Objective To explore the expression of novel protein kinase C ε ( PKCε) in normal prostate ( NP) tissue, benign prostate hyperplasia ( BPH) ,pericancerous ( PC) tissue and prostate cancer ( Pca) ,and study its corre...Objective To explore the expression of novel protein kinase C ε ( PKCε) in normal prostate ( NP) tissue, benign prostate hyperplasia ( BPH) ,pericancerous ( PC) tissue and prostate cancer ( Pca) ,and study its correlation with the grade and stage of Pca. Methods Ten NP slides,ten BPH slides,ten PC slides and 43 Pca展开更多
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 exponent...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.展开更多
文摘Objective To explore the expression of novel protein kinase C ε ( PKCε) in normal prostate ( NP) tissue, benign prostate hyperplasia ( BPH) ,pericancerous ( PC) tissue and prostate cancer ( Pca) ,and study its correlation with the grade and stage of Pca. Methods Ten NP slides,ten BPH slides,ten PC slides and 43 Pca
基金supported by the National Natural Science Foundation of China(Nos.21175035,21275043,21190040)the National Basic Research Program(No.2011CB911002)the Hunan Province Science and Technology Project of China(No.2013FJ4042)
文摘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.
