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Highly specific σ 2 R/TMEM97 ligand FEM-1689 alleviates neuropathic pain and inhibits the integrated stress response.

Muhammad Saad YousufJames J SahnHongfen YangEric T DavidStephanie I ShiersMarisol Mancilla MorenoJonathan IketemDanielle M RoyerChelsea D GarciaJennifer ZhangVeronica M HongSubhaan M MianAyesha AhmadBenedict J KolberDaniel J LieblStephen F MartinTheodore John Price
Published in: Proceedings of the National Academy of Sciences of the United States of America (2023)
The sigma 2 receptor (σ 2 R) was described pharmacologically more than three decades ago, but its molecular identity remained obscure until recently when it was identified as transmembrane protein 97 (TMEM97). We and others have shown that σ 2 R/TMEM97 ligands alleviate mechanical hypersensitivity in mouse neuropathic pain models with a time course wherein maximal antinociceptive effect is approximately 24 h following dosing. We sought to understand this unique antineuropathic pain effect by addressing two key questions: do these σ 2 R/TMEM97 compounds act selectively via the receptor, and what is their downstream mechanism on nociceptive neurons? Using male and female conventional knockout mice for Tmem97, we find that a σ 2 R/TMEM97 binding compound, FEM-1689, requires the presence of the gene to produce antinociception in the spared nerve injury model in mice. Using primary mouse dorsal root ganglion neurons, we demonstrate that FEM-1689 inhibits the integrated stress response (ISR) and promotes neurite outgrowth via a σ 2 R/TMEM97-specific action. We extend the clinical translational value of these findings by showing that FEM-1689 reduces ISR and p-eIF2α levels in human sensory neurons and that it alleviates the pathogenic engagement of ISR by methylglyoxal. We also demonstrate that σ 2 R/TMEM97 is expressed in human nociceptors and satellite glial cells. These results validate σ 2 R/TMEM97 as a promising target for further development for the treatment of neuropathic pain.
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