Abstract
We report fluorescent carbon nanoparticle (FCN)-based small interfering RNA (siRNA) conjugates (C-siRNA) for gene regulation and cancer therapy. The C-siRNA has a core of chitosan-derived FCN and a shell of siRNA, and can down-regulate the expression of polo-like kinase-1 (Plk1), a master regulator of mitosis, via siRNA targeting Plk1 (siPlk1), for cancer therapy. The required amount of the FCNs is only ∼1/30 of that of the gold nanoparticles in delivering equal amount of siRNA. The C-siPlk1 led to ∼80% knockdown of cellular Plk1 mRNA in A375 cells, and induced apoptosis of the A375 cells (31.9%) and MCF-7 cells (20.33%), much higher than those by commercial nonviral gene delivery vectors, such as Lipofectamine 2000 in both cell lines (apoptosis rate < 10%). After the C-siPlk1 was administrated to A375 tumor-bearing mice intravenously, the tumor volume was less than 1/11 of the control groups. The C-siRNA can thus be powerful tools for gene delivery and gene therapy.