In vivo fluorescence imaging of lysosomes: a potential technique to follow dye accumulation in the context of PDT?

Jean-Marie Devoisselle; Serge R. Mordon; Sylvie Soulie-Begu

doi:10.1117/12.203435

1 March 1995 In vivo fluorescence imaging of lysosomes: a potential technique to follow dye accumulation in the context of PDT?

Jean-Marie Devoisselle, Serge R. Mordon, Sylvie Soulie-Begu

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Proceedings Volume 2371, 5th International Photodynamic Association Biennial Meeting; (1995) https://doi.org/10.1117/12.203435
Event: Fifth International Photodynamic Association Biennial Meeting, 1994, Amelia Island, FL, United States

Abstract

Lysosomes and intracellular acidic compartments seem to play an important role in the context of PDT. Some photosensitizers are localized in the lysosomes of tumor-associated macrophages. Liposomes, which are lysosomotropic drug carriers, are used to deliver photosensitizers in tumors. Liposomes are taken up by the liver cells after intravenous injection. Intracellular pathway and liposomes localization in the different liver cells require sacrifice of the animals, cell separation, and observation by electronic microscopy. Little is known about liposomes kinetic uptake by the acidic intracellular compartments in vivo. We propose in this study a new method to follow liposomes uptake in the liver in vivo using a fluorescent pH-sensitive probe. We have already demonstrated the ability of fluorescence spectroscopy and imaging using a pH-dependent probe to monitor pH in living tissues. As pH of lysosome is very low, the kinetic of liposome uptake in this intracellular acidic compartment is followed by monitoring the pH of the whole liver in vivo and ex vivo. Liposomes-encapsulated carboxyfluorescein are prepared by the sonication procedure. Carboxyfluorescein is used at high concentration (100 mM) in order to quench its fluorescence. Liposomes are injected to Wistar rats into the peinil vein. After laparotomy, fluorescence spectra and images are recorded during two hours. Results show a rapid fluorescence increase followed by a slow phase of fluorescence decrease. pH decreases from physiological value to 6.0. After sacrifice and flush with cold saline solution, pH of liver ex vivo is found to be 5.0 - 5.5. These data show a rapid clearance of released dye and an uptake of liposomes by the liver cells and, as liposomes penetrate in the acidic compartment, dye is released from liposomes and is delivered in lysosomes leading to the decrease of pH.

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Jean-Marie Devoisselle, Serge R. Mordon, and Sylvie Soulie-Begu "In vivo fluorescence imaging of lysosomes: a potential technique to follow dye accumulation in the context of PDT?", Proc. SPIE 2371, 5th International Photodynamic Association Biennial Meeting, (1 March 1995); https://doi.org/10.1117/12.203435

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