TY - JOUR
T1 - Multiplex melanoma families are enriched for polygenic risk
AU - Law, Matthew H.
AU - Aoude, Lauren G.
AU - Duffy, David L.
AU - Long, Georgina V.
AU - Johansson, Peter A.
AU - Pritchard, Antonia L.
AU - Khosrotehrani, Kiarash
AU - Mann, Graham J.
AU - Montgomery, Grant W.
AU - Iles, Mark M.
AU - Cust, Anne E.
AU - Palmer, Jane M.
AU - Shannon, Kerwin F.
AU - Spillane, Andrew J.
AU - Stretch, Jonathan R.
AU - Thompson, John F.
AU - Saw, Robyn P.M.
AU - Scolyer, Richard A.
AU - Martin, Nicholas G.
AU - Hayward, Nicholas K.
AU - MacGregor, Stuart
N1 - 2020© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For Permissions, please email: [email protected] is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
PY - 2020/7/27
Y1 - 2020/7/27
N2 - Cancers, including cutaneous melanoma, can cluster in families. In addition to environmental etiological factors such as ultraviolet radiation, cutaneous melanoma has a strong genetic component. Genetic risks for cutaneous melanoma range from rare, high-penetrance mutations to common, low-penetrance variants. Known high-penetrance mutations account for only about half of all densely affected cutaneous melanoma families, and the causes of familial clustering in the remainder are unknown. We hypothesize that some clustering is due to the cumulative effect of a large number of variants of individually small effect. Common, low-penetrance genetic risk variants can be combined into polygenic risk scores. We used a polygenic risk score for cutaneous melanoma to compare families without known high-penetrance mutations with unrelated melanoma cases and melanoma-free controls. Family members had significantly higher mean polygenic load for cutaneous melanoma than unrelated cases or melanoma-free healthy controls (Bonferroni-corrected t-test P = 1.5 × 10-5 and 6.3 × 10-45, respectively). Whole genome sequencing of germline DNA from 51 members of 21 families with low polygenic risk for melanoma identified a CDKN2A p.G101W mutation in a single family but no other candidate high-penetrance melanoma susceptibility genes. This work provides further evidence that melanoma, like many other common complex disorders, can arise from the joint action of multiple predisposing factors, including rare high-penetrance mutations, as well as via a combination of large numbers of alleles of small effect.
AB - Cancers, including cutaneous melanoma, can cluster in families. In addition to environmental etiological factors such as ultraviolet radiation, cutaneous melanoma has a strong genetic component. Genetic risks for cutaneous melanoma range from rare, high-penetrance mutations to common, low-penetrance variants. Known high-penetrance mutations account for only about half of all densely affected cutaneous melanoma families, and the causes of familial clustering in the remainder are unknown. We hypothesize that some clustering is due to the cumulative effect of a large number of variants of individually small effect. Common, low-penetrance genetic risk variants can be combined into polygenic risk scores. We used a polygenic risk score for cutaneous melanoma to compare families without known high-penetrance mutations with unrelated melanoma cases and melanoma-free controls. Family members had significantly higher mean polygenic load for cutaneous melanoma than unrelated cases or melanoma-free healthy controls (Bonferroni-corrected t-test P = 1.5 × 10-5 and 6.3 × 10-45, respectively). Whole genome sequencing of germline DNA from 51 members of 21 families with low polygenic risk for melanoma identified a CDKN2A p.G101W mutation in a single family but no other candidate high-penetrance melanoma susceptibility genes. This work provides further evidence that melanoma, like many other common complex disorders, can arise from the joint action of multiple predisposing factors, including rare high-penetrance mutations, as well as via a combination of large numbers of alleles of small effect.
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U2 - 10.1093/hmg/ddaa156
DO - 10.1093/hmg/ddaa156
M3 - Article
C2 - 32716505
AN - SCOPUS:85092945066
SN - 0340-6717
VL - 29
SP - 2976
EP - 2985
JO - Human Molecular Genetics
JF - Human Molecular Genetics
IS - 17
ER -