Approximately 30% of patients with cancer pain experience concurrent neuropathic pain. Since these patients are not sufficiently responsive to morphine, the development of an effective method of pain relief is urgently needed. Decreased function of the μ opioid receptor, which binds to the active metabolite of morphine M-6-G in the brain, has been proposed as a mechanism for morphine resistance. Previously, we pharmacokinetically examined morphine resistance in mice with neuropathic pain, and demonstrated that the brain morphine concentration was decreased, expression level of P-glycoprotein (P-gp) in the small intestine was increased, and expression level and activity of uridine diphosphate glucuronosyltransferase (UGT)2B in the liver were increased. In order to clarify the mechanism of the increased expression of UGT2B, we examined the phase of neuropathic pain during which UGT2B expression in the liver begins to increase, and whether this increased expression is nuclear receptor-mediated. The results of this study revealed that the increased expression of UGT2B in the liver occurred during the maintenance phase of neuropathic pain, suggesting that it may be caused by transcriptional regulation which was not accompanied by increased nuclear import of pregnane X receptor (PXR).