Uveal melanoma, the most common eye cancer in adults, remains limited to surgical intervention and radiotherapy, with a dismal survival rate that has not improved in over 50 years. To address this therapeutic impasse, we systematically analyzed public gene expression and CRISPR knockout datasets, identifyingas an essential gene specifically for uveal melanoma. RasGRP3 is uniquely overexpressed and essential for survival in uveal melanoma cells, but dispensable in healthy cells. However, RasGRP3 remains "undruggable" due to its intracellular localization and lack of targetable binding pockets. To overcome this, we developed a CRISPR-Cas13d RNA-targeting therapeutic against RasGRP3, which mediates potent yet selective uveal melanoma killing through two synergistic mechanisms: (1) on-target knockdown of the essential RasGRP3 mRNA, and (2) collateral RNA degradation triggered by the cleavage of overexpressed RasGRP3. When deliveredvia optimized lipid nanoparticles loaded with Cas13d mRNA and guide RNA, this strategy eliminated >97% of uveal melanoma cells while sparing healthy cells, including retinal pigment epithelial cells. This approach outperformed conventional Cas9 and siRNA methods in potency without inducing permanent genomic alterations. Our findings establish an RNA-targeting therapeutic for uveal melanoma and a framework for Cas13-based interventions against other "undruggable" cancers. RASGRP3in vitro