Hyperornithinemia-hyperammonemia-homocitrullinuria (HHH) syndrome is an autosomal recessive metabolic disorder usually presenting in the neonatal period with intermittent episodes of hyperammonemia, psychomotor delay, and progressive encephalopathy. Adult cases usually evolve into frank spastic paraparesis. The syndrome is caused by mutations in SLC25A15/ORNT1 encoding the mitochondrial ornithine transporter; a second ornithine transporter, ORNT2 of unknown function, is also present in most placental mammals. ORNT2 is believed to originate from an ancient retro-transposition event. In yeast Saccharomyces cerevisiae the major function of the transporter (encoded by Arg11) is to shuttle ornithine from the mitochondrial matrix to the cytosol. Its inactivation abolishes growth in the absence of arginine.In this work, we used functional complementation in S. cerevisiae to characterize the function of human ORNT2 and to test the pathogenicity of ORNT1 mutations found in HHH patients. Notably, we found that human ORNT1 but not ORNT2 complements the deletion of the yeast gene, despite their high level of homology. However, we identified some key residues in ORNT2, which may recover its functional competence when replaced with the corresponding residues of ORNT1, suggesting that roles of the two transporters are different. Moreover, we used this system to test a series of missense mutations of ORNT1 identified in patients with HHH syndrome. All mutations had a detrimental effect on the functionality of the human gene, without however clear genotype-phenotype correlations. Our data support yeast as a simple and effective model to validate missense mutations occurring in patients with HHH.
Keywords: HHH; ORNT1; ORNT2; Ornithine; Urea cycle disorder; Yeast model.