Abstract
Photodynamic therapy involves the concomitant action of three components, light with an appropriate wavelength, molecular oxygen, and a molecule, able to absorb an electromagnetic radiation, called photosensitizer (PS). A fundamental aspect is the bioavailability of the PS that is directly related to some physicochemical properties of the PS itself as it should feature a certain degree of lipophilicity to easily cross the cell membrane, however, at the same time, should be sufficiently water-soluble to navigate in the bloodstream. Consequently, the use of a system for drug delivery becomes essential when photosensitizers with a high degree of lipophilicity are considered. In this work, we present three different drug delivery systems, microemulsions, emulsions and liposomes all capable of carrying a PS belonging to the porphyrin family: the tetraphenyl porphyrin (TPP) and the 4-hydroxyphenyl porphyrin (THPP), which show a relevant different degree of lipophilicity. A series of microemulsions (ME) and emulsions (E) were prepared, among which two formulations, one for THPP and one for TPP, have been chosen. The stability of these two carriers was monitored over time and under various temperature conditions. With the same criteria, two liposomal formulations have been also identified and analyzed. The four formulations mentioned above (one ME, one E and two liposomes) have been tested on SKOV3 tumor cell line comparing the photodynamic activity of the porphyrin formulations versus the aqueous/organic (DMSO) solution of the same two PSs. The results show that all the formulations have proved to be excellent carriers and that the liposomal formulation enhance the photodynamic efficacy of both porphyrins.
Highlights
IntroductionLiposomes are one of the first nanoparticle-based delivery platforms to be applied in medicine [17], with over 11 liposomal formulations approved for clinical use today and many more in preclinical trials
Tetraphenyl porphyrin (TPP) is highly lipophilic and poorly soluble in those solvents suitable for the in vitro cell treatments; it is necessary to find a carrier allowing the evaluation of tetraphenyl porphyrin (TPP) as potential photosensitizing agent; in the past, some systems have been presented to solve the problems related to its administration including biodegradable NPs based on poly(d, l-lactic acid), [20] pegylated NPs [21] or liposomal nano-formulations obtained by means of extrusion method [22]
In this work we propose a series of drug delivery systems for the photodynamic application of these two photosensitizers; the systems obtained will be completely characterized and the photodynamic efficacy compared with each other and in the case of the 4-hydroxyphenyl porphyrin (THPP) a comparison will be made with the DMSO/ DMEM mixture
Summary
Liposomes are one of the first nanoparticle-based delivery platforms to be applied in medicine [17], with over 11 liposomal formulations approved for clinical use today and many more in preclinical trials They are concentric phospholipid vesicles consisting of single or multiple bi-layered membrane composed of natural or synthetic lipids [18]. Tetraphenyl porphyrin (TPP) is highly lipophilic and poorly soluble in those solvents suitable for the in vitro cell treatments; it is necessary to find a carrier allowing the evaluation of TPP as potential photosensitizing agent; in the past, some systems have been presented to solve the problems related to its administration including biodegradable NPs based on poly(d, l-lactic acid), [20] pegylated NPs [21] or liposomal nano-formulations obtained by means of extrusion method [22].
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