Drug release by pH‐responsive molecular tweezers: Atomistic details from molecular modeling |
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| Authors: | Ahmed A K Mohammed Steven K Burger Paul W Ayers |
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| Institution: | Department of Chemistry and Chemical Biology, McMaster University, Hamilton, Ontario, Canada |
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| Abstract: | pH‐responsive molecular tweezers have been proposed as an approach for targeting drug‐delivery to tumors, which tend to have a lower pH than normal cells. We performed a computational study of a pH‐responsive molecular tweezer using ab initio quantum chemistry in the gas‐phase and molecular dynamics (MD) simulations in solution. The binding free energy in solution was calculated using steered MD. We observe, in atomistic detail, the pH‐induced conformational switch of the tweezer and the resulting release of the drug molecule. Even when the tweezer opens, the drug molecule remains near a hydrophobic arm of the molecular tweezer. Drug release cannot occur, it seems, unless the tweezer is in a hydrophobic environment with low pH. © 2014 Wiley Periodicals, Inc. |
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| Keywords: | molecular tweezers drug targeting drug release molecular switching pH‐responsive molecules density functional theory steered molecular dynamics |
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