Abstract
Cancer chemotherapeutics often fail to reach all diseased cells. To help solve this problem, researchers are investigating novel drug delivery systems. Liposomes are an attractive option due to their low toxicity, high biocompatibility, and potential to carry a large amount of a drug to the tumor site, all while avoiding being eliminated from the body. This study evaluates the penetration of doxorubicin-encased liposomes into three-dimensional cell cultures, or spheroids. Liposomes composed of lipids containing head groups of phosphatidylcholine (PC), phosphatidylethanolamine (PE), and cholesterol were created by extrusion. Doxorubicin is encapsulated within the hydrophilic core of the liposome. The drug is actively released in the spheroid as the lipids bind to cellular lipid bilayers. Spheroids were dosed with liposomal doxorubicin, free doxorubicin, or media control to assess drug distribution over the course of 72 h. Drug penetration was visualized by Matrix-Assisted Laser Desorption/Ionization-Imaging Mass Spectrometry (MALDI-IMS) with confirmation by steady state fluorescence microscopy, creating a comprehensive picture of drug distribution. This technique is able to identify both free and liposomal doxorubicin throughout the spheroid after just 12 hours of treatment. Additionally, MALDI-IMS is able to detect three metabolites of doxorubicin, indicating that cells actively metabolize the drug during treatment. Steady state fluorescence microscopy cannot distinguish the drug from its metabolites as they have the same emission spectra. This report summarizes the first study to use MALDI-IMS to analyze drug penetration of a liposomal drug carrier as well as its metabolites.
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