Abstract
HTRA2 is a mitochondrial protein, mutations in which are associated with autosomal dominant late-onset Parkinson’s disease (PD). The mechanisms by which HTRA2 mutations result in PD are poorly understood. HTRA2 is proposed to play a proteolytic role in protein quality control and homeostasis in the mitochondrial intermembrane space. Its loss has been reported to result in accumulation of unfolded and misfolded proteins. However, in at least one case, PD-associated HTRA2 mutation can cause its hyperphosphorylation, possibly resulting in protease hyperactivity. The consequences of overactive mitochondrial HTRA2 are not clear. Dictyostelium discoideum provides a well-established model for studying mitochondrial dysfunction, such as has been implicated in the pathology of PD. We identified a single homologue of human HTRA2 encoded in the Dictyostelium discoideum genome and showed that it is localized to the mitochondria where it plays a cytoprotective role. Knockdown of HTRA2 expression caused defective morphogenesis in the multicellular phases of the Dictyostelium life cycle. In vegetative cells, it did not impair mitochondrial respiration but nonetheless caused slow growth (particularly when the cells were utilizing a bacterial food source), unaccompanied by significant defects in the requisite endocytic pathways. Despite its protective roles, we could not ectopically overexpress wild type HTRA2, suggesting that mitochondrial HTRA2 hyperactivity is lethal. This toxicity was abolished by replacing the essential catalytic serine S300 with alanine to ablate serine protease activity. Overexpression of protease-dead HTRA2 phenocopied the effects of knockdown, suggesting that the mutant protein competitively inhibits interactions between wild type HTRA2 and its binding partners. Our results show that cytopathological dysfunction can be caused either by too little or too much HTRA2 activity in the mitochondria and suggest that either could be a cause of PD.
Highlights
Mammalian HTRA2 is a nuclear-encoded mitochondrial serine protease which is expressed as a 49 kDa precursor protein that is cleaved to a 38 kDa mature protein upon import into the mitochondria [1]
A Single Homologue of Human HTRA2 Is Encoded in the Dictyostelium discoideum Genome and Localized in the Mitochondria
A Single Homologue of Human HTRA2 Is Encoded in the Dictyostelium discoideum Genome and human HTRA2 [33] as Localized the query sequence identified a single homologous protein
Summary
Mammalian HTRA2 is a nuclear-encoded mitochondrial serine protease which is expressed as a 49 kDa precursor protein that is cleaved to a 38 kDa mature protein upon import into the mitochondria [1]. The role of HTRA2 in PD pathogenesis is thought to result from loss of its ability to remove misfolded or damaged mitochondrial proteins through its serine protease function. Mutations to this function result in the accumulation and aggregation of proteins, which is characteristic of PD. Amino acid substitutions (A141S, G399S) close to this and another phosphorylation site (S400) have been implicated in PD and are believed to act by inhibiting phosphorylation and enzyme activity [13]
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