Abstract
Protein arginine methyltransferase 5 (PRMT5) catalyzes arginine methylation and regulates cellular functions such as proliferation, RNA splicing, and nuclear DNA damage response. This study uncovers that a fraction of nuclear-encoded PRMT5 localizes to the mitochondria, which is critical for maintaining mitochondrial DNA (mtDNA) homeostasis. PRMT5 knockout (PRMT5(-/-)) cells had reduced nucleoid counts, diminished mtDNA copy numbers, disrupted the balance of the mitochondrial fission-fusion cycle, impaired mitochondrial plasticity, and nucleoid trafficking. PRMT5(-/-) cells are hypersensitive to mtDNA-damaging agents, exhibit reduced mitochondrial transcripts, oxidative phosphorylation, and respiratory capacity that triggers cell death. We identify TFAM as a previously unrecognized interacting partner of PRMT5, which catalyzes symmetric dimethylation of TFAM at R82 residue, which is crucial for mtDNA binding and protection. Defective R82-methylation destabilizes TFAM, which is then degraded by LonP1. Together, we establish that PRMT5 is a mitochondrial enzyme and a key regulator of TFAM in mtDNA maintenance.