Rotaxanes as Cages to Control DNA Binding, Cytotoxicity, and Cellular Uptake of a Small Molecule

The efficacy of many drugs can be limited by undesirable properties, such as poor aqueous solubility, low bioavailability, and “off‐target” interactions. To combat this, various drug carriers have been investigated to enhance the pharmacological profile of therapeutic agents. In this work, we demons...

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Veröffentlicht in:	Angewandte Chemie International Edition 2021-05, Vol.60 (19), p.10928-10934
Hauptverfasser:	Kench, Timothy, Summers, Peter A., Kuimova, Marina K., Lewis, James E. M., Vilar, Ramon
Format:	Artikel
Sprache:	eng
Schlagworte:	Binding Bioavailability Biomedical materials Cell permeability cellular imaging Chemical compounds Cytotoxicity Deoxyribonucleic acid DNA Drug carriers Drug delivery Esterase G-quadruplexes Osteosarcoma Osteosarcoma cells Pharmacology photocaging platinum Rotaxanes Toxicity Translocation
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creator	Kench, Timothy Summers, Peter A. Kuimova, Marina K. Lewis, James E. M. Vilar, Ramon
description	The efficacy of many drugs can be limited by undesirable properties, such as poor aqueous solubility, low bioavailability, and “off‐target” interactions. To combat this, various drug carriers have been investigated to enhance the pharmacological profile of therapeutic agents. In this work, we demonstrate the use of mechanical protection to “cage” a DNA‐targeting metallodrug within a photodegradable rotaxane. More specifically, we report the synthesis of rotaxanes incorporating as a stoppering unit a known G‐quadruplex DNA binder, namely a PtII‐salphen complex. This compound cannot interact with DNA when it is part of the mechanically interlocked assembly. The second rotaxane stopper can be cleaved by either light or an esterase, releasing the PtII‐salphen complex. This system shows enhanced cell permeability and limited cytotoxicity within osteosarcoma cells compared to the free drug. Light activation leads to a dramatic increase in cytotoxicity, arising from the translocation of PtII‐salphen to the nucleus and its binding to DNA. The efficacy of many drugs can be limited by undesirable properties including low bioavailability and “off‐target” interactions. Herein we demonstrate the potential for using mechanical protection to “cage” a DNA‐targeting metallodrug within a photodegradable rotaxane, leading to enhanced cell permeability and limited cytotoxicity in cancer cells compared to the “uncaged” metallodrug. Light activation leads to a dramatic increase in cytotoxicity and translocation to the cell nucleus.
doi_str_mv	10.1002/anie.202100151
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M.</creatorcontrib><creatorcontrib>Vilar, Ramon</creatorcontrib><title>Rotaxanes as Cages to Control DNA Binding, Cytotoxicity, and Cellular Uptake of a Small Molecule</title><title>Angewandte Chemie International Edition</title><addtitle>Angew Chem Int Ed Engl</addtitle><description>The efficacy of many drugs can be limited by undesirable properties, such as poor aqueous solubility, low bioavailability, and “off‐target” interactions. To combat this, various drug carriers have been investigated to enhance the pharmacological profile of therapeutic agents. In this work, we demonstrate the use of mechanical protection to “cage” a DNA‐targeting metallodrug within a photodegradable rotaxane. More specifically, we report the synthesis of rotaxanes incorporating as a stoppering unit a known G‐quadruplex DNA binder, namely a PtII‐salphen complex. This compound cannot interact with DNA when it is part of the mechanically interlocked assembly. 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subjects	Binding Bioavailability Biomedical materials Cell permeability cellular imaging Chemical compounds Cytotoxicity Deoxyribonucleic acid DNA Drug carriers Drug delivery Esterase G-quadruplexes Osteosarcoma Osteosarcoma cells Pharmacology photocaging platinum Rotaxanes Toxicity Translocation
title	Rotaxanes as Cages to Control DNA Binding, Cytotoxicity, and Cellular Uptake of a Small Molecule
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