Hyaluronic acid (HA) plays important biological roles in tissue integrity, angiogenesis, wound healing, and cell motility through the interaction with receptors on cell membranes. In this work, we investigated the effect of HA modification on the receptor-mediated endocytosis labeling HA derivatives with quantum dots (QDots). HA-QDot conjugates with a degree of modification less than ca. 25 mol % appeared to be more efficiently taken up to B16F1 cells by HA receptor mediated endocytosis than QDots alone. On the basis of bioimaging study, polyethyleneimine, PEI-HA conjugate with 24.2 mol % PEI content was developed as a target specific intracellular delivery carrier of siRNA. The siRNA/PEI-HA complex exhibited higher gene silencing efficiency in B16F1 cells with HA receptors than siRNA/PEI complex. Anti-PGL3-Luc siRNA/PEI-HA complex appeared to silence PGL3-Luc gene in the range of 50%-85% depending on the serum concentration up to 50 vol %. According to in vivo biodistribution test, siRNA/PEI-HA complex accumulated mainly in the tissues with HA receptors such as liver, kidney, and tumor. Furthermore, intratumoral injection of anti-VEGF siRNA/PEI-HA complex resulted in an effective inhibition of tumor growth by the HA receptor mediated endocytosis to tumor cells in C57BL/6 mice. Considering all these results, anti-VEGF siRNA/PEI-HA complex was thought to be applied successfully as target specific antiangiogenic therapeutics for the treatment of diseases in the tissues with HA receptors, such as liver cancer and kidney cancer.
Target-specific intracellular delivery of small interfering RNA (siRNA) is regarded as one of the most important technologies for the development of siRNA therapeutics. In this work, a cysteamine modified gold nanoparticles (AuCM)/siRNA/polyethyleneimine (PEI)/hyaluronic acid (HA) complex was successfully developed using a layer-by-layer method for target-specific intracellular delivery of siRNA by HA receptor mediated endocytosis. Atomic force microscopic and zeta potential analyses confirmed the formation of a AuCM/siRNA/PEI/HA complex having a particle size of ca. 37.3 nm and a negative surface charge of ca. -12 mV. With a negligible cytotoxicity, AuCM/siRNA/PEI/HA complex showed an excellent target-specific gene silencing efficiency of ca. 70% in the presence of 50 vol % serum, which was statistically much higher than that of siRNA/Lipofectamine 2000 complex. In the competitive binding tests with free HA, dark-field bioimaging and inductively coupled plasma-atomic emission spectroscopy confirmed the target-specific intracellular delivery of AuCM/siRNA/PEI/HA complex to B16F1 cells with HA receptors. Moreover, the systemic delivery of AuCM/siRNA/PEI/HA complex using apolipoprotein B (ApoB) siRNA as a model drug resulted in a significantly reduced ApoB mRNA level in the liver tissue. Taken together, AuCM/siRNA/PEI/HA complex was thought to be developed as target-specific siRNA therapeutics for the systemic treatment of various liver diseases.
A novel target specific small interfering RNA (siRNA) delivery system was successfully developed using polyethyleneimine (PEI)-hyaluronic acid (HA) conjugate. Anti-PGL3-Luc siRNA was used as a model system suppressing the PGL3-Luc gene expression. The siRNA/PEI-HA complex with an average size of ca. 21 nm appeared to be formed by electrostatic interaction between the negatively charged siRNA and the positively charged PEI of PEI-HA conjugate. The cytotoxicity of siRNA/PEI-HA complex to B16F1 cells was lower than that of siRNA/PEI complex according to the MTT assay. When B16F1 and HEK-293 cells were treated with fluorescein isothiocyanate (FITC) labeled siRNA/PEI-HA complex, B16F1 cells, with a lymphatic vessel endothelial hyaluronan receptor-1 (LYVE-1), showed higher green fluorescent intensity than HEK-293 cells because of the HA receptor mediated endocytosis of the complex. Accordingly, the PGL3-Luc gene silencing of anti-PGL3-Luc siRNA/PEI-HA complex was more efficient in B16F1 cells than in HEK-293 cells. In addition, the inhibited PGL3-Luc gene silencing effect in the presence of free HA in the transfection medium revealed that siRNA/HA-PEI complex was selectively taken up to B16F1 cells via HA receptor mediated endocytosis. All these results demonstrated that the intracellular delivery of anti-PGL3-Luc siRNA/PEI-HA complex could be facilitated by the HA receptor mediated endocytosis.
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