Abstract 4510: KIT melanomas are developmentally racially biased

KIT is a critical pathway for melanocytic homeostasis and it is often down-regulated in cutaneous melanoma. However, KIT activation plays a critical role in a subpopulation of melanomas especially those in acral locations and melanomas on chronically sun damaged skin. We analyzed exome and RNAseq data from The Cancer Genome Atlas (TCGA) Network (321 cutaneous melanomas in the data set) to identify patterns unique to KIT activation. The melanomas were divided based on known mutually exclusive mutations (BRAF, NRAS and KIT) vs those without (WT). We compared RNA data between each group. KIT group had significantly higher expression of KIT than BRAF, NRAS and WT (p(G/A)T(G) for deamination, and G>T for oxidative damage. UV and deamination appeared inversely proportional, while oxidative damage appeared to be independent of those other two features. KIT and WT had a greater% of non UV high deamination tumoral environments. A fraction of these tumors also had very high oxidative signatures. We then compared 2 KIT subgroups UV vs non UV (absence of CC>TT mutations) for germline ethnicity differences. Asian SNPs were highly increased in non UV subgroup whereas Caucasian SNPs were in UV subgroup. Further, we divided KIT non UV subgroup into deamination and oxidative damage subgroups and compared ethnicity differences. Deamination was significantly higher in Asians whereas oxidative damage was higher in Caucasians. A similar analysis was done to the WT group, where African SNPs were significantly increased in the non UV subgroup and were primarily associated with oxidative damage. This data implies that KIT mutant melanomas develop in a unique genetic and mutational environments and makes this an ideal system to in which study racial disparities at the molecular level. Citation Format: Margaret I. Sanchez, James