Melanoma predisposition—A limited role for germline BRCA1 and BRCA2 variants

For several decades, the role of germline BRCA1/BRCA2 variants in predisposition to melanoma has been controversial. Several groups have reported a positive association between BRCA variant status and melanoma formation, while other studies have failed to find an association (Gumaste et al., 2015). In the same way, analyses of familial melanoma cohorts have reported germline pathogenic alleles of BRCA2 (Gumaste et al., 2015; Tuominen et al., 2016) providing some evidence that germline variants in these genes might contribute to disease pathogenesis - but do they?.


Melanoma predisposition-A limited role for germline BRCA1 and BRCA2 variants David J. Adams | David Timothy Bishop | Carla Daniela Robles-Espinoza
For several decades, the role of germline BRCA1/BRCA2 variants in predisposition to melanoma has been controversial. Several groups have reported a positive association between BRCA variant status and melanoma formation, while other studies have failed to find an association (Gumaste et al., 2015). In the same way, analyses of familial melanoma cohorts have reported germline pathogenic alleles of BRCA2 (Gumaste et al., 2015;Tuominen et al., 2016) providing some evidence that germline variants in these genes might contribute to disease pathogenesis-but do they?
The potential involvement of germline BRCA variants in melanoma susceptibility has profound implications for patient management and screening, since there are now agents such as poly-(ADP-ribose)polymerase (PARP) inhibitors (Farmer et al., 2005) that could be used to treat tumours from carrier patients, or even potentially prophylactically to prevent tumour formation. Further, several commercial vendors promote BRCA1/2 testing in patients with a history of melanoma, so it is important for patients and the healthcare system to establish whether such testing is warranted, not only because of the associated cost but also because genetic testing can be associated with significant patient anxiety.
The tumour spectrum associated with germline BRCA variants has largely been elucidated by examining the cancer history of carriers and presumed carriers in families identified because of multiple cases of breast or ovarian cancer. Of course, other cancers occur in these families both by chance but also potentially because the germline variant increases cancer risk. Typically, the observed numbers of cancers in carriers are compared to the incidence of these cancers in the general population, but the power of individual studies is usually low because the number of actual carriers is limited. So why might the association between BRCA alleles and melanoma be inconsistent? Firstly, it is possible that BRCA alleles have no effect and that chance variation provides a statistical signal suggesting an association between these variants and melanoma. Secondly, that there is a modest effect and again chance variation plays a role. Thirdly, that any effect is limited to a subset of BRCA variants (e.g., the Ovarian Cancer Cluster Region which is associated with a much higher relative risk of ovarian cancer than other variants in BRCA1 or BRCA2 (Rebbeck et al., 2015)) and that the variant profile differs in differ- further suggesting that loss of BRCA1 or BRCA2 did not contribute to these cancers. Moreover, it was only in ovarian, prostate, breast and pancreas cancer that the diagnostic single nucleotide pattern associated with loss of homologous recombination could be observed, with only a modest increase of this signature in non-BRCA-associated cancer types with biallelic BRCA inactivation.
For the other cancer sites, only between 0.5% and a few per cent of cases had a germline BRCA variant (1% for melanoma). These figures are broadly in keeping with the make-up of the population studied of whom more than 18% were of Ashkenazi descent, a population known to have a high carrier rate of BRCA variants.
As for the 621 melanoma patients in the study, there were 258 females and 363 males, and the mean and median age at first diagnosis were 56.9 and 59 years old, respectively, with age unknown for 26 patients.
Another key observation of this study was that while patients from BRCA-associated cancer types that had a germline, potentially pathogenic BRCA variant derived greater clinical benefit from PARP inhibitor treatment than those without these variants, this was not true for patients with non-BRCA-associated cancers.
Although their analysis only included one melanoma patient, it suggests that germline testing should not be the only criterium by which patient treatment is chosen and that other aspects such as tumour lineage might play an equal, if not more important, role in therapy response.
Are there any limitations of the current study? In the context of melanoma, the authors grouped together all melanoma subtypes including cutaneous, uveal, acral and mucosal melanoma. It is known that the genomes of these different melanoma subtypes are distinctly different, with the genomes of uveal, acral and mucosal melanoma being characterized by a high level of copy number gains and losses, while the genomes of cutaneous melanoma are replete with UV-induced C > T mutations. By "pooling" all subtypes together in this way it is possible that any statistical signal that might link BRCA1 or BRCA2 variants to rarer melanoma subtypes could be diluted. That said, on balance, it seems unlikely that germline BRCA1 or BRCA2 variants profoundly contribute to any melanoma subtype. It should be noted that large-scale studies of this type cannot conclude that BRCA1 or BRCA2 variants never contribute to melanoma formation, just that at a population level they are not major contributors to the burden of disease.
In summary, Jonsson et al. have made a significant contribution to the debate on the involvement of BRCA1 and BRCA2 variants to melanoma predisposition and provide a reminder that we must constantly revisit gene-disease associations so as to better counsel patients about their care.