Background and Purpose: Changes to spinal glycinergic signalling are a feature of pain chronification. Normalising those changes by inhibiting glycine transporter-2 (GlyT2) is a promising treatment strategy. However, existing GlyT2 inhibitors e.g. ORG25543 are limited by narrow therapeutic windows and severe dose-limiting side effects such as convulsions, and are therefore poor candidates for clinical development. Experimental Approach: Analgesic and side-effect properties of intraperitoneally administered oleoyl-D-lysine, a lipid-based GlyT2 inhibitor, were characterised in mice. Analgesia was assessed in models of chronic neuropathic and inflammatory pain via the von Frey test, and acute nociception via hotplate. Side effects were scored via numerical rating scale, convulsions score, the Rotarod test and whole-body plethysmography for respiratory depression. Key Results: Oleoyl-D-lysine produced significant analgesia/anti-allodynia in the model for chronic neuropathic pain but not for chronic inflammatory or acute pain. No side effects were seen at the peak analgesic dose, 30 mg kg-1. Mild side effects were observed at the highest dose, 100 mg kg-1, in the numerical rating score, but no convulsions. These results contrasted markedly with ORG25543, which produced significant analgesia only at the lethal or near-lethal dose of 50 mg kg-1. At this dose, ORG25543 caused severe side effects on the numerical rating score, severe convulsions, and Rotarod impairment. Oleoyl-D-lysine (30 mg kg-1) did not cause any respiratory depression, a problematic side effect of opiates. Conclusions and Implications: Oleoyl-D-lysine safely and effectively reverses neuropathic pain in mice. GlyT2 inhibitors may be better suited to treating pain of neuropathic origin over other pain aetiologies.