Mitochondrial dysfunction has been demonstrated in aging and osteoarthritic tissues. We investigated knee joints of prematurely aging mitochondrial DNA mutator mice (PolgD275A) to evaluate a relationship between mitochondrial dysfunction and osteoarthritis.

Cartilage damage was evaluated using OARSI histopathology grading and osteoclast numbers were quantified by tartrate-resistant acid phosphatase staining in wild type, heterozygous and homozygous PolgD275A mice. Subchondral cortical plate and epiphyseal trabecular bone structures were determined by micro-computed tomography. Apoptosis in cartilage and subchondral bone tissues was studied using an indirect TUNEL method.

Homozygous mutants displayed osteopenia of the epiphyseal trabecular bone and subchondral cortical plate in comparison to wild type and heterozygous mutants. Subchondral osteopenia was associated with a strong increase of osteoclast numbers (0.88±0.30/mm bone perimeter) compared to heterozygous (0.25±0.03/mm) and wild type mice (0.12±0.04/mm). Wild type mice as well as hetero- and homozygous mutants displayed low-grade cartilage degeneration due to loss of cartilage proteoglycans. In contrast, chondrocyte hypertrophy was more abundant in the homozygous mice. There were no differences in chondrocyte apoptosis rates between groups.

Prematurely ageing mtDNA mutator mice with or without further mechanic or metabolic stimuli might serve as a valuable model for further experimental studies on aging-induced osteoporotic OA phenotype.