Most mitochondrial proteins are synthesized in the cytosol and targeted to mitochondria via N-terminal mitochondrial targeting signals (MTS) that are proteolytically removed upon import. Sometimes, MTS removal is followed by a cleavage of an octapeptide by the mitochondrial intermediate peptidase (MIP), encoded by the MIPEP gene. Previously, MIPEP variants were linked to four cases of multisystemic disorder presenting with cardiomyopathy, developmental delay, hypotonia and infantile lethality. We report here a patient carrying compound heterozygous MIPEP variants-one was not previously linked to mitochondrial disease-who did not have cardiomyopathy and who is alive at the age of 20 years. This patient had developmental delay, global hypotonia, mild optic neuropathy and mild ataxia. Functional characterization of patient fibroblasts and HEK293FT cells carrying MIPEP hypomorphic alleles demonstrated that deficient MIP activity was linked to impaired post-import processing of subunits from four of the five OXPHOS complexes and decreased abundance and activity of some of these complexes in human cells possibly underlying the development of mitochondrial disease. Thus, our work expands the genetic and clinical spectrum of MIPEP-linked disease and establishes MIP as an important regulator of OXPHOS biogenesis and function in human cells.
Keywords: MIP; MIPEP; Mitochondrial disease; Mitochondrial intermediate peptidase; OXPHOS assembly defect; Protein processing.
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