Biodegradable nanosyringes for intracellular amplification-based dual-diagnosis and gene therapy in single living cells

Abstract

The efficient delivery of biomolecules into living cells as well as their easy biodegradation have been challenges for the application of intracellular amplification for sensitive multiple-diagnosis and gene therapy for cancer. Herein, new strategies of amplification-based dual-detection of cancer biomarkers (Let-7a miRNA and VEGF) and gene therapy for cancers are put forward. These are achieved through biodegradable nanosyringes (NSs), rigid and sharp in vitro but degradable in vivo, which are applied for the efficient loading, delivery and release of biomolecules (enzymes, nucleic acids, and even silencing RNA) into living cells. After penetrating cell membranes and escaping from endosomes through their rigid and sharp tips, NSs release biomolecules for fast and easy “one-step” rolling circle amplification (ring formation and amplification) in single living cells. Therefore, based on signals from two probes, FAM-Probe and Cy5-Probe, that selectively bind to amplification products, 100 aM of Let-7a and 100 fM of VEGF could be detected, which are much lower than reported values. Furthermore, siRNAs can also be delivered by NSs for gene therapy, and their therapeutic effect was evaluated by their in vivo antitumor efficacy in CCRF-CEM subcutaneous xenograft nude mice. Rigid in vitro and degradable in vivo, NSs show potential for achieving fast, sensitive and safe cancer diagnosis and efficient therapy.