. These observations suggest that the long MUC4-MS3 alleles could function as identifiers for risk of gastric cancer. Additionally, we suggest that minisatellite instability might be associated with MUC4 function in cancer cells. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 917.