Background
Neuropathic pain in small-fiber neuropathy
Conclusions
This study revealed that functional PAP(þ) neurons are essential for the analgesic effect, which is mediated by NGF-trkA signaling.
Results
We used a resiniferatoxin (RTX)-induced small-fiber neuropathy model to examine whether functional PAP(þ) neurons are essential to maintain the analgesic effect. PAP(þ) neurons were categorized into small to medium neurons (25th-75th percentile: 17.1-23.7 mm); these neurons were slightly reduced by RTX (p¼0.0003). By contrast, RTX-induced activating transcription factor 3 (ATF3), an injury marker, in PAP(þ) neurons (29.0%5.6% vs. 0.2%0.2%, p¼0.0043), indicating PAP neuropathology. Moreover, the high-affinity nerve growth factor (NGF) receptor (trkA) colocalized with PAP and showed similar profiles after RTX-induced neuropathy, and the PAP/trkA ratios correlated with the degree of mechanical allodynia (r¼0.62, p¼0.0062). The NGF inducer 4-methylcatechol (4MC) normalized the analgesic effects of PAP; specifically, it reversed the PAP and trkA profiles and relieved mechanical allodynia. Administering 2.5S NGF showed similar results to those of administering 4MC. This finding suggests that the analgesic effect of functional PAP is mediated by NGF-trkA signaling, which was confirmed by NGF neutralization. Conclusions: This study revealed that functional PAP(þ) neurons are essential for the analgesic effect, which is mediated by NGF-trkA signaling.