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1 June 2001 Photochemical Oxygen Consumption, Oxygen Evolution and Spectral Changes During UVA Irradiation of EMT6 Spheroids
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Abstract

Remarkable rates of oxygen consumption are observed via microelectrode measurements immediately upon the onset of 325 nm irradiation of multicell tumor spheroids. Consumption is irradiance dependent over the range 20–200 mW cm−2, and its magnitude is comparable to that observed previously in the same system using exogenous photosensitizers. Oscillations in the oxygen concentrations suggest that oxygen is also being evolved during irradiation. Oxygen evolution is likely the result of enzymatic dissociation of hydrogen peroxide, which is formed through UV-induced photochemistry. Irradiation of spheroids at 442 and at 514 nm produces a much more modest but detectable oxygen consumption. The dynamics of oxygen concentration changes are quite different at these wavelengths, suggesting a different photochemical mechanism. In these cases, initial oxygen depletion is followed immediately by a more gradual, monotonic increase in the oxygen concentration, consistent with irreversible photobleaching. No oscillations in the oxygen concentration are detectable. At 662 nm, no oxygen consumption was observed over the range of irradiances studied. Fluorescence spectra of cells prior to irradiation include contributions from anthranilic acid and reduced nicotinamide adenine dinucleotide (NADH). During 325 nm irradiation, anthranilic acid is rapidly and irreversibly bleached, while NADH emission undergoes only modest reduction.

Soumya Mitra, Jarod C. Finlay, Darrick McNeill, David L. Conover, and Thomas H. Foster "Photochemical Oxygen Consumption, Oxygen Evolution and Spectral Changes During UVA Irradiation of EMT6 Spheroids," Photochemistry and Photobiology 73(6), 703-708, (1 June 2001). https://doi.org/10.1562/0031-8655(2001)073<0703:POCOEA>2.0.CO;2
Received: 28 March 2001; Accepted: 1 April 2001; Published: 1 June 2001
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