Reversible Covalent Chemistry in Drug Delivery

Kevin R. West; Sijbren Otto

doi:10.2174/1570163054866882

Reversible Covalent Chemistry in Drug Delivery

Kevin R. West
, Sijbren Otto

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

151 Citations (Scopus)

140 Downloads (Pure)

Abstract

The targeting of drugs specifically to their sites of action is an important strategy for increasing drug efficacy. Chemists have come up with many elegant schemes that aim to convert drugs into magic bullets. This review focuses on the chemistry that underlies these schemes, with particular emphasis on two types of cleavable covalent bonds that are frequently used to link drugs to their various carriers: disulfide bonds and hydrazone bonds. These linkages have been used to release drugs under specific conditions; in the case of disulfides, cleavage is triggered by the mildly reducing environment found in intracellular fluids, and in the case of hydrazones, the acidic conditions that prevail in endosomes cause release of the drug. The applications of these chemistries in drug delivery are reviewed.

Original language	English
Pages (from-to)	123-160
Number of pages	38
Journal	Current Drug Discovery Technologies
Volume	2
Issue number	3
DOIs	https://doi.org/10.2174/1570163054866882
Publication status	Published - 2005

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title = "Reversible Covalent Chemistry in Drug Delivery",

abstract = "The targeting of drugs specifically to their sites of action is an important strategy for increasing drug efficacy. Chemists have come up with many elegant schemes that aim to convert drugs into magic bullets. This review focuses on the chemistry that underlies these schemes, with particular emphasis on two types of cleavable covalent bonds that are frequently used to link drugs to their various carriers: disulfide bonds and hydrazone bonds. These linkages have been used to release drugs under specific conditions; in the case of disulfides, cleavage is triggered by the mildly reducing environment found in intracellular fluids, and in the case of hydrazones, the acidic conditions that prevail in endosomes cause release of the drug. The applications of these chemistries in drug delivery are reviewed.",

author = "West, \{Kevin R.\} and Sijbren Otto",

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N2 - The targeting of drugs specifically to their sites of action is an important strategy for increasing drug efficacy. Chemists have come up with many elegant schemes that aim to convert drugs into magic bullets. This review focuses on the chemistry that underlies these schemes, with particular emphasis on two types of cleavable covalent bonds that are frequently used to link drugs to their various carriers: disulfide bonds and hydrazone bonds. These linkages have been used to release drugs under specific conditions; in the case of disulfides, cleavage is triggered by the mildly reducing environment found in intracellular fluids, and in the case of hydrazones, the acidic conditions that prevail in endosomes cause release of the drug. The applications of these chemistries in drug delivery are reviewed.

AB - The targeting of drugs specifically to their sites of action is an important strategy for increasing drug efficacy. Chemists have come up with many elegant schemes that aim to convert drugs into magic bullets. This review focuses on the chemistry that underlies these schemes, with particular emphasis on two types of cleavable covalent bonds that are frequently used to link drugs to their various carriers: disulfide bonds and hydrazone bonds. These linkages have been used to release drugs under specific conditions; in the case of disulfides, cleavage is triggered by the mildly reducing environment found in intracellular fluids, and in the case of hydrazones, the acidic conditions that prevail in endosomes cause release of the drug. The applications of these chemistries in drug delivery are reviewed.

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JO - Current Drug Discovery Technologies

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Reversible Covalent Chemistry in Drug Delivery

Abstract

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