Promoter DNA Methylation of Oncostatin M receptor-β as a Novel Diagnostic and Therapeutic Marker in Colon Cancer

In addition to genetic changes, the occurrence of epigenetic alterations is associated with accumulation of both genetic and epigenetic events that promote the development and progression of human cancer. Previously, we reported a set of candidate genes that comprise part of the emerging “cancer methylome”. In the present study, we first tested 23 candidate genes for promoter methylation in a small number of primary colon tumor tissues and controls. Based on these results, we then examined the methylation frequency of Oncostatin M receptor-β (OSMR) in a larger number of tissue and stool DNA samples collected from colon cancer patients and controls. We found that OSMR was frequently methylated in primary colon cancer tissues (80%, 80/100), but not in normal tissues (4%, 4/100). Methylation of OSMR was also detected in stool DNA from colorectal cancer patients (38%, 26/69) (cut-off in TaqMan-MSP, 4). Detection of other methylated markers in stool DNA improved sensitivity with little effect on specificity. Promoter methylation mediated silencing of OSMR in cell lines, and CRC cells with low OSMR expression were resistant to growth inhibition by Oncostatin M. Our data provide a biologic rationale for silencing of OSMR in colon cancer progression and highlight a new therapeutic target in this disease. Moreover, detection and quantification of OSMR promoter methylation in fecal DNA is a highly specific diagnostic biomarker for CRC

Assessment of microsatellite instability in head and neck cancer using consensus markers

Head and neck cancer is the sixth most common cancer in the world and one of the most lethal cancers. Microsatellite instability is an important characteristic of tumor cells and is observed both in presence and absence of mismatch repair gene mutations. The importance of microsatellite instability in head and neck cancer is not well established due to the lack of a consensus panel and selection of different markers, criteria and methodological variances. The main objective of this study was to investigate the performance of a consensus panel of microsatellite repeats by automated fragment analysis. Matched tumor and normal tissue samples from 99 patients were analyzed using five mononucleotide markers. Following PCR the amplified fragments were analyzed by capillary electrophoresis on an ABI 310 genetic analyzer. Microsatellite instability was observed in 26 patients. In 17 patients instability was detected at multiple loci. NR21 and BAT25 were the most frequently altered targets. These two mononucleotide markers could detect all samples displaying high-instability. In this study we describe a standardized fluorescent multiplex PCR combined with computerized analysis, which allows rapid and accurate analysis of a high number of samples and obviates the need to compare tumors with matching normal tissue

Simultaneous Methylation Profiling of Tumor Suppressor Genes in Head and Neck Cancer

Head and neck cancer (HNC) is a common cancer, and its prognosis has not changed during the last decades. Detection of the disease at an early stage is crucial for successful treatment, as early diagnosis can significantly increase the survival rate. Methylation of tumor suppressor genes is an early event in cancer responsible for incorrect gene silencing. Since methylation changes are reversible, they also provide a promising target for therapy. So far, only individual genes have been analyzed for aberrant methylation in HNC. In this study, we analyzed the methylation status of 24 tumor suppressor genes simultaneously by methylation-specific multiplex ligation-dependent probe amplification in matched tumor and normal tissue samples from patients with HNC. CHFR, RAR beta, DAPK1, and RASFF1 genes were the most frequently methylated genes in tumor tissue. Eight genes were not methylated in any sample. The methylation frequencies for individual genes ranged from 0% to 19%. Our results indicate that methylation of tumor suppressor genes is not high as previously reported by methylation-specific polymerase chain reaction and is confined to a smaller but significant fraction of the tumors. Whether this group represents a unique entity in the disease spectrum warrants further studies

Copy number profiling of tumor suppressor genes in head and neck cancer

Background. Sensitive and reliable new biomarkers are needed in head and neck cancer to predict the outcome and for therapy that is more effective. Copy number alterations are frequent and play a critical role in cancer

Novel mutations and role of the LKB1 gene as a tumor suppressor in renal cell carcinoma

The tumor suppressor LKB1 gene is a master kinase and inhibits mammalian target of rapamycin (mTOR) by activating AMP-activated protein kinase (AMPK) and AMPK-related kinases. LKB1 is a critical intermediate in the mTOR signaling pathway, and mutations of the LKB1 gene have been implicated in the development of different tumor types. Recent evidence indicates that LKB1 alterations contribute to cancer progression and metastasis by modulating vascular endothelial growth factor (VEGF) production. The Ras homolog enriched in brain (RHEB) protein is a component of the mTOR pathway and functions as a positive regulator of mTOR. However, the mechanisms and effectors of RHEB in mTOR signaling are not well known. In this study, we analyzed the expression of RHEB and HIF1 alpha genes in correlation with LKB1 gene mutations. All coding exons and exon/intron boundaries of the LKB1 gene were analyzed by direct sequencing in 77 renal cell carcinoma (RCC) tumors and 62 matched noncancerous tissue samples. In 51.6% of the patients, ten different mutations including four novel mutations in the coding sequences and six single nucleotide substitutions in the introns were observed. Rheb and HIF1 alpha expression levels were not statistically different between the tumor and corresponding noncancerous tissue samples. However, expression of the Rheb gene was upregulated in the tumor samples carrying the intron 2 (+24 G -> T) alteration. Association between the gene expression and tissue protein levels was also analyzed for HIF1 alpha in a subgroup of patients, and a high correlation was confirmed. Our results indicate that the LKB1 gene is frequently altered in RCC and may play a role in RCC progression