Abstract Ultraviolet A (UVA) rays are long wavelengths that can penetrate the deeper layer of the skin and are responsible for the immediate tanning effect. A multitude of natural and artificial sources of UV exposure exist, including UV-emitting lamps that are commonly used in dentistry, cosmetics, and medical laboratories. Recently, several reports suggested that long-term use of UV-nail polish dryers, used for curating nail polish formulas, known as gel, may increase the risk for developing skin cancer. However, no experimental evaluation has been conducted to reveal the effect of radiation released by UV-nail polish dryers on mammalian cells. Here, we address the continuous exposure of clients and employees to UVA light by employing both murine and human primary cell models for irradiation, in an acute and chronic manner, using a UV-dryer machine. We, then, subject the cells to DNA sequencing either by bulk whole-genome sequencing after clonal expansion or by single-molecule duplex sequencing without clonal expansion. Our findings show that UVA-exposed samples manifest an increase of C:G>A:T transversions compared to control cells. The patterns of mutations found in these cells can be recapitulated by mutational signatures previously attributed to reactive oxygen species (ROS), namely COSMIC signatures SBS18/36. These results are further corroborated by the presence of high levels of ROS in irradiated samples, consistent with 8-oxo-7,8-dihydroguanine damage and mitochondrial dysfunction. Importantly, we show that in contrast to UVB exposure, UVA does not induce an increase of C:G>T:A transitions, indicating that different types of ultraviolet light radiation affect DNA through distinctive molecular mechanisms. Finally, re-examination of somatic mutations from skin cancers reported by the International Cancer Genome Consortium (ICGC) reveals that SBS18/36 are ubiquitously present in melanoma and account for 12% of the previously annotated driver mutations. In summary, this study demonstrates that radiation emitted by UV-nail polish dryers can both damage DNA and permanently engrave mutations on the genomes of mammalian cells. Citation Format: Maria Zhivagui, Areebah Hoda, Noelia Valenzuela, Yi-yu Yeh, Jason Dai, Yudou He, Shuvro P. Nandi, Burcak Otlu, Bennett Van Houten, Ludmil Alexandrov. DNA damage and somatic mutations in mammalian cells after irradiation with a nail polish dryer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 2 (Clinical Trials and Late-Breaking Research); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(8_Suppl):Abstract nr LB059.