Knockdown of F1 epsilon subunit decreases mitochondrial content of ATP synthase and leads to accumulation of subunit c

The subunit ε of mitochondrial ATP synthase is the only F₁ subunit without a homolog in bacteria and chloroplasts and represents the least characterized F₁ subunit of the mammalian enzyme. Silencing of the ATP5E gene in HEK293 cells resulted in downregulation of the activity and content of the mitochondrial ATP synthase complex and of ADP-stimulated respiration to approximately 40% of the control. The decreased content of the ε subunit was paralleled by a decrease in the F₁ subunits α and β and in the F_o subunits a and d while the content of the subunit c was not affected. The subunit c was present in the full-size ATP synthase complex and in subcomplexes of 200–400 kDa that neither contained the F₁ subunits, nor the F_o subunits. The results indicate that the ε subunit is essential for the assembly of F₁ and plays an important role in the incorporation of the hydrophobic subunit c into the F₁-c oligomer rotor of the mitochondrial ATP synthase complex.