Dendritic Poly(l-lysine)-Based Nanoparticle Loading with siDNMT1 to Alleviate Basal Cell Carcinoma Progression by Inhibiting Methylation of AXIN2

Basal cell carcinoma (BCC) is a highly invasive and metastatic non-melanoma skin tumor. Traditional treatments, such as surgery, radiation, and chemotherapy, often result in severe side effects. Recent advances in RNA interference (RNAi) have highlighted its potential in targeting cancer-causing genes. To address the complex pathology of BCC, we developed a multifunctional gene delivery system using benzylthio-modified dendritic polylysine nanoparticles loaded with siDNMT1 (siDNMT1@PDPs). This system exhibits excellent dispersibility, with over 85% of particles measuring between 50 and 80 nm, and high stability, with a zeta potential of +57.10 mV. This design enables efficient penetration into tumor cells and controlled release of siDNMT1 in the tumor microenvironment (TME), thereby improving therapeutic outcomes. Our results demonstrate that siDNMT1@PDPs significantly inhibit tumor progression and metastasis in BCC by reducing AXIN2 promoter methylation, thereby increasing AXIN2 expression. Compared to existing treatments, siDNMT1@PDPs exhibit superior biocompatibility, both in vitro and in vivo, and provide a more targeted and effective therapeutic approach. These findings suggest that siDNMT1@PDPs represent a promising advancement in RNAi-based therapies for BCC, offering potential clinical benefits over current treatment modalities.