The hERG potassium channel and drug trapping: insights from docking studies with propafenone derivatives: The hERG potassium channel and drug trapping: insight from docking studies with propafenone derivatives.

Khac Minh Thai; Andreas Windisch; Daniela Stork; Anna Weinzinger; Andrea Schiesaro; H. Robert Guy; Evgeny Timin; Steffen Hering; Gerhard Ecker

doi:10.1002/cmdc.200900374

The hERG potassium channel and drug trapping: insights from docking studies with propafenone derivatives: The hERG potassium channel and drug trapping: insight from docking studies with propafenone derivatives.

Khac Minh Thai
, Andreas Windisch
, Daniela Stork
, Anna Weinzinger
, Andrea Schiesaro
, H. Robert Guy
, Evgeny Timin
, Steffen Hering
, Gerhard Ecker (Corresponding author)

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

The inner cavity of the hERG potassium ion channel can accommodate large, structurally diverse compounds that can be trapped in the channel by closure of the activation gate. A small set of propafenone derivatives was synthesized, and both use-dependency and recovery from block were tested in order to gain insight into the behavior of these compounds with respect to trapping and non-trapping. Ligand-protein docking into homology models of the closed and open state of the hERG channel provides the first evidence for the molecular basis of drug trapping.

Original language	English
Pages (from-to)	436-442
Number of pages	7
Journal	ChemMedChem: chemistry enabling drug discovery
Volume	5
Issue number	3
DOIs	https://doi.org/10.1002/cmdc.200900374
Publication status	Published - 2010

Austrian Fields of Science 2012

301206 Pharmacology
106005 Bioinformatics

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Thai, K. M., Windisch, A., Stork, D., Weinzinger, A., Schiesaro, A., Guy, H. R., Timin, E., Hering, S., & Ecker, G. (2010). The hERG potassium channel and drug trapping: insights from docking studies with propafenone derivatives: The hERG potassium channel and drug trapping: insight from docking studies with propafenone derivatives. ChemMedChem: chemistry enabling drug discovery, 5(3), 436-442. https://doi.org/10.1002/cmdc.200900374

@article{1e8788fa275b454f97b3b1cfc6519936,

title = "The hERG potassium channel and drug trapping: insights from docking studies with propafenone derivatives: The hERG potassium channel and drug trapping: insight from docking studies with propafenone derivatives.",

abstract = "The inner cavity of the hERG potassium ion channel can accommodate large, structurally diverse compounds that can be trapped in the channel by closure of the activation gate. A small set of propafenone derivatives was synthesized, and both use-dependency and recovery from block were tested in order to gain insight into the behavior of these compounds with respect to trapping and non-trapping. Ligand-protein docking into homology models of the closed and open state of the hERG channel provides the first evidence for the molecular basis of drug trapping.",

author = "Thai, \{Khac Minh\} and Andreas Windisch and Daniela Stork and Anna Weinzinger and Andrea Schiesaro and Guy, \{H. Robert\} and Evgeny Timin and Steffen Hering and Gerhard Ecker",

year = "2010",

doi = "10.1002/cmdc.200900374",

language = "English",

volume = "5",

pages = "436--442",

journal = "ChemMedChem: chemistry enabling drug discovery",

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Thai, KM, Windisch, A, Stork, D, Weinzinger, A, Schiesaro, A, Guy, HR, Timin, E, Hering, S & Ecker, G 2010, 'The hERG potassium channel and drug trapping: insights from docking studies with propafenone derivatives: The hERG potassium channel and drug trapping: insight from docking studies with propafenone derivatives.', ChemMedChem: chemistry enabling drug discovery, vol. 5, no. 3, pp. 436-442. https://doi.org/10.1002/cmdc.200900374

The hERG potassium channel and drug trapping: insights from docking studies with propafenone derivatives: The hERG potassium channel and drug trapping: insight from docking studies with propafenone derivatives. / Thai, Khac Minh; Windisch, Andreas; Stork, Daniela et al.
In: ChemMedChem: chemistry enabling drug discovery, Vol. 5, No. 3, 2010, p. 436-442.

Publications: Contribution to journal › Article › Peer Reviewed

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T2 - The hERG potassium channel and drug trapping: insight from docking studies with propafenone derivatives.

AU - Thai, Khac Minh

AU - Windisch, Andreas

AU - Stork, Daniela

AU - Weinzinger, Anna

AU - Schiesaro, Andrea

AU - Guy, H. Robert

AU - Timin, Evgeny

AU - Hering, Steffen

AU - Ecker, Gerhard

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AB - The inner cavity of the hERG potassium ion channel can accommodate large, structurally diverse compounds that can be trapped in the channel by closure of the activation gate. A small set of propafenone derivatives was synthesized, and both use-dependency and recovery from block were tested in order to gain insight into the behavior of these compounds with respect to trapping and non-trapping. Ligand-protein docking into homology models of the closed and open state of the hERG channel provides the first evidence for the molecular basis of drug trapping.

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DO - 10.1002/cmdc.200900374

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Thai KM, Windisch A, Stork D, Weinzinger A, Schiesaro A, Guy HR et al. The hERG potassium channel and drug trapping: insights from docking studies with propafenone derivatives: The hERG potassium channel and drug trapping: insight from docking studies with propafenone derivatives. ChemMedChem: chemistry enabling drug discovery. 2010;5(3):436-442. doi: 10.1002/cmdc.200900374