Faculty Bibliography

Cancer is a disease consisting of both genetic and epigenetic changes. Although increasing evidence demonstrates that tumour progression entails chromatin-mediated changes such as DNA methylation, the role of histone variants in cancer initiation and progression currently remains unclear. Histone variants replace conventional histones within the nucleosome and confer unique biological functions to chromatin. Here we report that the histone variant macroH2A (mH2A) suppresses tumour progression of malignant melanoma. Loss of mH2A isoforms, histone variants generally associated with condensed chromatin and fine-tuning of developmental gene expression programs, is positively correlated with increasing malignant phenotype of melanoma cells in culture and human tissue samples. Knockdown of mH2A isoforms in melanoma cells of low malignancy results in significantly increased proliferation and migration in vitro and growth and metastasis in vivo. Restored expression of mH2A isoforms rescues these malignant phenotypes in vitro and in vivo. We demonstrate that the tumour-promoting function of mH2A loss is mediated, at least in part, through direct transcriptional upregulation of CDK8. Suppression of CDK8, a colorectal cancer oncogene, inhibits proliferation of melanoma cells, and knockdown of CDK8 in cells depleted of mH2A suppresses the proliferative advantage induced by mH2A loss. Moreover, a significant inverse correlation between mH2A and CDK8 expression levels exists in melanoma patient samples. Taken together, our results demonstrate that mH2A is a critical component of chromatin that suppresses the development of malignant melanoma, a highly intractable cutaneous neoplasm

Background: Most skin cancer-related deaths are due to malignant melanoma. Risk assessment criteria for melanoma currently include skin phenotype, family and sun exposure history, factors that are subject to observer and recall bias. Genetic markers of susceptibility have been identified in association studies; however little progress has been made in developing them to improve screening and identification of individuals at risk of melanoma. Tyrosinase (TYR), a known susceptibility gene and a determinant of skin pigmentation, was thus investigated further to characterize its association with melanoma susceptibility and to identify markers which can be used in a risk assessment model. Methods: The cohort consisted of 326 individuals diagnosed with melanoma and 400 control subjects. TYR was interrogated using fifteen tag single nucleotide polymorphisms (SNPs) spanning the gene and statistical association tests performed. Additionally, ancestry informative markers were utilized to correct for population genetic sub-structure. Haplotype analysis was performed to determine if specific regions of the gene contributed more significantly to susceptibility. Coding regions of the gene are currently being sequenced and identified variants will be tested for impact on enzymatic function. Results: Of the 15 SNPs, 8 were associated with melanoma; 4 with decreased risk (Odds ratios 0.41-0.71) and 4 with increased risk (Odds ratios 1.43-1.96). SNPs localized to 2 regions of the gene (spanning exon 1 to intron 2 and intron 3 to 4) with markers of increased as well as decreased susceptibility present in both areas. With the exception of one coding region variant, SNPs were localized to introns. Conclusions: SNPs localized to TYR may serve as useful biomarkers for determining susceptibility to melanoma. We are currently sequencing the gene in our population in order to identify additional and potentially more potent markers of melanoma susceptibility. Coding region variants are being characterized for their effect on protein stability and enzyme activity such that functional active variants (most likely to affect susceptibility to melanoma) can be identified and assessed for their utility in melanoma risk assessment

Background: Several studies have provided evidence that solid tumors are polyclonal malignancies, an observation which may contribute to difficulties in achieving durable treatment responses. In some patients, molecularly targeted therapies may be compromised due to heterogeneity among tumor subclones. In this study we compared conventional DNA sequencing with a fluorescent-based mutant-specific PCR (MS-PCR) assay to detect the BRAF hotspot mutation V600E in a large panel of patient tumors, including paired primary and metastatic tumors from individual patients. Methods: BRAF MS-PCR and conventional sequencing were performed on DNA from 304 tumors (112 melanoma, 110 ovarian, 82 prostate) to determine the presence of the BRAFV600E hot-spot mutation. Among the melanomas were 18 matched primary and metastatic specimens, and 40 metastatic specimens from 19 patients, each of whom had 2 or more metastases. Results: DNA sequencing detected mutations in 5/110 (4.5%) ovarian tumors, 1/82 (1.2%) prostate tumors, and 36/112 (32%) melanomas. In contrast, the MS-PCR assay detected mutations in 12/110 (11%) ovarian tumors, 15/82 (18%) prostate tumors and 85/112 (76%) melanomas. The presence of contaminating normal tissue was scored for each melanoma sample, but excess normal tissue did not influence the results using either methodology. In all cases mutations detected by sequencing were also detected by MSPCR. Among 18 patients with matched primary and metastatic melanoma, 8/18 (44%) had discordant results including 2 patients with mutant primary tumors and wild-type metastases; among the 19 patients with multiple metastases 5/19 (26%) had discordant (both wild-type and mutant) tumors. Conclusions: Using a highly sensitive BRAF mutation detection method, we observed substantial evidence for heterogeneity within clinical tumor specimens. This was especially true in melanoma samples, where multiple specimens from individual patients differed with respect to the presence of the mutant BRAF allele. These results suggest that failures of molecularly targeted therapies, such as those directed against mutant BRAF, may be due in part to a lack of clonality among the tumors under treatment