Litcius/Paper detail

Fluorinated Cell-Penetrating Peptide for Co-Delivering siHIF-1α and Sorafenib to Enhance In Vitro Anti-Tumor Efficacy

Yu Wan, Yuhan Yang, Qiuyue Lai, Wang‐Xia Wang, Mingyu Wu, Shun Feng

2023Pharmaceutics11 citationsDOIOpen Access PDF

Abstract

Antiangiogenic therapy with sorafenib (SF) alone is ineffective in eradicating tumors, and its long-term application can exacerbate tumor hypoxia, which in turn restricts SF's therapeutic efficacy. Here, a redox-responsive fluorinated peptide (DEN-TAT-PFC) consisting of dendritic poly-lysine, cell-penetrating peptide TAT, and perfluorocarbon was designed and synthesized to co-load siRNA-targeting hypoxia-inducible factors (siHIF-1α) and SF. The unique architecture of the peptide and fluorinated modifications enhanced the siRNA delivery efficiency, including increased siRNA binding, GSH-responsive release, cellular uptake, endosomal escape, and serum resistance. Simultaneously, the DEN-TAT-PFC/SF/siHIF-1α co-delivery system achieved efficient knockdown of HIF-1α at mRNA and protein levels, thus alleviating hypoxia and further substantially reducing VEGF expression. Additionally, the excellent oxygen-carrying ability of DEN-TAT-PFC may facilitate relief of the hypoxic microenvironment. As a result of these synergistic effects, DEN-TAT-PFC/SF/siHIF-1α exhibited considerable anti-tumor cell proliferation and anti-angiogenesis effects. Therefore, DEN-TAT-PFC can be a versatile platform for fabricating fluorine-containing drugs/siRNA complex nano-systems.

Topics & Concepts

Cell-penetrating peptideGene knockdownChemistryPeptideAngiogenesisHypoxia (environmental)Cancer researchSorafenibIn vitroCellPharmacologyCell biologyApoptosisBiophysicsBiochemistryMedicineOxygenBiologyOrganic chemistryHepatocellular carcinomaRNA Interference and Gene DeliveryNanoplatforms for cancer theranosticsAdvanced biosensing and bioanalysis techniques