Evaluation of the sodium-glutamate blocker riluzole in a preclinical model of ervical spinal cord injury

Basic research Introduction: Because sodium and glutamate play integrated roles in the pathology of spinal cord injury (SCI), there is intense interest in the potential role of the sodium-glutamate blocker riluzole as a neuroprotective agent for spinal cord injury. A phase I safety clinical trial of riluzole is about to commence in the USA and Canada. The key challenges in translating riluzole to the clinic relate to uncertainty regarding the time window for post-injury administration of riluzole and the optimal dose. Hence, the current study was undertaken to study these issues in a preclinical model of cervical SCI in rodents. Adult female rats received moderate cervical spinal cord clip compression injury (35 g × 1 min at C7-T1) and were randomly assigned to one of the following three groups (n = 12/group): a) 8 mg/kg of riluzole intraperitoneally at 1 hour (P1 group) ; b) 3 hours (P3 group) after injury or c) a control group (vehicle). The P1 and P3 groups then received 6 mg/kg of riluzole intraperitoneally every 12 hours for 7 days. A smaller group of rats (n = 10) received a higher dose (8 mg/kg IP Q12 h for 7 days) of riluzole following the initial dosing. Functional recovery was tested by open field locomotion (BBB score, BBB subscore) and grid walk. Sensory function (tactile allodynia) was assessed by quantitative von Frey filament testing. Somatosensory evoked potentials (SSEP) were performed to quantitatively assess central axonal conduction. Western blotting for neurofilament 200 (NF200) was used to assess axonal integrity. Quantitative image analysis of lesion histology (HE/LFB stained sections) was undertaken to assess tissue sparing at the injury site. High performance liquid chromatography (HPLC) was used to test pharmacokinetics of riluzole. ANOVA followed by the Tukey's post-hoc testing was used to compare the results. A total of 92.3% of injured rats that received repeated dose of 6 mg/kg riluzole survived during the term of 6 weeks, showing tolerance to this dosage. In contrast, higher doses of riluzole (8mg/kg IP q12h post-injury) were associated with significant respiratory depression and high mortality (7/10 rats). Riluzole treatment (P1 group) decreased the functional deficit significantly (P < 0.05) at 6 weeks after injury by showing 11.4 in BBB, 3.8 in BBB subscore and 2.8 in grid walk test, compared with 10.25 in BBB, 1.1 in BBB subscore, and 8.0 in grid walk test of control group (Figure 1). Quantitative analysis of SSEPs co