Knowledge of the genotype of melanoma is important to guide patient management. Identification of mutations in BRAF and c-KIT lead directly to targeted treatment, but it is also helpful to know if there are driver oncogene mutations in NRAS, GNAQ or GNA11 as these patients may benefit from alternative strategies such as immunotherapy. While polymerase chain reaction (PCR) methods are often used to detect BRAF mutations, next generation sequencing (NGS) is able to determine all of the necessary information on several genes at once, with potential advantages in turnaround time. We describe here an Ampliseq hotspot panel for melanoma for use with the IonTorrent Personal Genome Machine (PGM) which covers the mutations currently of most clinical interest. We have validated this in 151 cases of skin and uveal melanoma from our files, and correlated the data with PCR based assessment of BRAF status. There was excellent agreement, with few discrepancies, though NGS does have greater coverage and picks up some mutations that would be missed by PCR. However, these are often rare and of unknown significance for treatment. PCR methods are rapid, less time-consuming and less expensive than NGS, and could be used as triage for patients requiring more extensive diagnostic workup. The NGS panel described here is suitable for clinical use with formalin-fixed paraffin-embedded (FFPE) samples.
The familial cancer syndrome Birt-Hogg-Dube syndrome is characterised by the development of skin (fibrofolliculomas) and renal tumours (and lung cysts) and is caused by mutations in the FLCN tumour suppressor gene. Though the FLCN gene product (folliculin) has been linked to the regulation of a variety of signalling pathways (e.g. the mTOR, AMPK, TGFbeta and hyoxia-responsive genes) the precise function of the folliculin protein is not well-defined. In order to identify potential novel pathways linked to folliculin function we analysed paired isogenic folliculin-deficient and folliculin-expressing cell lines by gene expression and protein (Kinexus) arrays. Gene expression microarray analysis in the folliculin +/- non-renal cancer line (FTC133), revealed 708 differentially expressed targets (fold change >2 and p<0.001) with enrichment of genes in the cadherin and Wnt signalling pathways. Comparison of the differentially expressed genes in the FTC133 datasets and previously reported gene expression data for a folliculin-deficient renal tumour and the UOK257 renal cell carcinoma cell line, revealed that RAB27B was dysregulated in all three datasets (increased expression in folliculin-deficient cells). The Kinexus protein array analysis suggested 73 candidate, differentially expressed, proteins and further investigation by western blot analysis of 5 candidates that were also differentially expressed in the FTC133 gene expression microarray data, revealed that EIF2AK2 (PKR) and CASP1 were reduced and PLCG2 was increased in folliculin-deficient FTC133 cells and in a BHD renal tumour. In view of the role of CASP1 in apoptosis we investigated whether other apoptosis-related proteins might be regulated by folliculin and found increased levels of SMAC/Diablo and HtrA2 in folliculin-expressing FTC133 cells. These findings identify novel pathways and targets linked to folliculin tumour suppressor activity.
Homozygous or compound heterozygous mutations in the ATM gene are the principal cause of ataxia telangiectasia (A-T). Several studies have suggested that heterozygous carriers of ATM mutations are at increased risk of breast cancer and perhaps of other cancers, but the precise risk is uncertain.Cancer incidence and mortality information for 1160 relatives of 169 UK A-T patients (including 247 obligate carriers) was obtained through the National Health Service Central Registry. Relative risks (RRs) of cancer in carriers, allowing for genotype uncertainty, were estimated with a maximum-likelihood approach that used the EM algorithm. Maximum-likelihood estimates of cancer risks associated with three groups of mutations were calculated using the pedigree analysis program MENDEL. All statistical tests were two-sided.The overall relative risk of breast cancer in carriers was 2.23 (95% confidence interval [CI] = 1.16 to 4.28) compared with the general population but was 4.94 (95% CI = 1.90 to 12.9) in those younger than age 50 years. The relative risk for all cancers other than breast cancer was 2.05 (95% CI = 1.09 to 3.84) in female carriers and 1.23 (95% CI = 0.76 to 2.00) in male carriers. Breast cancer was the only site for which a clear risk increase was seen, although there was some evidence of excess risks of colorectal cancer (RR = 2.54, 95% CI = 1.06 to 6.09) and stomach cancer (RR = 3.39, 95% CI = 0.86 to 13.4). Carriers of mutations predicted to encode a full-length ATM protein had cancer risks similar to those of people carrying truncating mutations.These results confirm a moderate risk of breast cancer in A-T heterozygotes and give some evidence of an excess risk of other cancers but provide no support for large mutation-specific differences in risk.
Abstract Birt-Hogg-Dubé (BHD) Syndrome, is a dominantly familial cancer syndrome associated with susceptibility to renal cancer carcinoma (RCC) caused by inactivating mutations in the folliculin (FLCN) gene. The precise functions of the FLCN gene product are still under investigation but RCC from BHD patients show loss of the wild type allele consistent with a tumour suppressor gene function. In search for potential synthetic-lethal targets for FLCN using a phosphatase siRNA library screen approach, we found that knockdown of SSH2 serine phosphatase (one of the three members of Slingshot family and actively involved in Actin reorganization) specifically induced caspase 3/7 activity in a dose-dependent manner (up to 6 fold increase, 10nM, 72hrs) in two human cell lines (BHD-origin renal cell carcinoma UOK-257 and thyroid carcinoma FTC-133) with loss of FLCN expression, but not in their folliculin expressing isogenic cell lines. SSH2 siRNA-induced knockdown was verified by real-time PCR (up to 60% reduction in SSH2 transcripts, 10nM siRNA, 48hrs), but SSH1 and SSH3 transcripts were increased up to 3 fold (suggesting a compensatory regulatory mechanism among members of SSH family). Further investigation of the underlining mechanism of caspase induction by SSH2 knockdown in FLCN-null cells exhibited that there was a dose-dependent increase in G1 cell population (up to 20% increase, 20nM SSH2 siRNA, 72hrs). Combination treatment of SSH2 + SSH1 siRNAs, but not SSH2 + SSH3 siRNAs potentiated induction of caspase 3 activity and G1 cell cycle arrest. These data indicate that apoptotic cell death in FLCN-null cells can be triggered by SSH2 knockdown through G1 arrest and provide a tool to develop potential therapeutic agents for BHD patients. 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 LB-259. doi:1538-7445.AM2012-LB-259
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