Biallelic variants in CHCHD4 are associated with combined OXPHOS defect leading to mitochondrial disease.

Abstract

Mitochondrial disorders show remarkable clinical and genetic heterogeneity, and result from variants in either mitochondrial- or nuclear-encoded genes. CHCHD4 is a component of the mitochondrial import and assembly pathway that imports small cysteine-containing substrates. We report a pediatric patient with biallelic CHCHD4 variants who presented with severe neurological regression and early death. Western blot analysis showed decreased levels of CHCHD4 and diminished assembly of complexes I and IV in his fibroblasts. To demonstrate that CHCHD4 variants were responsible for the observed biochemical phenotype, we overexpressed wild-type CHCHD4 in control and subject fibroblasts, restoring levels of complex I and IV proteins and the associated assembly defects Proteomic studies pointed to electron transport and complex I biogenesis as the main dysregulated pathways and showed a severe loss of several complex I and IV proteins and/or assembly factors rescued by overexpression of wild-type CHCHD4. CHCHD4 has numerous targets and interacting factors and is involved in the export of iron-sulfur clusters synthesized inside mitochondria. Surprisingly, few of these interacting factors or non-mitochondrial functions were impacted by the observed CHCHD4 defect. In conclusion, our work establishes CHCHD4 deficiency as a cause of dysregulated mitochondrial protein import resulting in a severe neurological condition.