N1-methylation of adenosine (m1A) in ND5 mRNA leads to complex I dysfunction in Alzheimer’s disease
Marko Jörg, Johanna E. Plehn, Marco Kristen, Marc Lander, L Walz, Christine Lietz, Julie Wijns, Florian Pichot, Liliana Rojas-Charry, Katja M. Wirtz Martin, Nicolas Ruffini, Nastasja Kreim, Susanne Gerber, Yuri Motorin, Kristina Endres, Walter Rossmanith, Axel Methner, Mark Helm, Kristina Friedland
Abstract
Abstract One mechanism of particular interest to regulate mRNA fate post-transcriptionally is mRNA modification. Especially the extent of m 1 A mRNA methylation is highly discussed due to methodological differences. However, one single m 1 A site in mitochondrial ND5 mRNA was unanimously reported by different groups. ND5 is a subunit of complex I of the respiratory chain. It is considered essential for the coupling of oxidation and proton transport. Here we demonstrate that this m 1 A site might be involved in the pathophysiology of Alzheimer’s disease (AD). One of the pathological hallmarks of this neurodegenerative disease is mitochondrial dysfunction, mainly induced by Amyloid β (Aβ). Aβ mainly disturbs functions of complex I and IV of the respiratory chain. However, the molecular mechanism of complex I dysfunction is still not fully understood. We found enhanced m 1 A methylation of ND5 mRNA in an AD cell model as well as in AD patients. Formation of this m 1 A methylation is catalyzed by increased TRMT10C protein levels, leading to translation repression of ND5. As a consequence, here demonstrated for the first time, TRMT10C induced m 1 A methylation of ND5 mRNA leads to mitochondrial dysfunction. Our findings suggest that this newly identified mechanism might be involved in Aβ-induced mitochondrial dysfunction.