Improvement of cerebral metabolism mediated by Ro5-4864 is associated with relief of intracranial pressure and mitochondrial protective effect in experimental Brain injury

Purpose: To investigate the possible impact of reduction of mitochondrial membrane permeabilization by modulation of the 18 kDa translocator protein mediated by Ro5-4864 over post-traumatic cerebral edema and metabolic crisis. Methods: Cerebral microdialysis and intracranial pressure (ICP) monitoring were performed in Sprague-Dawley rats treated by intraperitoneal injection of either dimethylsulfoxide (vehicle) or Ro5-4864 following cortical contusion and further correlated with quantitative assessment of mitochondrial damage, water content in the injured tissue, modified neurological severity score, and lesion size. Results: Ro5-4864 resulted in a profound decrease in ICP that correlated with improved cerebral metabolism characterized by significantly higher glucose and pyruvate and lower lactate concentrations in the pericontusional area in comparison with vehicle-treated animals. Reduced ICP correlated with reduced water content in the injured tissue; improved metabolism was associated with reduced mitochondrial damage evidenced by electron microscopy. Both effects were associated with a profound and significant reduction in glycerol release and lesion size, and correlated with improved neurological recovery. Conclusions: The present study shows that Ro5-4864 has a favorable effect on the fate of injured brain, presumably mediated by improvement of metabolism. It further suggests that improvement of metabolism may contribute to ICP relief.