The studies in this thesis explored several aspects of genetic dependencies in the development of familial and sporadic melanoma. CDKN2A is the most common high-penetrance susceptibility gene... Show moreThe studies in this thesis explored several aspects of genetic dependencies in the development of familial and sporadic melanoma. CDKN2A is the most common high-penetrance susceptibility gene responsible for up to 40% of melanoma families worldwide. Interestingly, more than half of germline variation in familial predisposition to melanoma remains to be determined. To identify novel high-penetrance melanoma susceptibility genes we applied Whole Exome Sequencing (WES) and co-segregation analysis in a Dutch melanoma family. We identified NEK11 as a candidate high-penetrance melanoma susceptibility gene and performed functional characterization in cancer cell lines to show loss-of-function (chapter 2). Our additional focus of investigation was a specific cohort of familial melanoma patients carrying a CDKN2A founder mutation, a 19-bp deletion known as the p16-Leiden mutation. Due to the variability in occurrence of pancreatic cancer (PC) and melanoma within familial melanoma families, we sought to examine genetic modifiers predicting the risk of PC and melanoma (chapter 3). In this specific cohort of familial melanoma patients, the timing of CDKN2A wild-type allele loss in melanoma development is unknown. We have applied a customized SNP-based digital PCR (dPCR) methodology to precisely quantify CDKN2A allelic imbalance depicting loss-of-heterozygosity (LOH) and attempted to deduce the order of genetic events based on absolute quantification of mutations and losses (CDKN2A LOH, BRAFV600E, TERT promoter, chromosome 9q LOH) (chapter 4). Finally, in addition to high-penetrance genes in familial melanoma, there are genes that are important fitness factors for cancer cell growth and may provide insight into the biology and progression of sporadic melanoma. The application of screening technologies has been successful in identifying genetic dependencies that could possibly be implemented as therapeutic targets in cancer. We have therefore analyzed Clustered Regular Interspaced Short Palindromic Repeats (CRISPR-Cas9) screening data to identify fitness genes in melanoma and used in-vitro systems to validate our findings (chapter 5). Combined, we hope to have uncovered novel genetic dependencies that could be used in the targeted treatment of sporadic as well as familial melanoma. Show less
Background Heritable epigenetic alterations have been proposed as an explanation for familial clustering of melanoma. Here we performed genome-wide DNA methylation analysis on affected family... Show moreBackground Heritable epigenetic alterations have been proposed as an explanation for familial clustering of melanoma. Here we performed genome-wide DNA methylation analysis on affected family members not carrying pathogenic variants in established melanoma susceptibility genes, compared with healthy volunteers. Results All melanoma susceptibility genes showed the absence of epimutations in familial melanoma patients, and no loss of imprinting was detected. Unbiased genome-wide DNA methylation analysis revealed significantly different levels of methylation in single CpG sites. The methylation level differences were small and did not affect reported tumour predisposition genes. Conclusion Our results provide no support for heritable epimutations as a cause of familial melanoma. Show less
Being a member of a melanoma family is a major risk factor for cutaneous malignant melanoma. In this thesis clinical characteristics and management of melanoma families are discussed. In the first... Show moreBeing a member of a melanoma family is a major risk factor for cutaneous malignant melanoma. In this thesis clinical characteristics and management of melanoma families are discussed. In the first part of the thesis clinical and histological characteristics of melanoma (patients) from families with a (p16-Leiden) mutation in the high penetrance melanoma susceptibility gene CDKN2A were compared with the general population. Significant differences with respect to several characteristics are reported. In the second part of the thesis the yield, effectiveness, and causes for failure of surveillance of melanoma families are discussed. We report that surveillance is associated with a more favorable tumor stage. Several aspects of surveillance, including interval melanomas, surveillance interval, noncompliance, and overdiagnosis are discussed. Based on analyses of melanoma detection rates in families with different family and genetic characteristics, we propose a risk stratification for members of melanoma families. In the third part of the thesis we investigate the impact of dermoscopy on management decisions. It is demonstrated that dermoscopy by dermoscopy experts in the setting of melanoma family surveillance resulted in a considerable reduction of unnecessary excisions. This effect was considerably less in the setting of dermoscopy non-experts examining patients in general dermatology clinics. Show less