Abstract
Prostate cancer is the most common malignancy in men lack of efficient early diagnosis and therapeutics, calling for effective molecular probes. Herein, we performed cell-based systematic evolution of ligands by exponential enrichment (cell-SELEX) to obtain specific recognition of human prostate cancer cells PC–3M. Four aptamers were successfully obtained that can bind to target cells with high affinity and specificity. A 51-nt truncated sequence named Xq-2-C1 was identified after further elaborative analysis on the secondary structure. More importantly, the achieved aptamer Xq-2-C1 not only demonstrated excellent specific to target cells, but also revealed specific recognition to clinical prostate cancer tissue. The tissue imaging results showed that Xq-2-C1 had better recognition ratio for clinical prostate cancer tissue samples (85%) compared to the random sequence (9%). These results demonstrate that these newly generated aptamers would furnish potential applications in the early diagnosis and clinical treatment of prostate cancer.
Published Version
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