Impaired Mitochondrial Morphology and Functionality in Lonp1wt/- Mice

LONP1 is a nuclear-encoded mitochondrial protease crucial for organelle homeostasis; mutations ofLONP1have been associated with Cerebral, Ocular, Dental, Auricular, and Skeletal anomalies (CODAS) syndrome. To clarify the role of LONP1 in vivo, we generated a mouse model in whichLonp1was ablated. The homozygousLonp(-/-)mouse was not vital, while the heterozygousLonp1(wt/-)showed similar growth rate, weight, length, life-span and histologic features as wild type. Conversely, ultrastructural analysis of heterozygous enterocytes evidenced profound morphological alterations of mitochondria, which appeared increased in number, swollen and larger, with a lower complexity. Embryonic fibroblasts (MEFs) fromLonp1(wt/-)mice showed a reduced expression ofLonp1andTfam, whose expression is regulated by LONP1. Mitochondrial DNA was also reduced, and mitochondria were swollen and larger, albeit at a lesser extent than enterocytes, with a perinuclear distribution. From the functional point of view, mitochondria from heterozygous MEF showed a lower oxygen consumption rate in basal conditions, either in the presence of glucose or galactose, and a reduced expression of mitochondrial complexes than wild type. In conclusion, the presence of one functional copy of theLonp1gene leads to impairment of mitochondrial ultrastructure and functions in vivo.