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Pharmacological Improvement and Preclinical Evaluation of Methotrexate-Loaded Lipid-Core Nanocapsules in a Glioblastoma Model

Authors :
Adriana Raffin Pohlmann
de Oliveira Cp
Franciane Brackmann Mendes
S.S. Guterres
Elisa Helena Farias Jandrey
Ana Maria Oliveira Battastini
Fabrício Figueiró
Maria Isabel Albano Edelweiss
Liliana Rockenbach
Letícia Scussel Bergamin
Source :
Journal of biomedical nanotechnology. 11(10)
Publication Year :
2015

Abstract

Glioblastoma multiforme is a devastating cerebral tumor with an exceedingly poor prognosis. Methotrexate (MTX) is a folic acid analogue that inhibits DNA synthesis by binding to dihydrofolate reductase. Biodegradable nanoparticles are emerging as a promising system for drug delivery to specific tissues. The aims of the current study were pharmacological improvement and preclinical evaluation of MTX-loaded lipid-core nanocapsules (MTX-LNCs) in a glioblastoma model. Cell viability was assessed using the MTT assay, and the cell cycle was characterized by flow cytometry analysis of propidium iodide staining. Apoptosis was measured using an AnnexinV kit and by examining active caspase-3 immunocontent. In vivo glioma implantation was performed in rats, followed by measurement of the tumor size and tumoral apoptosis, BCL-2 immunohistochemistry and analyses of toxicological parameters. MTX-LNCs with increased encapsulation efficiency were successfully prepared. Our in vitro results showed a decrease in glioma cell viability after MTX-LNC treatment that was preceded by cell cycle arrest, leading the cells to undergo apoptotic death, as indicated by AnnexinV staining and increased active caspase-3 protein levels. In the in vivo glioma model, we observed a decrease in the tumor size and an increase in apoptosis in the tumor microenvironment (based on the AnnexinV assay and BCL-2 measurement). MTX-LNC treatment decreased the leukocyte number but altered neither toxicological tissue marker expression nor metabolic parameters. The present results reveal that MTX-LNCs represented an efficient formulation in a preclinical model of glioma and are a potential candidate for clinical trials.

Details

ISSN :
15507033
Volume :
11
Issue :
10
Database :
OpenAIRE
Journal :
Journal of biomedical nanotechnology
Accession number :
edsair.doi.dedup.....a3921b64587bd71a7ab493dd243dbaee