Abstract
.Significance: Singlet oxygen is a key cytotoxic agent in photodynamic therapy (PDT). As such, its imaging is highly desirable, but existing direct imaging methods are still limited by the exceptionally low yield of the luminescence signal. Singlet oxygen feedback delayed fluorescence (SOFDF) of the photosensitizer is a higher yield alternative for indirect measurement of this signal.Aim: The aim was to explore feasibility of SOFDF imaging in vivo in tumor-bearing mice during PDT and investigate how SOFDF images can be transformed into images of singlet oxygen. In addition, we study whether lysosome permeabilization can be visualized through fluorescence lifetime.Approach: Mice were intravenously injected with 2.5 mg/kg of photosensitizer aluminum(III) phthalocyanine tetrasulfonate () 20 h prior to experiments, having subcutaneous BxPC3 pancreas tumors. Time-resolved delayed fluorescence and prompt fluorescence (PF) were imaged using an intensified time-gated camera with 10-Hz pulsed laser excitation at 690 nm.Results: Delayed emission from was detected with lifetimes 7 to , which was attributed to SOFDF and shown to be oxygen-dependent. Singlet oxygen images were approximated by the ratio of SOFDF/PF at each pixel. SOFDF images of a good quality could be captured within several seconds with a radiant exposure of . In addition, lifetime images of PF in ns-time domain enabled us to visualize the event of lysosome permeabilization, as the lifetime increased from to 5.2 ns.Conclusions: Imaging of SOFDF in vivo in mouse tumor during PDT with is feasible, and it is a promising method for singlet molecular oxygen monitoring. Moreover, the time-gated approach also enables visualization of the lysosome permeabilization that alters the PF lifetime.
Highlights
Singlet molecular oxygen (1O2) is a highly reactive oxygen species produced typically by energy transfer in interaction of ground-state oxygen (3O2) with an excited triplet state of a photosensitizer molecule
Delayed emission from AlPcS4 was detected with lifetimes 7 to 11 μs, which was attributed to Singlet oxygen feedback delayed fluorescence (SOFDF) and shown to be oxygen-dependent
Imaging of SOFDF in vivo in mouse tumor during photodynamic therapy (PDT) with AlPcS4 is feasible, and it is a promising method for singlet molecular oxygen monitoring
Summary
Singlet molecular oxygen (1O2) is a highly reactive oxygen species produced typically by energy transfer in interaction of ground-state oxygen (3O2) with an excited triplet state of a photosensitizer molecule It is involved in aging and oxidative degradation in general, but it is a key cytotoxic cell-killing agent in photodynamic therapy (PDT) of cancer and other diseases.[1,2,3,4] The amount of 1O2 produced during PDT is believed to be one of the most important factors that predicts success or failure of the treatment. Only partial success has been achieved, and real-time imaging at conditions relevant to PDT has been elusive so far.[4] On one side, there is a direct detection of a weak near-infrared phosphorescence of 1O2. Attempts on in vivo imaging of 1O2 with fluorescence probes have been scarce.[14]
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