Mechanistic insights into mitochondrial tRNAAla 3′-end metabolism deficiency

Mitochondrial tRNA 3'-end metabolism is critical for the formation of functional tRNAs. Deficient mitochondrial tRNA 3'-end metabolism is linked to an array of human diseases, including optic neuropathy, but their pathophysiology remains poorly understood. In this report, we investigated the molecular mechanism underlying the Leber's hereditary optic neuropathy (LHON)-associated tRNA(Ala) 5587A>G mutation, which changes a highly conserved adenosine at position 73 (A73) to guanine (G73) on the 3'-end of the tRNA acceptor stem. The m.5587A>G mutation was identified in three Han Chinese families with suggested maternal inheritance of LHON. We hypothesized that the m.5587A>G mutation altered tRNA(Ala) 3'end metabolism and mitochondrial function. In vitro processing experiments showed that the m.5587A>G mutation impaired the 3'-end processing of tRNAAla precursors by RNase Z and inhibited the addition of CCA by tRNA nucleotidyltransferase (TRNT1). Northern blot analysis revealed that the m.5587A>G mutation perturbed tRNA(Ala) aminoacylation, as evidenced by decreased efficiency of aminoacylation and faster electrophoretic mobility of mutated tRNA(Ala) in these cells. The impact of m.5587A>G mutation on tRNA(Ala) function was further supported by increased melting temperature, conformational changes, and reduced levels of this tRNA. Failures in tRNA(Ala) metabolism impaired mitochondrial translation, perturbed assembly and activity of oxidative phosphorylation complexes, diminished ATP production and membrane potential, and increased production of reactive oxygen species. These pleiotropic defects elevated apoptotic cell death and promoted mitophagy in cells carrying the m.5587A>G mutation, thereby contributing to visual impairment. Our findings may provide new insights into the pathophysiology of LHON arising from mitochondrial tRNA 3'-end metabolism deficiency.

Automated summary

The study investigated the molecular mechanism underlying the Leber's hereditary optic neuropathy (LHON)-associated tRNA(Ala) 5587A>G mutation, which alters tRNA(Ala) 3'-end metabolism and impairs mitochondrial function. The mutation perturbed tRNA(Ala) aminoacylation, mitochondrial translation, oxidative phosphorylation, ATP production, membrane potential, and increased reactive oxygen species production, ultimately leading to visual impairment. The findings may provide new insights into the pathophysiology of LHON arising from mitochondrial tRNA 3'-end metabolism deficiency.