Kyle M Kremiller, Gauri C Kulkarni, Lauren M Harris, Hirushi Gunasekara, Yavnika Kashyap, Giokdjen Ilktach, Angela Nguyen, Alison E Ondrus, Ying S Hu, Zaijie J Wang, Andrew P Riley, Christian J Peters
{"title":"通过稳定受体表达发现抗痛觉的 α9α10 尼古丁乙酰胆碱受体拮抗剂。","authors":"Kyle M Kremiller, Gauri C Kulkarni, Lauren M Harris, Hirushi Gunasekara, Yavnika Kashyap, Giokdjen Ilktach, Angela Nguyen, Alison E Ondrus, Ying S Hu, Zaijie J Wang, Andrew P Riley, Christian J Peters","doi":"10.1021/acschembio.4c00330","DOIUrl":null,"url":null,"abstract":"<p><p>Chronic neuropathic pain is an increasingly prevalent societal issue that responds poorly to existing therapeutic strategies. The α9α10 nicotinic acetylcholine receptor (nAChR) has emerged as a potential target to treat neuropathic pain. However, challenges in expressing functional α9α10 nAChRs in mammalian cell lines have slowed the discovery of α9α10 ligands and studies into the relationship between α9α10 nAChRs and neuropathic pain. Here, we develop a cell line in the HEK293 background that stably expresses functional α9α10 nAChRs. By also developing cell lines expressing only α9 and α10 subunits, we identify distinct receptor pharmacology between homomeric α9 or α10 and heteromeric α9α10 nAChRs. Moreover, we demonstrate that incubation with nAChR ligands differentially regulates the expression of α9- or α10-containing nAChRs, suggesting a possible mechanism by which ligands may modify receptor composition and trafficking in α9- and α10-expressing cells. We then apply our α9α10 cell line in a screen of FDA-approved and investigational drugs to identify α9α10 ligands that provide new tools to probe α9α10 nAChR function. We demonstrate that one compound from this screen, diphenidol, possesses antinociceptive activity in a murine model of neuropathic pain. These results expand our understanding of α9α10 receptor pharmacology and provide new starting points for developing efficacious neuropathic pain treatments.</p>","PeriodicalId":11,"journal":{"name":"ACS Chemical Biology","volume":" ","pages":"2291-2303"},"PeriodicalIF":3.5000,"publicationDate":"2024-11-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Discovery of Antinociceptive α9α10 Nicotinic Acetylcholine Receptor Antagonists by Stable Receptor Expression.\",\"authors\":\"Kyle M Kremiller, Gauri C Kulkarni, Lauren M Harris, Hirushi Gunasekara, Yavnika Kashyap, Giokdjen Ilktach, Angela Nguyen, Alison E Ondrus, Ying S Hu, Zaijie J Wang, Andrew P Riley, Christian J Peters\",\"doi\":\"10.1021/acschembio.4c00330\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Chronic neuropathic pain is an increasingly prevalent societal issue that responds poorly to existing therapeutic strategies. The α9α10 nicotinic acetylcholine receptor (nAChR) has emerged as a potential target to treat neuropathic pain. However, challenges in expressing functional α9α10 nAChRs in mammalian cell lines have slowed the discovery of α9α10 ligands and studies into the relationship between α9α10 nAChRs and neuropathic pain. Here, we develop a cell line in the HEK293 background that stably expresses functional α9α10 nAChRs. By also developing cell lines expressing only α9 and α10 subunits, we identify distinct receptor pharmacology between homomeric α9 or α10 and heteromeric α9α10 nAChRs. Moreover, we demonstrate that incubation with nAChR ligands differentially regulates the expression of α9- or α10-containing nAChRs, suggesting a possible mechanism by which ligands may modify receptor composition and trafficking in α9- and α10-expressing cells. We then apply our α9α10 cell line in a screen of FDA-approved and investigational drugs to identify α9α10 ligands that provide new tools to probe α9α10 nAChR function. We demonstrate that one compound from this screen, diphenidol, possesses antinociceptive activity in a murine model of neuropathic pain. 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Discovery of Antinociceptive α9α10 Nicotinic Acetylcholine Receptor Antagonists by Stable Receptor Expression.
Chronic neuropathic pain is an increasingly prevalent societal issue that responds poorly to existing therapeutic strategies. The α9α10 nicotinic acetylcholine receptor (nAChR) has emerged as a potential target to treat neuropathic pain. However, challenges in expressing functional α9α10 nAChRs in mammalian cell lines have slowed the discovery of α9α10 ligands and studies into the relationship between α9α10 nAChRs and neuropathic pain. Here, we develop a cell line in the HEK293 background that stably expresses functional α9α10 nAChRs. By also developing cell lines expressing only α9 and α10 subunits, we identify distinct receptor pharmacology between homomeric α9 or α10 and heteromeric α9α10 nAChRs. Moreover, we demonstrate that incubation with nAChR ligands differentially regulates the expression of α9- or α10-containing nAChRs, suggesting a possible mechanism by which ligands may modify receptor composition and trafficking in α9- and α10-expressing cells. We then apply our α9α10 cell line in a screen of FDA-approved and investigational drugs to identify α9α10 ligands that provide new tools to probe α9α10 nAChR function. We demonstrate that one compound from this screen, diphenidol, possesses antinociceptive activity in a murine model of neuropathic pain. These results expand our understanding of α9α10 receptor pharmacology and provide new starting points for developing efficacious neuropathic pain treatments.
期刊介绍:
ACS Chemical Biology provides an international forum for the rapid communication of research that broadly embraces the interface between chemistry and biology.
The journal also serves as a forum to facilitate the communication between biologists and chemists that will translate into new research opportunities and discoveries. Results will be published in which molecular reasoning has been used to probe questions through in vitro investigations, cell biological methods, or organismic studies.
We welcome mechanistic studies on proteins, nucleic acids, sugars, lipids, and nonbiological polymers. The journal serves a large scientific community, exploring cellular function from both chemical and biological perspectives. It is understood that submitted work is based upon original results and has not been published previously.
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