A Concerted Redox- and Light-Activated Agent for Controlled Multimodal Therapy against Hypoxic Cancer Cells

Jiangping Liu; Andrew W. Prentice; Guy J. Clarkson; Jack M. Woolley; Vasilios G. Stavros; Martin J. Paterson; Peter J. Sadler

doi:10.1002/adma.202210363

A Concerted Redox- and Light-Activated Agent for Controlled Multimodal Therapy against Hypoxic Cancer Cells

Jiangping Liu, Andrew W. Prentice, Guy J. Clarkson, Jack M. Woolley, Vasilios G. Stavros, Martin J. Paterson, Peter J. Sadler^*

^*Corresponding author for this work

Chemistry

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Abstract

Hypoxia represents a remarkably exploitable target for cancer therapy, is encountered only in solid human tumors, and is highly associated with cancer resistance and recurrence. Here, a hypoxia-activated mitochondria-accumulated Ru(II) polypyridyl prodrug functionalized with conjugated azo (Az) and nitrogen mustard (NM) functionalities, RuAzNM, is reported. This prodrug has multimodal theranostic properties toward hypoxic cancer cells. Reduction of the azo group in hypoxic cell microenvironments gives rise to the generation of two primary amine products, a free aniline mustard, and the polypyridyl RuNH₂ complex. Thus, the aniline mustard triggers generation of reactive oxygen species (ROS) and mtDNA crosslinking. Meanwhile, the resultant biologically benign phosphorescent RuNH₂ gives rise to a diagnostic signal and signals activation of the phototherapy. This multimodal therapeutic effect eventually elevates ROS levels, depletes reduced nicotinamide adenine dinucleotide (NADH) and adenosine triphosphate (ATP), and induces mitochondrial membrane damage, mtDNA damage, and ultimately cell apoptosis. This unique strategy allows controlled multimodal theranostics to be realized in hypoxic cells and multicellular spheroids, making RuAzNM a highly selective and effective cancer-cell-selective theranostic agent (IC₅₀ = 2.3 µm for hypoxic HepG2 cancer cells vs 58.2 µm for normoxic THL-3 normal cells). This is the first report of a metal-based compound developed as a multimodal theranostic agent for hypoxia.

Original language	English
Article number	2210363
Number of pages	14
Journal	Advanced Materials
Volume	35
Issue number	19
Early online date	14 Feb 2023
DOIs	https://doi.org/10.1002/adma.202210363
Publication status	Published - 11 May 2023

Bibliographical note

Funding Information:
This work was supported by an Academy of Medical Sciences Newton International Fellowship (NIFR7/1063 for J.L.), the Natural Science Foundation of Guangdong Province (No. 2020A1515011153 for J.L.). Research on platinum group metals in the P.J.S. laboratory is also supported by the EPSRC (EP/P030572/1) and Anglo-American Platinum. The authors acknowledge the excellent (University of Warwick) assistance from Dr. L. Song with HRMS, Dr. I. Prokes with 700 MHz NMR, and Dr. K. Liu for assistance with processing the fs-TA data. M.J.P. thanks the EPSRC for funding through Grants EP/T021675, and EP/V006746; A.W.P and M.J.P. thank the Leverhulme Trust (RPG-2020-208). V.G.S. thanks the Royal Society for a Royal Society Industry Fellowship. J.M.W. thanks the EPSRC (EP/V007688/1) for funding. The authors acknowledge the University of Warwick Research Technology Platform, Warwick Centre for Ultrafast Spectroscopy, for the use of the femtosecond transient absorption spectrometer and the FluoroLog Spectrofluorometer in this research.

Publisher Copyright:
© 2023 The Authors. Advanced Materials published by Wiley-VCH GmbH.

Keywords

aniline mustard
hypoxia
photoredox catalysis
ruthenium complexes
theranostics

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Mechanical Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

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title = "A Concerted Redox- and Light-Activated Agent for Controlled Multimodal Therapy against Hypoxic Cancer Cells",

abstract = "Hypoxia represents a remarkably exploitable target for cancer therapy, is encountered only in solid human tumors, and is highly associated with cancer resistance and recurrence. Here, a hypoxia-activated mitochondria-accumulated Ru(II) polypyridyl prodrug functionalized with conjugated azo (Az) and nitrogen mustard (NM) functionalities, RuAzNM, is reported. This prodrug has multimodal theranostic properties toward hypoxic cancer cells. Reduction of the azo group in hypoxic cell microenvironments gives rise to the generation of two primary amine products, a free aniline mustard, and the polypyridyl RuNH2 complex. Thus, the aniline mustard triggers generation of reactive oxygen species (ROS) and mtDNA crosslinking. Meanwhile, the resultant biologically benign phosphorescent RuNH2 gives rise to a diagnostic signal and signals activation of the phototherapy. This multimodal therapeutic effect eventually elevates ROS levels, depletes reduced nicotinamide adenine dinucleotide (NADH) and adenosine triphosphate (ATP), and induces mitochondrial membrane damage, mtDNA damage, and ultimately cell apoptosis. This unique strategy allows controlled multimodal theranostics to be realized in hypoxic cells and multicellular spheroids, making RuAzNM a highly selective and effective cancer-cell-selective theranostic agent (IC50 = 2.3 µm for hypoxic HepG2 cancer cells vs 58.2 µm for normoxic THL-3 normal cells). This is the first report of a metal-based compound developed as a multimodal theranostic agent for hypoxia.",

keywords = "aniline mustard, hypoxia, photoredox catalysis, ruthenium complexes, theranostics",

author = "Jiangping Liu and Prentice, {Andrew W.} and Clarkson, {Guy J.} and Woolley, {Jack M.} and Stavros, {Vasilios G.} and Paterson, {Martin J.} and Sadler, {Peter J.}",

note = "Funding Information: This work was supported by an Academy of Medical Sciences Newton International Fellowship (NIFR7/1063 for J.L.), the Natural Science Foundation of Guangdong Province (No. 2020A1515011153 for J.L.). Research on platinum group metals in the P.J.S. laboratory is also supported by the EPSRC (EP/P030572/1) and Anglo-American Platinum. The authors acknowledge the excellent (University of Warwick) assistance from Dr. L. Song with HRMS, Dr. I. Prokes with 700 MHz NMR, and Dr. K. Liu for assistance with processing the fs-TA data. M.J.P. thanks the EPSRC for funding through Grants EP/T021675, and EP/V006746; A.W.P and M.J.P. thank the Leverhulme Trust (RPG-2020-208). V.G.S. thanks the Royal Society for a Royal Society Industry Fellowship. J.M.W. thanks the EPSRC (EP/V007688/1) for funding. The authors acknowledge the University of Warwick Research Technology Platform, Warwick Centre for Ultrafast Spectroscopy, for the use of the femtosecond transient absorption spectrometer and the FluoroLog Spectrofluorometer in this research. Publisher Copyright: {\textcopyright} 2023 The Authors. Advanced Materials published by Wiley-VCH GmbH.",

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AU - Stavros, Vasilios G.

AU - Paterson, Martin J.

AU - Sadler, Peter J.

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A Concerted Redox- and Light-Activated Agent for Controlled Multimodal Therapy against Hypoxic Cancer Cells

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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