Aminated curdlan derivatives are highly effective nucleic acid carriers. Previously, we proved that the ligand-functionalized curdlan derivatives have greatly enhanced cell type specificity induced by receptor-mediated internalization in vitro. In this study, to improve biocompatibility and enhance tumor-targeting efficacy of the curdlan derivative, we pegylated the adenosine functionalized amino curdlan derivative (denoted by pAVC polymer). We confirmed that the uptake of pAVC polymer carrying siRNA by tumor cells was adenosine receptor (AR)-dependent and was specifically inhibited by AMP but not by GMP. The pAVC polymers not only preserved the receptor recognition and exhibited significantly decreased cytotoxicity but also showed remarkable tumor targeting efficiency in vivo. The nanoparticles formulated from siRNA (against STAT3) and pAVC4 polymer, which bears the highest degree of PEG substitution, delivered siRNA highly specifically to tumor tissue, knocked down STAT3, and inhibited tumor growth. The pAVC polymers may be a promising carrier for tumor specific delivery of nucleic acid drugs.
Keywords: Adenosine receptor; Curdlan nanoparticles; Melanoma; STAT3; siRNA delivery.
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