Binary System for MicroRNA-Targeted Imaging in Single
Cells and Photothermal Cancer Therapy
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Abstract
Abnormal expression of microRNAs
(miRNAs) is often associated with
tumorigenesis, metastasis, and progression. Among them, miRNA-21 is
found to be overexpressed in most of the cancer cells. Here, a binary
system is designed for miRNA-21 targeted imaging and photothermal
treatment in single cells. The binary system is composed by a pair
of probes (probe-1 and probe-2), which are encapsulated in liposomes
for cell delivery. Both of the two probes adopt gold nanoparticles
(AuNPs) as the core material, and the AuNPs are functionalized with
Cy5-marked molecular beacon (MB-1/MB-2 for probe-1/probe-2, respectively).
The loop part of MBs are designed to be complementary with miRNA-21.
Therefore, after the binary system enters into the cytoplasm, MBs
can be opened upon miRNA-21 triggered hybridization, which turns “on”
the fluorescence of Cy5 for the localization of miRNA-21. At the same
time, a cross-linking between the probes occurs since the far ends
of MB-1 and MB-2 are designed to be complementary with each other.
The miRNA-induced aggregation shifts the absorption of AuNPs to near-infrared,
which can be observed under dark-field microscopy (DFM) and used for
the following photothermal therapy. Under near-infrared (NIR) irradiation,
MCF-7 breast cancer cells are successfully killed. The proposed system
can be further applied in tumor-bearing mice and shows significant
therapeutic effect. This work provides a new tool for intracellular
miRNA analysis and targeted treatment against cancer