Title :
Phage display specific p16INK4a binding peptide for ex vivo cancer cells imaging
Author :
Khemthongcharoen, N. ; Ruangpracha, A. ; Piyawattanametha, Wibool
Author_Institution :
Photonics Technol. Lab. (PTL), Nat. Electron. & Comput. Technol. Center, Pathumthani, Thailand
Abstract :
This work demonstrates the application of phage display technology for molecular diagnosis utility. We propose a novel phage-displayed peptide which specifically bind to p16INK4a, a cervical cancer biomarker. Whole phage particles were developed as a molecular tracer for ex vivo cells imaging technique. Increase in specific phages binding to p16INK4a overexpressed cells is improved when the cells were initially permeabilized in order to make phage penetrable pores on the target cell membranes. We also proved that fluorescence signal could be obviously enhanced due to tremendous interaction sites for fluorescence dye labeling available on capsid proteins around phage particles. Evaluation of p16INK4a binding phages to discriminate between p16INK4a overexpressed cervical cancer cells versus normal fibroblast cells demonstrated higher fluorescence intensity of 2.5 fold over native phages.
Keywords :
biomedical optical imaging; biomembranes; cancer; cellular biophysics; fluorescence; molecular biophysics; tracers; cancer cell imaging technique; capsid proteins; cell membranes; cervical cancer biomarker; fluorescence dye labeling; fluorescence intensity; fluorescence signal; interaction sites; molecular diagnosis utility; molecular tracer; normal fibroblast cells; p16INK4a binding phages; phage display specific p16INK4a binding peptide; phage display technology; phage particles; IndexTerms; Phage display; cell imaging and peptide; cervical cancer; p16INK4a;
Conference_Titel :
Nano/Molecular Medicine and Engineering (NANOMED), 2012 IEEE 6th International Conference on
Conference_Location :
Bangkok
Print_ISBN :
978-1-4673-5101-0
DOI :
10.1109/NANOMED.2012.6509125
