Background/Objectives: Melanoma is one of the deadliest types of skin cancer due to its ability to metastasize if not treated early. While targeted- and immune- therapies have significantly improved melanoma treatment outcomes, acquired drug resistance even with combined therapeutics remain prevalent. SIRT6 is a nuclear histone deacetylase that regulates DNA repair, metabolism, and chromatin remodeling. It is overexpressed in melanoma and its inhibition in melanoma is known to have anti-proliferative response, and alterations in pathways related to cell cycle, senescence, and metastasis. Methods: To deepen our understanding of the role of SIRT6 in melanoma, in this study we utilized RNA sequencing, proteomics, and Ingenuity Pathway Analysis on genetically modified human melanoma cells to determine the downstream mechanism of SIRT6 in melanoma. Results: SIRT6 knock down (KD) in A375 and G361 melanoma cells, with CRISPR/Cas9 or shRNA techniques, resulted in a significant decrease in proliferation and clonogenic survival of the cells. SIRT6 KD caused an altered expression of multiple genes associated with cell proliferation, mitotic regulation, invasion, cell death/senescence, and immunomodulation, including AURKB, ANLN, MYC, FOXM1, RABL6, E2F2, TP53, RBL1, OSM, TNF, IL1B, IL6 and IFNG. Comparative analysis at both transcription and translation levels revealed coordinated downregulation of proliferation, invasion, and migration and upregulation of targets related to cell death, apoptosis, and necrosis. Multi-omics analysis also predicted downregulation of signaling networks associated with MAP3K20, MYC, MKNK, and HMGCR. Conclusions: Given its involvement in tumorigenesis, this study underlines the importance of SIRT6 in melanoma and provides support to its potential as a novel therapeutic target for melanoma.