Abstract
Neuropathic pain (NP) affects global public health problem and remains inadequately controlled by existing drugs. A class of plant-derived iridoids, predominantly glycosides found in traditional Chinese medicine like Lamiophlomis rotata (Benth). Kudo, have recently emerged as promising neuroprotective substances. Here we systematically review pre-clinical efficacy and mechanisms of iridoids across various rodent models of NP. The studies selected for inclusion in this review were those that primarily focused on examining the phytochemical properties and the pharmacological mechanisms related to iridoids. Iridoid glycosides including loganin, catalpol, geniposide, gardenoside, shanzhiside methyl ester, 8-O-acetyl-shanzhiside methyl ester, picroside II and aucubin and seco-iridoid glycosides such as morroniside, gentiopicroside and oleuropein consistently reverse mechanical allodynia and thermal hyperalgesia with ED(50) values ranging from 5 μg (intrathecal) to 130-250 mg/kg (oral), without tolerance after repeated dosing. Mechanistically, iridoid glycosides exert anti-neuropathic effects through a multifaceted mechanism involving anti-inflammatory, antioxidant, glial modulatory, neuroprotective, and potentially neurotransmitter-modulating actions. Additionally, compared with gabapentin, duloxetine or tramadol, iridoids achieve equivalent analgesia accompanied by favorable safety indices and ancillary anxiolytic and antidepressant effects. The main translational gap from the absence of chronic-progressive or primate validation studies, as well as the lack of large-scale clinical trials needed to establish their efficacy and safety in human populations. Collectively, plant-derived iridoids represent mechanistically novel, multi-target and safe candidate ingredients for NP, addressing the major unmet need for efficacy and tolerability beyond current standard of care. Future work should integrate high-quality clinical evidence to accelerate the development of iridoid-based therapeutics for NP.