The monoacylglycerol lipase inhibitor KML29 with gabapentin synergistically produces analgesia in mice

Background and Purpose: Gabapentin is commonly prescribed for nerve pain but may also cause dizziness, sedation and gait disturbances. Similarly, inhibition of the endogenous cannabinoid enzyme monoacylglycerol lipase (MAGL) has antinociceptive and anti‐inflammatory properties but also induces sedation in mice at high doses. To limit these side effects, the present study investigated the analgesic effects of coadministering a MAGL inhibitor with gabapentin. Experimental Approach Mice subjected to the chronic constriction injury model of neuropathic pain were administered the MAGL inhibitor KML29 (1–40 mg·kg$^{−1}$, i.p.), gabapentin (1–50 mg·kg$^{−1}$, i.p.) or both compounds. Mice were tested for mechanical and cold allodynia. The function and expression of cannabinoid CB$_{1}$ receptors in whole brain homogenates and lipid profile of spinal cords were assessed after repeated drug administration. Key Results The combination of low‐dose KML29:gabapentin additively attenuated mechanical allodynia and synergistically reduced cold allodynia. The CB$_{1}$ antagonist, rimonabant, partially reversed the anti‐allodynic effects of KML29:gabapentin in mechanical allodynia but not cold allodynia. The anti‐allodynic effects of KML29:gabapentin did not undergo tolerance in mechanical allodynia after repeated administration but produced mild tolerance in cold allodynia. High dose KML29 alone reduced CB$_{1}$ receptor expression and function, but KML29:gabapentin reduced the density of CB$_{1}$ receptors but did not alter their function. KML29:gabapentin influenced additional signalling pathways (including fatty acids) other than the pathways activated by a higher dose of either drug alone. Conclusion and Implications These data support the strategy of combining MAGL inhibition with a commonly prescribed analgesic as a therapeutic approach for attenuating neuropathic pain.

Publication Date:
Nov 20 2017
Date Submitted:
Aug 10 2018
British Journal of Pharmacology
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 Record created 2018-08-10, last modified 2019-04-03

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