Marek Scholz scite author profile

Six common water-soluble singlet oxygen ((1)O2) photosensitizers - 5,10,15,20-tetrakis(1-methyl-4-pyridinio) porphine (TMPyP), meso-tetrakis(4-sulfonathophenyl)porphine (TPPS4), Al(III) phthalocyanine chloride tetrasulfonic acid (AlPcS4), eosin Y, rose bengal, and methylene blue - were investigated in terms of their ability to produce delayed fluorescence (DF) in solutions at room temperature. All the photosensitizers dissolved in air-saturated phosphate buffered saline (PBS, pH 7.4) exhibit easily detectable DF, which can be nearly completely quenched by 10 mM NaN3, a specific (1)O2 quencher. The DF kinetics has a biexponential rise-decay character in a microsecond time domain. Therefore, we propose that singlet oxygen-sensitized delayed fluorescence (SOSDF), where the triplet state of a photosensitizer reacts with (1)O2 giving rise to an excited singlet state of the photosensitizer, is the prevailing mechanism. It was confirmed by additional evidence, such as a monoexponential decay of triplet-triplet transient absorption kinetics, dependence of SOSDF kinetics on oxygen concentration, absence of SOSDF in a nitrogen-saturated sample, or the effect of isotopic exchange H2O-D2O. Eosin Y and AlPcS4 show the largest SOSDF quantum yield among the selected photosensitizers, whereas rose bengal possesses the highest ratio of SOSDF intensity to prompt fluorescence intensity. The rate constant for the reaction of triplet state with (1)O2 giving rise to the excited singlet state of photosensitizer was estimated to be ~/>1 × 10(9) M(-1) s(-1). SOSDF kinetics contains information about both triplet and (1)O2 lifetimes and concentrations, which makes it a very useful alternative tool for monitoring photosensitizing and (1)O2 quenching processes, allowing its detection in the visible spectral region, utilizing the photosensitizer itself as a (1)O2 probe. Under our experimental conditions, SOSDF was up to three orders of magnitude more intense than the infrared (1)O2 phosphorescence and by far the most important pathway of DF. SOSDF was also detected in a suspension of 3T3 mouse fibroblast cells, which underlines the importance of SOSDF and its relevance for biological systems.

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pO₂-weighted imaging in vivo by delayed fluorescence of intracellular Protoporphyrin IX

Scholz

Cao

Gunn

et al. 2020

Opt. Lett.

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In this Letter, we report on the imaging of tissue oxygen by means of time-gated wide-field lifetime imaging of the microsecond-scale delayed fluorescence from Protoporphyrin IX (PpIX). PpIX is produced endogenously from a clinically used δ -aminolevulinic acid (5-ALA) by most cells. The lifetime of delayed fluorescence is lengthened by the absence of oxygen to quench its triplet state. Here, the images of the delayed emission from the human skin and the skin of nude mice were captured after topical application of 5-ALA, using a pulsed 635 nm excitation. Macroscopic lifetime-based images were found to be associated with the tissue oxygenation and obtained with a low light dose ( ∼ 10 m J / c m 2 ) and “capture-times” of a few seconds.

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Singlet oxygen feedback delayed fluorescence of protoporphyrin IX in organic solutions

Vinklárek

Scholz

Dědic

et al. 2017

Photochem Photobiol Sci

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Delayed fluorescence (DF) of protoporphyrin IX (PpIX) has been recently proposed as a tool for monitoring of mitochondrial oxygen tension in vivo as well as for observation of the effectiveness of photodynamic therapy (PDT) [E. G. Mik, Anesth. Analg., 2013, 117, 834-346; F. Piffaretti et al., J. Biomed. Opt., 2012, 17, 115007]. However, the efficiency of the mechanism of thermal activation (E-type DF), which was considered in the papers, is limited due to a large energy gap between the first excited singlet and the first triplet state of PpIX at room or body temperatures. Moreover, the energy gap is roughly equal to other porphyrinoid photosensitizers that generate DF mostly through the Singlet Oxygen Feedback-Induced mechanism (SOFDF) under certain conditions [M. Scholz and R. Dědic, Singlet Oxygen: Applications in Biosciences and Nanosciences, 2016, vol. 2, pp. 63-81]. The mechanisms of delayed fluorescence of PpIX dissolved either in dimethylformamide (DMF) or in the mixture of DMF with ethylene glycol (EG) were investigated at atmospheric partial pressure of oxygen by means of a simultaneous time-resolved detection of O phosphorescence and PpIX DF which makes a direct comparison of the kinetics and lifetimes of both the luminescence channels possible. Samples of PpIX (100 μM) exhibit concave DF kinetics, which is a typical footprint of the SOFDF mechanism. The dramatic decrease in the DF intensity after adding a selective O quencher sodium azide (NaN, 10 mM) proves that >90% of DF is indeed generated through SOFDF. Moreover, the analysis of the DF kinetics in the presence of NaN implies that the second significant mechanism of DF generation is the triplet-triplet annihilation (P-type DF). The bimolecular mechanism of DF was further confirmed by the decrease of the DF intensity in the more viscous mixture DMF/EG and by the increase of the ratio of DF to the prompt fluorescence (PF) intensity with the increasing excitation intensity. These results show the significant role of the SOFDF mechanism in the DF of PpIX at high concentrations and at atmospheric partial pressure of oxygen and should be considered when developing diagnostic tools for clinical applications.

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Vibrational and optical characterization of s-triazine derivatives

Stagi

Chiriu

Scholz

et al. 2017

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Chapter 28. Singlet Oxygen-Sensitized Delayed Fluorescence

Scholz¹,

Dědic²

2016

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Imaging of hypoxia, oxygen consumption and recovery in vivo during ALA-photodynamic therapy using delayed fluorescence of Protoporphyrin IX

Scholz

Petusseau

Gunn

et al. 2020

Photodiagnosis and Photodynamic Therapy

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The singlet-oxygen-sensitized delayed fluorescence in mammalian cells: a time-resolved microscopy approach

Scholz

Biehl

Dědic

et al. 2015

Photochem Photobiol Sci

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The present work provides a proof-of-concept that the singlet oxygen-sensitized delayed fluorescence (SOSDF) can be detected from individual living mammalian cells in a time-resolved microscopy experiment. To this end, 3T3 mouse fibroblasts incubated with 100 μM TPPS4 or TMPyP were used and the microsecond kinetics of the delayed fluorescence (DF) were recorded. The analysis revealed that SOSDF is the major component of the overall DF signal. The microscopy approach enables precise control of experimental conditions - the DF kinetics are clearly influenced by the presence of the (1)O2 quencher (sodium azide), H2O/D2O exchange, and the oxygen concentration. Analysis of SOSDF kinetics, which was reconstructed as a difference DF kinetics between the unquenched and the NaN3-quenched samples, provides a cellular (1)O2 lifetime of τΔ = 1-2 μs and a TPPS4 triplet lifetime of τT = 22 ± 5 μs in agreement with previously published values. The short SOSDF acquisition times, typically in the range of tens of seconds, enable us to study the dynamic cellular processes. It is shown that SOSDF lifetimes increase during PDT-like treatment, which may provide valuable information about changes of the intracellular microenvironment. SOSDF is proposed and evaluated as an alternative tool for (1)O2 detection in biological systems.

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Real-time luminescence microspectroscopy monitoring of singlet oxygen in individual cells

Scholz

Dědic

Valenta

et al. 2014

Photochem Photobiol Sci

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A new setup for direct microspectroscopic monitoring of singlet oxygen ((1)O2) has been developed in our laboratory using a novel near-infrared sensitive InGaAs 2D-array detector. An imaging spectrograph has been inserted in front of the 2D-array detector, which allows us to acquire spectral images where one dimension is spatial and the other is spectral. The work presents a detailed examination of sensitivity and noise characteristics of the setup and its ability to detect (1)O2. The (1)O2 phosphorescence-based images and near-infrared luminescence spectral images recorded from single TMPyP-containing fibroblast cells reflecting spectral changes during irradiation are demonstrated. The introduction of spectral images addresses the issue of a potential spectral overlap of (1)O2 phosphorescence with near-infrared-extended luminescence of the photosensitizer and provides a powerful tool for distinguishing and separating them, which can be applied to any photosensitizer manifesting near-infrared luminescence.

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Marek Scholz

Singlet oxygen-sensitized delayed fluorescence of common water-soluble photosensitizers

pO₂-weighted imaging in vivo by delayed fluorescence of intracellular Protoporphyrin IX

Singlet oxygen feedback delayed fluorescence of protoporphyrin IX in organic solutions

Vibrational and optical characterization of s-triazine derivatives

Chapter 28. Singlet Oxygen-Sensitized Delayed Fluorescence

Imaging of hypoxia, oxygen consumption and recovery in vivo during ALA-photodynamic therapy using delayed fluorescence of Protoporphyrin IX

The singlet-oxygen-sensitized delayed fluorescence in mammalian cells: a time-resolved microscopy approach

Real-time luminescence microspectroscopy monitoring of singlet oxygen in individual cells

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Marek Scholz

Singlet oxygen-sensitized delayed fluorescence of common water-soluble photosensitizers

pO2-weighted imaging in vivo by delayed fluorescence of intracellular Protoporphyrin IX

Singlet oxygen feedback delayed fluorescence of protoporphyrin IX in organic solutions

Vibrational and optical characterization of s-triazine derivatives

Chapter 28. Singlet Oxygen-Sensitized Delayed Fluorescence

Imaging of hypoxia, oxygen consumption and recovery in vivo during ALA-photodynamic therapy using delayed fluorescence of Protoporphyrin IX

The singlet-oxygen-sensitized delayed fluorescence in mammalian cells: a time-resolved microscopy approach

Real-time luminescence microspectroscopy monitoring of singlet oxygen in individual cells

Contact Info

Product

Resources

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pO₂-weighted imaging in vivo by delayed fluorescence of intracellular Protoporphyrin IX