Elucidating and Optimizing the Photochemical Mechanism of Coumarin-Caged Tertiary Amines
Photoactivatable or “caged” pharmacological agents combine the high spatiotemporal specificity of light application with the molecular specificity of drugs. A key factor in all optopharmacology experiments is the mechanism of uncaging, which dictates the photochemical quantum yield and determines th...
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| Veröffentlicht in: | Journal of the American Chemical Society 2024-07, Vol.146 (30), p.20627-20635 |
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| creator | Banala, Sambashiva Jin, Xiao-Tao Dilan, Tanya L. Sheu, Shu-Hsien Clapham, David E. Drenan, Ryan M. Lavis, Luke D. |
| description | Photoactivatable or “caged” pharmacological agents combine the high spatiotemporal specificity of light application with the molecular specificity of drugs. A key factor in all optopharmacology experiments is the mechanism of uncaging, which dictates the photochemical quantum yield and determines the byproducts produced by the light-driven chemical reaction. In previous work, we demonstrated that coumarin-based photolabile groups could be used to cage tertiary amine drugs as quaternary ammonium salts. Although stable, water-soluble, and useful for experiments in brain tissue, these first-generation compounds exhibit relatively low uncaging quantum yield (Φu < 1%) and release the toxic byproduct formaldehyde upon photolysis. Here, we elucidate the photochemical mechanisms of coumarin-caged tertiary amines and then optimize the major pathway using chemical modification. We discovered that the combination of 3,3-dicarboxyazetidine and bromine substituents shift the mechanism of release to heterolysis, eliminating the formaldehyde byproduct and giving photolabile tertiary amine drugs with Φu > 20%a 35-fold increase in uncaging efficiency. This new “ABC” cage allows synthesis of improved photoactivatable derivatives of escitalopram and nicotine along with a novel caged agonist of the oxytocin receptor. |
| doi_str_mv | 10.1021/jacs.4c03092 |
| format | Article |
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A key factor in all optopharmacology experiments is the mechanism of uncaging, which dictates the photochemical quantum yield and determines the byproducts produced by the light-driven chemical reaction. In previous work, we demonstrated that coumarin-based photolabile groups could be used to cage tertiary amine drugs as quaternary ammonium salts. Although stable, water-soluble, and useful for experiments in brain tissue, these first-generation compounds exhibit relatively low uncaging quantum yield (Φu < 1%) and release the toxic byproduct formaldehyde upon photolysis. Here, we elucidate the photochemical mechanisms of coumarin-caged tertiary amines and then optimize the major pathway using chemical modification. We discovered that the combination of 3,3-dicarboxyazetidine and bromine substituents shift the mechanism of release to heterolysis, eliminating the formaldehyde byproduct and giving photolabile tertiary amine drugs with Φu > 20%a 35-fold increase in uncaging efficiency. This new “ABC” cage allows synthesis of improved photoactivatable derivatives of escitalopram and nicotine along with a novel caged agonist of the oxytocin receptor.</description><identifier>ISSN: 0002-7863</identifier><identifier>ISSN: 1520-5126</identifier><identifier>EISSN: 1520-5126</identifier><identifier>DOI: 10.1021/jacs.4c03092</identifier><identifier>PMID: 39023430</identifier><language>eng</language><publisher>United States: American Chemical Society</publisher><subject>agonists ; brain ; bromine ; byproducts ; formaldehyde ; heterolytic cleavage ; nicotine ; oxytocin receptors ; photolysis ; quaternary ammonium compounds ; toxicity ; water solubility</subject><ispartof>Journal of the American Chemical Society, 2024-07, Vol.146 (30), p.20627-20635</ispartof><rights>2024 The Authors. Published by American Chemical Society</rights><rights>2024 The Authors. 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Am. Chem. Soc</addtitle><description>Photoactivatable or “caged” pharmacological agents combine the high spatiotemporal specificity of light application with the molecular specificity of drugs. A key factor in all optopharmacology experiments is the mechanism of uncaging, which dictates the photochemical quantum yield and determines the byproducts produced by the light-driven chemical reaction. In previous work, we demonstrated that coumarin-based photolabile groups could be used to cage tertiary amine drugs as quaternary ammonium salts. Although stable, water-soluble, and useful for experiments in brain tissue, these first-generation compounds exhibit relatively low uncaging quantum yield (Φu < 1%) and release the toxic byproduct formaldehyde upon photolysis. Here, we elucidate the photochemical mechanisms of coumarin-caged tertiary amines and then optimize the major pathway using chemical modification. We discovered that the combination of 3,3-dicarboxyazetidine and bromine substituents shift the mechanism of release to heterolysis, eliminating the formaldehyde byproduct and giving photolabile tertiary amine drugs with Φu > 20%a 35-fold increase in uncaging efficiency. 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| subjects | agonists brain bromine byproducts formaldehyde heterolytic cleavage nicotine oxytocin receptors photolysis quaternary ammonium compounds toxicity water solubility |
| title | Elucidating and Optimizing the Photochemical Mechanism of Coumarin-Caged Tertiary Amines |
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