Lakkireddy Harivardhan Reddy scite author profile

Etoposide-incorporated tripalmitin nanoparticles with negative (ETN) and positive charge (ETP) were prepared by melt emulsification and high-pressure homogenization techniques. Spray drying of nanoparticles led to free flowing powder with excellent redispersibility. The nanoparticles were characterized by size analysis, zeta potential measurements, and scanning electron microscopy. The mean diameter of ETN and ETP nanoparticles was 391 nm and 362 nm, respectively, and the entrapment efficiency was more than 96%. Radiolabeling of etoposide and nanoparticles was performed with Technetium-99m ( 99m Tc) with high labeling efficiency and in vitro stability. The determination of binding affinity of 99m Tclabeled complexes by diethylene triamine penta acetic acid (DTPA) and cysteine challenge test confirmed low transchelation of 99m Tc-labeled complexes and high in vitro stability. Pharmacokinetic data of radiolabeled etoposide, ETN, and ETP nanoparticles in rats reveal that positively charged nanoparticles had high blood concentrations and prolonged blood residence time. Biodistribution studies of 99m Tc-labeled complexes were performed after intravenous administration in mice. Both ETN and ETP nanoparticles showed significantly lower uptake by organs of the reticuloendothelial system such as liver and spleen (P < .001) compared with etoposide. The ETP nanoparticles showed a relatively high distribution to bone and brain (14-fold higher than etoposide and ETN at 4 hours postinjection) than ETN nanoparticles. The ETP nanoparticles with long circulating property could be a beneficial delivery system for targeting to tumors by Enhanced Permeability and Retention effect and to brain.

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Squalenoyl nanomedicine of gemcitabine is more potent after oral administration in leukemia-bearing rats: study of mechanisms

Reddy

Ferreira

Dubernet

et al. 2008

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In an earlier report, we demonstrated the superior anticancer efficacy of orally administered squalenoyl gemcitabine (SQdFdC) nanomedicine over its parent drug gemcitabine on rats bearing RNK-16 large granular lymphocytic (LGL) leukemia. In the present communication, we investigated the mechanisms behind this observation both at the cell and tissue level. The mechanisms were investigated by performing cytotoxicity, cell uptake, and biodistribution experiments. In the presence of cytidine deaminase, SQdFdC nanoassemblies resisted deamination and exerted significant anticancer activity in vitro against RNK-16 LGL leukemia cells, whereas the cytotoxicity of free gemcitabine decreased by approximately 83-fold, indicating its degradation due to deamination. Additionally, the SQdFdC showed considerably higher intracellular accumulation and retention compared with gemcitabine (P<0.05). Unlike gemcitabine, the cellular access to SQdFdC was not influenced by nucleoside transporters. When administered orally to rats, unlike H-gemcitabine, the H-SQdFdC absorbed slowly, but exhibited an improved pharmacokinetics and tissue distribution profile, particularly in the lymphoid organs (the major organs of metastasis). The resistance to deamination, followed by the improved pharmacokinetic and tissue distribution, and greater accumulation and retention at the level of cancer cells, are the key factors for the superiority of SQdFdC nanoassemblies over free gemcitabine against RNK-16 LGL leukemia in rats.

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Lakkireddy Harivardhan Reddy

Etoposide-incorporated tripalmitin nanoparticles with different surface charge: Formulation, characterization, radiolabeling, and biodistribution studies

Squalenoyl nanomedicine of gemcitabine is more potent after oral administration in leukemia-bearing rats: study of mechanisms

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