The significance of Arabidopsis AAA proteases for activity and assembly/stability of mitochondrial OXPHOS complexes

Abstract

The Arabidopsis genome encodes four mitochondrially localized adenosine 5′‐triphosphate‐dependent metalloproteases called FtsH or AAA proteases. All of them span the inner mitochondrial membrane but the catalytic site of two of them (AtFtsH4 and AtFtsH11) faces the intermembrane space, while AtFtsH3 and AtFtsH10 face the matrix. We used a combination of blue‐native polyacrylamide gel electrophoresis and histochemical staining to reveal the consequences of the loss of one of mitochondrial FtsHs on the efficiency of the oxidative phosphorylation system in Arabidopsis mitochondria. To address this issue, we have selected homozygous lines of respective transferred DNA (T‐DNA) insertional mutants. A decrease in the activity of complexes I and V but not complex IV was observed in the ftsh mutants, except for the mutant lacking functional FtsH11. The reduced activity of complexes I and V was well correlated with a decreased protein level of these complexes. Western blots experiments using specific antibodies against complex V subunits showed a significant reduction of these subunits only in the ftsh4 mutant. Taken together, our results reveal a role of FtsH3, FtsH4 and FtsH10 proteases in the biogenesis of a plant oxidative phosphorylation system.