Hippocampal CA3 Nex/Neurod6 ⁺ neuron-specific TNFR2 alleviates chronic neuropathic pain by sex-dependently engaging opioid and endocannabinoid pathways

Chronic neuropathic pain (CNP) develops as a result of persistent neuroinflammation and maladaptive synaptic plasticity in the central nervous system following nerve injury. While tumor necrosis factor receptor 2 (TNFR2) signaling has been extensively studied in pain resolution, the expression of this receptor on specific neuronal populations and molecular pathways involved in spontaneous pain recovery still remains poorly defined. In this study, we investigated the role of TNFR2 signaling within hippocampal Nex/Neurod6⁺ pyramidal neurons in promoting recovery from chronic constriction injury (CCI), a well-established rodent model of neuropathic pain. To achieve neuron-specific deletion of TNFR2, we generated tamoxifen-inducible conditional knockout mice (NexCre ^{ERT 2} :TNFR2 ^F/F ). We demonstrate that knocking out TNFR2 from Nex⁺ neurons prevents spontaneous pain recovery in both males and females. Thus, establishing that a supraspinal TNFR2 neuroimmune axis is necessary for pain recovery. Exogenous administration of a TNFR2 agonist at 7, 10, and 13 dpi (i.p.) significantly improved mechanical withdrawal thresholds in both sexes of wild-type mice but did not alleviate pain in Nex-specific TNFR2 knockouts, indicating that neuronal TNFR2 expression is required for TNFR2-mediated analgesia. Bulk RNA sequencing of hippocampal tissue collected at six weeks after CCI revealed that TNFR2 activation upregulates genes such as Pomc, involved in the opioid pathway, and oleoyl-ACP-hydrolase (OLAH), involved in the endocannabinoid pathway. Consistent with these findings, immunostaining and Western blot analyses showed that TNFR2 agonism restored cornu ammonis (CA3) region POMC and β-endorphin protein levels that were otherwise suppressed after CCI. Behavioral experiment demonstrated that systemic blockade of the µ-opioid receptor with naltrexone (administered daily from 7-21 dpi (s.c.)) completely prevented TNFR2-mediated pain recovery in males but only partially in females. In contrast, inhibition of cannabinoid 1 receptor (CB1R) signaling with AM251 (administered at 7, 14, and 21 dpi (i.p.)) abolished TNFR2-driven analgesia in both sexes. Together, these results reveal that hippocampal TNFR2 signaling in Nex/Neurod6⁺ neurons is critical in recovery from chronic neuropathic pain. TNFR2 activation promotes analgesia by engaging endogenous β-endorphin/µ-opioid and endocannabinoid pathways in a sex-dependent manner, establishing TNFR2 agonism as a promising non-addictive therapeutic approach for chronic pain resolution.