Structural Tailoring of a Novel Fluorescent IRE-1 RNase Inhibitor to Precisely Control Its Activity

Andong Shao; Chang Won Kang; Chih Hang Anthony Tang; Christopher F. Cain; Qin Xu; Claire M. Phoumyvong; Juan R. Del Valle; Chih Chi Andrew Hu

doi:10.1021/acs.jmedchem.9b00269

Structural Tailoring of a Novel Fluorescent IRE-1 RNase Inhibitor to Precisely Control Its Activity

Andong Shao, Chang Won Kang, Chih Hang Anthony Tang, Christopher F. Cain, Qin Xu, Claire M. Phoumyvong, Juan R. Del Valle, Chih Chi Andrew Hu

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Activation of the IRE-1/XBP-1 pathway has been linked to many human diseases. We report a novel fluorescent tricyclic chromenone inhibitor, D-F07, in which we incorporated a 9-methoxy group onto the chromenone core to enhance its potency and masked the aldehyde to achieve long-term efficacy. Protection of the aldehyde as a 1,3-dioxane acetal led to strong fluorescence emitted by the coumarin chromophore, enabling D-F07 to be tracked inside the cell. We installed a photolabile structural cage on the hydroxy group of D-F07 to generate PC-D-F07. Such a modification significantly stabilized the 1,3-dioxane acetal protecting group, allowing for specific stimulus-mediated control of inhibitory activity. Upon photoactivation, the re-exposed hydroxy group on D-F07 triggered the aldehyde-protecting 1,3-dioxane acetal to slowly decompose, leading to the inhibition of the RNase activity of IRE-1. Our novel findings will also allow for spatiotemporal control of the inhibitory effect of other salicylaldehyde-based compounds currently in development.

Original language	English (US)
Pages (from-to)	5404-5413
Number of pages	10
Journal	Journal of Medicinal Chemistry
Volume	62
Issue number	11
DOIs	https://doi.org/10.1021/acs.jmedchem.9b00269
State	Published - Jun 13 2019

ASJC Scopus subject areas

Molecular Medicine
Drug Discovery

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10.1021/acs.jmedchem.9b00269

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title = "Structural Tailoring of a Novel Fluorescent IRE-1 RNase Inhibitor to Precisely Control Its Activity",

abstract = "Activation of the IRE-1/XBP-1 pathway has been linked to many human diseases. We report a novel fluorescent tricyclic chromenone inhibitor, D-F07, in which we incorporated a 9-methoxy group onto the chromenone core to enhance its potency and masked the aldehyde to achieve long-term efficacy. Protection of the aldehyde as a 1,3-dioxane acetal led to strong fluorescence emitted by the coumarin chromophore, enabling D-F07 to be tracked inside the cell. We installed a photolabile structural cage on the hydroxy group of D-F07 to generate PC-D-F07. Such a modification significantly stabilized the 1,3-dioxane acetal protecting group, allowing for specific stimulus-mediated control of inhibitory activity. Upon photoactivation, the re-exposed hydroxy group on D-F07 triggered the aldehyde-protecting 1,3-dioxane acetal to slowly decompose, leading to the inhibition of the RNase activity of IRE-1. Our novel findings will also allow for spatiotemporal control of the inhibitory effect of other salicylaldehyde-based compounds currently in development.",

author = "Andong Shao and Kang, {Chang Won} and Tang, {Chih Hang Anthony} and Cain, {Christopher F.} and Qin Xu and Phoumyvong, {Claire M.} and {Del Valle}, {Juan R.} and Hu, {Chih Chi Andrew}",

note = "Funding Information: This study was partially supported by grants (R01CA163910, R21CA199553, and R01CA190860) from the NIH/NCI. We thank Avery Lee, Charlie Ho, and Walker Spalek for reading the manuscript and making useful suggestions. Publisher Copyright: {\textcopyright} 2019 American Chemical Society.",

year = "2019",

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doi = "10.1021/acs.jmedchem.9b00269",

language = "English (US)",

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AU - Shao, Andong

AU - Kang, Chang Won

AU - Tang, Chih Hang Anthony

AU - Cain, Christopher F.

AU - Xu, Qin

AU - Phoumyvong, Claire M.

AU - Del Valle, Juan R.

AU - Hu, Chih Chi Andrew

N1 - Funding Information: This study was partially supported by grants (R01CA163910, R21CA199553, and R01CA190860) from the NIH/NCI. We thank Avery Lee, Charlie Ho, and Walker Spalek for reading the manuscript and making useful suggestions. Publisher Copyright: © 2019 American Chemical Society.

PY - 2019/6/13

Y1 - 2019/6/13

N2 - Activation of the IRE-1/XBP-1 pathway has been linked to many human diseases. We report a novel fluorescent tricyclic chromenone inhibitor, D-F07, in which we incorporated a 9-methoxy group onto the chromenone core to enhance its potency and masked the aldehyde to achieve long-term efficacy. Protection of the aldehyde as a 1,3-dioxane acetal led to strong fluorescence emitted by the coumarin chromophore, enabling D-F07 to be tracked inside the cell. We installed a photolabile structural cage on the hydroxy group of D-F07 to generate PC-D-F07. Such a modification significantly stabilized the 1,3-dioxane acetal protecting group, allowing for specific stimulus-mediated control of inhibitory activity. Upon photoactivation, the re-exposed hydroxy group on D-F07 triggered the aldehyde-protecting 1,3-dioxane acetal to slowly decompose, leading to the inhibition of the RNase activity of IRE-1. Our novel findings will also allow for spatiotemporal control of the inhibitory effect of other salicylaldehyde-based compounds currently in development.

AB - Activation of the IRE-1/XBP-1 pathway has been linked to many human diseases. We report a novel fluorescent tricyclic chromenone inhibitor, D-F07, in which we incorporated a 9-methoxy group onto the chromenone core to enhance its potency and masked the aldehyde to achieve long-term efficacy. Protection of the aldehyde as a 1,3-dioxane acetal led to strong fluorescence emitted by the coumarin chromophore, enabling D-F07 to be tracked inside the cell. We installed a photolabile structural cage on the hydroxy group of D-F07 to generate PC-D-F07. Such a modification significantly stabilized the 1,3-dioxane acetal protecting group, allowing for specific stimulus-mediated control of inhibitory activity. Upon photoactivation, the re-exposed hydroxy group on D-F07 triggered the aldehyde-protecting 1,3-dioxane acetal to slowly decompose, leading to the inhibition of the RNase activity of IRE-1. Our novel findings will also allow for spatiotemporal control of the inhibitory effect of other salicylaldehyde-based compounds currently in development.

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Structural Tailoring of a Novel Fluorescent IRE-1 RNase Inhibitor to Precisely Control Its Activity

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