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Functionally dominant hotspot mutations of mitochondrial ribosomal RNA genes in cancer

Sonia Boscenco, Jacqueline Tait-Mulder, Minsoo Kim, Cerise Tang, Tricia Park, Flora McNulty, Sérgio Lilla, Sara Zanivan, Alejandro Huerta Uribe, Benan Nalbant, Mark Zucker, David Sumpton, Geoffray Monteuuis, Christopher B. Jackson, Wei Wei, Patrick F. Chinnery, Ronan Chaligné, Caleb A. Lareau, Ed Reznik, Payam A. Gammage

2025Nature Genetics7 citationsDOIOpen Access PDF

Abstract

The vast majority of recurrent somatic mutations arising in tumors affect protein-coding genes in the nuclear genome. Here, through population-scale analysis of 14,106 whole tumor genomes, we report the discovery of highly recurrent mutations affecting both the small (12S, MT-RNR1) and large (16S, MT-RNR2) mitochondrial RNA subunits of the mitochondrial ribosome encoded within mitochondrial DNA (mtDNA). Compared to non-hotspot positions, mitochondrial rRNA hotspots preferentially affected positions under purifying selection in the germline and demonstrated structural clustering within the mitoribosome at mRNA and tRNA interacting positions. Using precision mtDNA base editing, we engineered models of an exemplar MT-RNR1 hotspot mutation, m.1227G>A. Multimodal profiling revealed a heteroplasmy-dependent decrease in mitochondrial function and loss of respiratory chain subunits from a heteroplasmic dosage of ~10%. Mutation of conserved positions in ribosomal RNA that disrupt mitochondrial translation therefore represent a class of functionally dominant, pathogenic mtDNA mutations that are under positive selection in cancer genomes.

Topics & Concepts

BiologyHeteroplasmyMitochondrial DNAGeneticsMitochondrial ribosomeMT-RNR1Transfer RNARibosomal RNAGeneSomatic cellMitochondrial diseaseHuman mitochondrial geneticsGermlineMitochondrionRibosomeDNAJA3Germline mutationRNAMolecular biologyMutationMitochondrial respiratory chainPoint mutationmtDNA control regionGenomeNegative selectionSilent mutationRibosomal proteinRespiratory chainDNAMitochondrial Function and PathologyRNA and protein synthesis mechanismsATP Synthase and ATPases Research