Photosensitized Generation of Singlet Oxygen (1O2) from Pyropheophorbide a Specifically Bound to All Parallel-Stranded G-Quadruplex DNAs

Okamoto, China; Momotake, Atsuya; Yamamoto, Yasuhiko

doi:10.1021/acs.jpcb.2c09016

J. Phys. Chem. B

2023

DOI: 10.1021/acs.jpcb.2c09016

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Photosensitized Generation of Singlet Oxygen (¹O₂) from Pyropheophorbide a Specifically Bound to All Parallel-Stranded G-Quadruplex DNAs

China Okamoto

Atsuya Momotake

Yasuhiko Yamamoto

Abstract: Pyropheophorbide a (Pyro-a), a chlorophyll metabolite, is a potential photosensitizer for photodynamic therapy (PDT), but little is known about its interaction with the target molecules for PDT, e.g., nucleic acids. Elucidation of the interaction between photosensitizers and nucleic acids will help us understand the initial process of PDT at the molecular level and hence to develop photosensitizing agents. We found that pyro-a forms a 1:1 complex with an all parallel-stranded G-quadruplex DNA and that pyro-a i… Show more

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2024

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Cited by 4 publications

References 49 publications

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Mechanistic Insights into Oxygen‐Independent DNA Photodegradation by Pheophorbide a: Implications for Future Photodynamic Therapy Applications

Okamoto,

Kotani,

Kojima

et al. 2024

ChemBioChem

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This study explores the unique properties of Pheophorbide a (Phed a) in the photodegradation of G‐quadruplex DNA under anoxic conditions, emphasizing its potential for photodynamic therapy (PDT) in hypoxic tumor environments. We used electron spin resonance (ESR), circular dichroism (CD), and nuclear magnetic resonance (NMR) spectroscopies to assess the radical generation and DNA interaction capabilities of Phed a compared to Pyropheophorbide a (Pyro a) under both oxygenated and anoxic conditions. Our results reveal that Phed a effectively degrades G‐quadruplex DNA in the absence of oxygen, whereas Pyro a does not. Under anoxic conditions, Phed a generates unique carbon‐centered radicals, as indicated by distinctive ESR signals, which are not observed in aerobic environments or with Pyro a. These radicals facilitate DNA decomposition without relying on reactive oxygen species (ROS). Phed a’s ability to degrade DNA independently of oxygen underscores its potential as a versatile and effective PDT agent, especially for hypoxic tumors where traditional photosensitizers are ineffective. This study paves the way for the development of new PDT agents that can operate under different oxygen levels. Phed a’s radical generation and oxygen‐independent DNA degradation mechanisms make it a promising candidate for future PDT applications.

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Mechanistic Insights into Oxygen‐Independent DNA Photodegradation by Pheophorbide a: Implications for Future Photodynamic Therapy Applications

Okamoto,

Kotani,

Kojima

et al. 2024

ChemBioChem

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Cyclodextrin-activated porphyrin-DNA nanofibers with AS1411/Hemin toehold for enhanced and targeted photodynamic therapy

Gao,

Yang,

Deng

et al. 2024

European Polymer Journal

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Advancements in molecular disassembly of optical probes: a paradigm shift in sensing, bioimaging, and therapeutics

Saczuk,

Dudek,

Matczyszyn

et al. 2024

Nanoscale Horiz.

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Photosensitized Generation of Singlet Oxygen (¹O₂) from Pyropheophorbide a Specifically Bound to All Parallel-Stranded G-Quadruplex DNAs

Cited by 4 publications

References 49 publications

Mechanistic Insights into Oxygen‐Independent DNA Photodegradation by Pheophorbide a: Implications for Future Photodynamic Therapy Applications

Mechanistic Insights into Oxygen‐Independent DNA Photodegradation by Pheophorbide a: Implications for Future Photodynamic Therapy Applications

Cyclodextrin-activated porphyrin-DNA nanofibers with AS1411/Hemin toehold for enhanced and targeted photodynamic therapy

Advancements in molecular disassembly of optical probes: a paradigm shift in sensing, bioimaging, and therapeutics

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