Differential physical interactions of wild-type and S59L mutant CHCHD10 with mitochondrial proteases

Abstract

Background CHCHD10 is a small mitochondrial protein with a C-terminal coiled-coil-helix–coiled-coil-helix domain. The N-terminal region of CHCHD10 is mostly intrinsically disordered. Therefore, CHCHD10 has no catalytic activity other than protein-protein interactions through the CHCH domain or intrinsically disordered region. The S59L mutation in CHCHD10 has been identified as a genetic cause of amyotrophic lateral sclerosis and frontotemporal dementia. However, the disease-causing mechanisms of CHCHD10S59L are not yet fully understood. Our previous study showed that CHCHD10S59L induces PINK1 and Parkin accumulation. PINK1 stabilization in the mitochondria is dependent on proteolytic processing by mitochondrial proteases. It has also been reported that mutant CHCHD10 disrupts protein homeostasis within mitochondria. Therefore, we hypothesized that CHCHD10S59L physically interacts with mitochondrial proteases during the disease pathogenesis. Methods To test this hypothesis, we performed co-immunoprecipitation using transiently transfected wild-type and mutant S59L CHCHD10 in HeLa cells. We employed a dithiobis (succinimidyl propionate) cross-linker to detect transient physical interactions. Results We expected that CHCHD10S59L may activate mitochondrial protease processing or expression and that it interacts with more diverse mitochondrial proteases than the wild type. In general, however, there was no difference in the expression and processing levels of mitochondrial proteases and the proteases that interact with wild-type and CHCHD10S59L. LonP1 degrading unfolded proteins in the mitochondrial matrix was the major proteases that can bind to wild-type CHCHD10 and CHCHD10S59L. LonP1 and HtrA2 were significantly less strongly bound to CHCHD10S59L. Conclusions This result can be interpreted in many different ways, including the regulatory role of CHCHD10 in mitochondrial proteases. However, more precise biochemical and cell biological investigations are required to determine the role of CHCHD10 in the activity of mitochondrial proteases, mechanism of PINK1 stabilization, and disruption of mitochondrial proteostasis.