AbstractMitochondrial disease is a debilitating condition with a diverse genetic aetiology. Here, we report that TMEM126A, a protein that is mutated in patients with autosomal recessive optic atrophy, participates directly in the assembly of mitochondrial complex I. Using a combination of genome editing, interaction studies and quantitative proteomics, we find that loss of TMEM126A results in an isolated complex I deficiency and that TMEM126A interacts with a number of complex I subunits and assembly factors. Pulse-labelling interaction studies reveal that TMEM126A associates with the newly synthesised mtDNA-encoded ND4 subunit of complex I. Our findings indicate that TMEM126A is involved in the assembly of the ND4 distal membrane module of complex I. Importantly, we clarify that the function of TMEM126A is distinct from its paralogue TMEM126B, which acts in assembly of the ND2-module of complex I, helping to explain the differences in disease aetiology observed between these two genes.
Disproportionate Deficiency of Iron-Sulfur Clusters and Subunits of Complex I in Mitochondrial Encephalomyopathy
