Selection of oncogenic mutant clones in normal human skin varies with body site

Joanna Fowler, Charlotte King, Christopher Bryant, Michael Hall, Roshan Sood, Swee Hoe Ong, Eleanor Earp, David Fernandez-Antoran, Jonas Koeppel, Stefan Dentro, David Shorthouse, Amer Durrani, Kate Fife, Edward Rytina, Doreen Milne, Amit Roshan, Krishnaa Mahububani, Kourosh Saeb-Parsy, Benjamin Hall, and Moritz Gerstung, Philip H Jones. Selection of oncogenic mutant clones in normal human skin varies with body site. Cancer Discovery, October 21 (2020). https://doi.org/10.1158/2159-8290.CD-20-1092

Skin cancer risk varies substantially across the body, yet how this relates to the mutations found in normal skin is unknown. Here we mapped mutant clones in skin from high- and low-risk sites. The density of mutations varied by location. The prevalence of NOTCH1 and FAT1 mutations in forearm, trunk, and leg skin was similar to that in keratinocyte cancers. Most mutations were caused by ultraviolet light, but mutational signature analysis suggested differences in DNA-repair processes between sites. Eleven mutant genes were under positive selection, with TP53 preferentially selected in the head and FAT1 in the leg. Fine-scale mapping revealed 10% of clones had copy-number alterations. Analysis of hair follicles showed mutations in the upper follicle resembled adjacent skin, but the lower follicle was sparsely mutated. Normal skin is a dense patchwork of mutant clones arising from competitive selection that varies by location.

Mapping mutant clones across the body reveals normal skin is a dense patchwork of mutant cells. The variation in cancer risk between sites substantially exceeds that in mutant clone density. More generally, mutant genes cannot be assigned as cancer drivers until their prevalence in normal tissue is known.

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