Abstract PR001: Codon-bias and tRNA modifications as drivers of melanoma metastasis

Abstract

Abstract Only tumor cells that are able to enhance their stress response pathways, are able to successfully metastasize and colonize distant organs. In yeast, reprogramming of translation through modification of the tRNA anticodon loop in response to stress has been shown to be a central adaptive mechanism of survival. Distinct tRNA modifications increase translational efficiency of certain codons. These modifications are upregulated and are essential for survival under a range of stressors, including oxidative stress. The adaptive proteome is therefore encoded by specific transcripts with a distinct codon bias and regulated by these tRNA modifications. We have identified several stress-induced tRNA anticodon loop modifications in metastasizing melanoma cells that drive codon-biased translation of the adaptive pro-metastatic proteome. One of these modifications specifically regulates stress-induced translation of selenocysteine-containing proteins. Selenoproteins are central to stress resistance including oxidative and proteotoxic stress. We have identified and characterized the methyltransferase that regulates this modification and enables translation of the metastatic selenoproteome. More broadly, by combining biochemical approaches with in vivo models of melanoma metastasis, we have now identified several other enzymes responsible for multiple tRNA anticodon modifications as novel and targetable drivers of metastatic disease. Our work aims to establish how tRNA anticodon modifications and a distinct codon bias reprogram the metastatic proteome as a therapeutically targetable stress response mechanism. Citation Format: Elena Piskounova. Codon-bias and tRNA modifications as drivers of melanoma metastasis [abstract]. In: Proceedings of the AACR Special Conference: Cancer Metastasis; 2022 Nov 14-17; Portland, OR. Philadelphia (PA): AACR; Cancer Res 2022;83(2 Suppl_2):Abstract nr PR001.