Catalase in Unexpected Places: Revisiting H2O2 Detoxification Pathways in Stallion Spermatozoa.

Oxidative stress plays a critical role in regulating sperm function, yet species-specific antioxidant mechanisms remain poorly understood. This study compared hydrogen peroxide (H₂O₂) tolerance in horse and human sperm and investigated the roles of catalase and glutathione peroxidase (GPx) in horses. A H₂O₂ dose-response assay (0-2000 µM) showed that horse sperm were significantly more resistant to oxidative damage, with an IC₅₀ for progressive motility over 14-fold higher than that of human sperm (391.6 µM vs. 27.3 µM). Horse sperm also accumulated more intracellular H₂O₂ without loss of motility or viability. DNA damage assays (Halo and SCSA) revealed H₂O₂-induced fragmentation in human but not horse sperm. Enzyme inhibition experiments in horse sperm using 3-amino-1,2,4-triazole (catalase inhibitor) and (1S,3R)-RSL3 (GPx inhibitor) at 250 µM H₂O₂ showed that catalase inhibition severely impaired motility and increased intracellular H₂O₂ > 100-fold, while GPx inhibition had a milder effect (~5-fold increase). Immunocytochemistry localized catalase to the sperm head, particularly the post-acrosomal region, challenging the notion that sperm lack peroxisomes. The dependence of horse sperm on oxidative phosphorylation may drive the need for enhanced antioxidant defenses. These findings reveal species-specific oxidative stress adaptations and highlight catalase as a key antioxidant in equine sperm.