Ferrous iron-dependent drug delivery enables controlled and selective release of therapeutic agents in vivo

The precise targeting of cytotoxic agents to specific cell types or cellular compartments is of significant interest in medicine, with particular relevance for infectious diseases and cancer. Here, we describe a method to exploit aberrant levels of mobile ferrous iron (Fe ᴵᴵ) for selective drug deli...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2013-11, Vol.110 (45), p.18244-18249
Hauptverfasser:	Deu, Edgar, Chen, Ingrid T., Lauterwasser, Erica M. W., Valderramos, Juan, Li, Hao, Edgington, Laura E., Renslo, Adam R., Bogyo, Matthew
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Antimalarials Artemisinins Biological Sciences Blood Cancer Cytotoxicity Delayed-Action Preparations - administration & dosage Delayed-Action Preparations - pharmacology Dipeptidyl-Peptidases and Tripeptidyl-Peptidases - antagonists & inhibitors Drug Delivery Systems - methods Drug Therapy, Combination Electrophoresis, Polyacrylamide Gel Ferrous Compounds - administration & dosage Ferrous Compounds - metabolism Heterocyclic Compounds - metabolism Infectious diseases Iron Kinetics Malaria Malaria - drug therapy Mice Parasitemia Parasites Photochemotherapy - methods Plasmodium berghei Plasmodium berghei - drug effects Vehicles
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Deu, Edgar Chen, Ingrid T. Lauterwasser, Erica M. W. Valderramos, Juan Li, Hao Edgington, Laura E. Renslo, Adam R. Bogyo, Matthew
description	The precise targeting of cytotoxic agents to specific cell types or cellular compartments is of significant interest in medicine, with particular relevance for infectious diseases and cancer. Here, we describe a method to exploit aberrant levels of mobile ferrous iron (Fe ᴵᴵ) for selective drug delivery in vivo. This approach makes use of a 1,2,4-trioxolane moiety, which serves as an Fe ᴵᴵ-sensitive “trigger,” making drug release contingent on Fe ᴵᴵ-promoted trioxolane fragmentation. We demonstrate in vivo validation of this approach with the Plasmodium berghei model of murine malaria. Malaria parasites produce high concentrations of mobile ferrous iron as a consequence of their catabolism of host hemoglobin in the infected erythrocyte. Using activity-based probes, we successfully demonstrate the Fe ᴵᴵ-dependent and parasite-selective delivery of a potent dipeptidyl aminopeptidase inhibitor. We find that delivery of the compound in its Fe ᴵᴵ-targeted form leads to more sustained target inhibition with greatly reduced off-target inhibition of mammalian cathepsins. This selective drug delivery translates into improved efficacy and tolerability. These findings demonstrate the utility of a purely chemical means to achieve selective drug targeting in vivo. This approach may find useful application in parasitic infections and more broadly in any disease state characterized by aberrant production of reactive ferrous iron.
doi_str_mv	10.1073/pnas.1312782110
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Malaria parasites produce high concentrations of mobile ferrous iron as a consequence of their catabolism of host hemoglobin in the infected erythrocyte. Using activity-based probes, we successfully demonstrate the Fe ᴵᴵ-dependent and parasite-selective delivery of a potent dipeptidyl aminopeptidase inhibitor. We find that delivery of the compound in its Fe ᴵᴵ-targeted form leads to more sustained target inhibition with greatly reduced off-target inhibition of mammalian cathepsins. This selective drug delivery translates into improved efficacy and tolerability. These findings demonstrate the utility of a purely chemical means to achieve selective drug targeting in vivo. 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W.</creatorcontrib><creatorcontrib>Valderramos, Juan</creatorcontrib><creatorcontrib>Li, Hao</creatorcontrib><creatorcontrib>Edgington, Laura E.</creatorcontrib><creatorcontrib>Renslo, Adam R.</creatorcontrib><creatorcontrib>Bogyo, Matthew</creatorcontrib><title>Ferrous iron-dependent drug delivery enables controlled and selective release of therapeutic agents in vivo</title><title>Proceedings of the National Academy of Sciences - PNAS</title><addtitle>Proc Natl Acad Sci U S A</addtitle><description>The precise targeting of cytotoxic agents to specific cell types or cellular compartments is of significant interest in medicine, with particular relevance for infectious diseases and cancer. Here, we describe a method to exploit aberrant levels of mobile ferrous iron (Fe ᴵᴵ) for selective drug delivery in vivo. This approach makes use of a 1,2,4-trioxolane moiety, which serves as an Fe ᴵᴵ-sensitive “trigger,” making drug release contingent on Fe ᴵᴵ-promoted trioxolane fragmentation. We demonstrate in vivo validation of this approach with the Plasmodium berghei model of murine malaria. Malaria parasites produce high concentrations of mobile ferrous iron as a consequence of their catabolism of host hemoglobin in the infected erythrocyte. Using activity-based probes, we successfully demonstrate the Fe ᴵᴵ-dependent and parasite-selective delivery of a potent dipeptidyl aminopeptidase inhibitor. We find that delivery of the compound in its Fe ᴵᴵ-targeted form leads to more sustained target inhibition with greatly reduced off-target inhibition of mammalian cathepsins. This selective drug delivery translates into improved efficacy and tolerability. These findings demonstrate the utility of a purely chemical means to achieve selective drug targeting in vivo. 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This approach makes use of a 1,2,4-trioxolane moiety, which serves as an Fe ᴵᴵ-sensitive “trigger,” making drug release contingent on Fe ᴵᴵ-promoted trioxolane fragmentation. We demonstrate in vivo validation of this approach with the Plasmodium berghei model of murine malaria. Malaria parasites produce high concentrations of mobile ferrous iron as a consequence of their catabolism of host hemoglobin in the infected erythrocyte. Using activity-based probes, we successfully demonstrate the Fe ᴵᴵ-dependent and parasite-selective delivery of a potent dipeptidyl aminopeptidase inhibitor. We find that delivery of the compound in its Fe ᴵᴵ-targeted form leads to more sustained target inhibition with greatly reduced off-target inhibition of mammalian cathepsins. This selective drug delivery translates into improved efficacy and tolerability. These findings demonstrate the utility of a purely chemical means to achieve selective drug targeting in vivo. 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subjects	Animals Antimalarials Artemisinins Biological Sciences Blood Cancer Cytotoxicity Delayed-Action Preparations - administration & dosage Delayed-Action Preparations - pharmacology Dipeptidyl-Peptidases and Tripeptidyl-Peptidases - antagonists & inhibitors Drug Delivery Systems - methods Drug Therapy, Combination Electrophoresis, Polyacrylamide Gel Ferrous Compounds - administration & dosage Ferrous Compounds - metabolism Heterocyclic Compounds - metabolism Infectious diseases Iron Kinetics Malaria Malaria - drug therapy Mice Parasitemia Parasites Photochemotherapy - methods Plasmodium berghei Plasmodium berghei - drug effects Vehicles
title	Ferrous iron-dependent drug delivery enables controlled and selective release of therapeutic agents in vivo
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