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Adenosine conjugated lipidic nanoparticles for enhanced tumor targeting

Publication Type : Journal Article

Publisher : International Journal of Pharmaceutics

Source : International Journal of Pharmaceutics, Volume 486, Number 1, p.287-296 (2015)

Url : https://www.sciencedirect.com/science/article/pii/S0378517315002811

Keywords : adenosine, Adenosine receptors, Cell cycle analysis, conjugation, Solid lipid nanoparticles

Campus : Kochi

School : School of Pharmacy

Department : Pharmacology

Year : 2015

Abstract : Delivering chemotherapeutics by nanoparticles into tumor is impeded majorly by two factors: nonspecific targeting and inefficient penetration. Targeted delivery of anti-cancer agents solely to tumor cells introduces a smart strategy because it enhances the therapeutic index compared with untargeted drugs. The present study was performed to investigate the efficiency of adenosine (ADN) to target solid lipid nanoparticles (SLN) to over expressing adenosine receptor cell lines such as human breast cancer and prostate cancer (MCF-7 and DU-145 cells), respectively. SLN were prepared by emulsification and solvent evaporation process using docetaxel (DTX) as drug and were characterized by various techniques like dynamic light scattering, differential scanning calorimeter and transmission electron microscopy. DTX loaded SLNs were surface modified with ADN, an adenosine receptors ligand using carbodiimide coupling. Conjugation was confirmed using infrared spectroscopy and quantified using phenol–sulfuric acid method. Conjugated SLN were shown to have sustained drug release as compared to unconjugated nanoparticles and drug suspension. Compared with free DTX and unconjugated SLN, ADN conjugated SLN showed significantly higher cytotoxicity of loaded DTX, as evidenced by in vitro cell experiments. The IC50 was 0.41μg/ml for native DTX, 0.30μg/ml for unconjugated SLN formulation, and 0.09μg/ml for ADN conjugated SLN formulation in MCF-7 cell lines. Whereas, in DU-145, there was 2 fold change in IC50 of ADN–SLN as compared to DTX. IC50 was found to be 0.44μg/ml for free DTX, 0.39μg/ml for unconjugated SLN and 0.22μg/ml for ADN–SLN. Annexin assay and cell cycle analysis assay further substantiated the cell cytotoxicity. Fluorescent cell uptake and competitive ligand-receptor binding assay corroborated the receptor mediated endocytosis pathway indicated role of adenosine receptors in internalization of conjugated particles. Pharmacokinetic studies of lipidic formulations depicted significant improvement in pharmacokinetic parameters than marketed formulation. ADN conjugated SLN proved to be an efficient drug delivery vehicle. Hence, ADN can be used as a potential ligand to target breast and prostate cancer.

Cite this Research Publication : R. Swami, Singh, I., Dr. Manish Kumar Jeengar, V.G.M. Naidu, Khan, W., and Sistla, R., “Adenosine conjugated lipidic nanoparticles for enhanced tumor targeting”, International Journal of Pharmaceutics, vol. 486, pp. 287-296, 2015.

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