5' UTR length regulates alternative N-terminal protein isoform production in health and disease

ABSTRACT

The 5' untranslated region (5' UTR) of an mRNA is classically viewed as a regulatory region that controls the amount of protein production, but not the resulting protein sequence. Here, we demonstrate that 5' UTR length plays a direct role in alternative N-terminal protein isoform production by controlling start codon selection. We find that very short 5' UTRs enhance leaky ribosome scanning, thereby promoting the production of truncated alternative N-terminal protein isoforms. We also show that endogenous changes in 5' UTR length due to alternative transcription initiation can tune the relative abundance of alternative N-terminal isoforms from the same gene. In addition, we identify mutations in rare genetic diseases that alter 5' UTR length, including a deletion in the VHL 5' UTR in von Hippel-Lindau disease that shifts translation toward the shorter VHLp19 isoform. Together, our results implicate 5' UTR length as a determinant of alternative N-terminal isoform production and reveal an underappreciated mechanism by which noncoding changes can reshape the proteome.5' UTR length affects the landscape of endogenous alternative N-terminal protein isoformsGeneration of an alternative truncated AKR7A2 isoform is mediated by short 5' UTR lengthAlternative transcription initiation modulates 5' UTR length to tune N-terminal isoform ratiosPathogenic VHL 5' UTR variants perturb N-terminal isoform ratios by altering 5' UTR length.