One-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticles

One-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticles

Jin Hyun Kim,1,* Hyun Hoon Chung,2,* Min Sook Jeong,1 Mi Ryoung Song,1 Keon Wook Kang,3,4 Jun Sung Kim1 1R&D Center, Biterials Co, Ltd, Seoul, Republic of Korea; 2Department of Obstetrics and Gynecology, Seoul National University College of Medicine, Seoul, Republic of Korea; 3Department of...

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Main Authors: Kim JH, Chung HH, Jeong MS, Song MR, Kang KW, Kim JS
Format: Article
Language:English
Published: Dove Medical Press 2013-06-01
Series:International Journal of Nanomedicine
Online Access:http://www.dovepress.com/one-step-detection-of-circulating-tumor-cells-in-ovarian-cancer-using--a13426
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spelling doaj-c6a900697d9344c8a45679e6475a35c52020-11-25T00:32:46ZengDove Medical PressInternational Journal of Nanomedicine1176-91141178-20132013-06-012013default22472257One-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticlesKim JHChung HHJeong MSSong MRKang KWKim JSJin Hyun Kim,1,* Hyun Hoon Chung,2,* Min Sook Jeong,1 Mi Ryoung Song,1 Keon Wook Kang,3,4 Jun Sung Kim1 1R&D Center, Biterials Co, Ltd, Seoul, Republic of Korea; 2Department of Obstetrics and Gynecology, Seoul National University College of Medicine, Seoul, Republic of Korea; 3Department of Nuclear Medicine, Seoul National University College of Medicine, Seoul, Republic of Korea; 4Cancer Research Institute, Seoul National University, Seoul, Republic of Korea *These authors contributed equally to this work Abstract: Ovarian cancer is the fifth-leading cause of cancer-related deaths among women as a result of late diagnosis. For survival rates to improve, more sensitive and specific methods for earlier detection of ovarian cancer are needed. This study presents the development of rapid and specific one-step circulating tumor cell (CTC) detection using flow cytometry in a whole-blood sample with fluorescent silica nanoparticles. We prepared magnetic nanoparticle (MNP)-SiO2(rhodamine B isothiocyanate [RITC]) (MNP-SiO2[RITC] incorporating organic dyes [RITC, λmax(ex/em) = 543/580 nm]) in the silica shell. We then controlled the amount of organic dye in the silica shell of MNP-SiO2(RITC) for increased fluorescence intensity to overcome the autofluorescence of whole blood and increase the sensitivity of CTC detection in whole blood. Next, we modified the surface function group of MNP-SiO2(RITC) from –OH to polyethylene glycol (PEG)/COOH and conjugated a mucin 1 cell surface-associated (MUC1) antibody on the surface of MNP-SiO2(RITC) for CTC detection. To study the specific targeting efficiency of MUC1-MNP-SiO2(RITC), we used immunocytochemistry with a MUC1-positive human ovarian cancer cell line and a negative human embryonic kidney cell line. This technology was capable of detecting 100 ovarian cancer cells in 50 µL of whole blood. In conclusion, we developed a one-step CTC detection technology in ovarian cancer based on multifunctional silica nanoparticles and the use of flow cytometry. Keywords: circulating tumor cells, CTCs, fluorescent nanoprobe, MUC1, ovarian cancerhttp://www.dovepress.com/one-step-detection-of-circulating-tumor-cells-in-ovarian-cancer-using--a13426
collection DOAJ
language English
format Article
sources DOAJ
author Kim JH
Chung HH
Jeong MS
Song MR
Kang KW
Kim JS
spellingShingle Kim JH
Chung HH
Jeong MS
Song MR
Kang KW
Kim JS
One-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticles
International Journal of Nanomedicine
author_facet Kim JH
Chung HH
Jeong MS
Song MR
Kang KW
Kim JS
author_sort Kim JH
title One-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticles
title_short One-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticles
title_full One-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticles
title_fullStr One-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticles
title_full_unstemmed One-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticles
title_sort one-step detection of circulating tumor cells in ovarian cancer using enhanced fluorescent silica nanoparticles
publisher Dove Medical Press
series International Journal of Nanomedicine
issn 1176-9114
1178-2013
publishDate 2013-06-01
description Jin Hyun Kim,1,* Hyun Hoon Chung,2,* Min Sook Jeong,1 Mi Ryoung Song,1 Keon Wook Kang,3,4 Jun Sung Kim1 1R&D Center, Biterials Co, Ltd, Seoul, Republic of Korea; 2Department of Obstetrics and Gynecology, Seoul National University College of Medicine, Seoul, Republic of Korea; 3Department of Nuclear Medicine, Seoul National University College of Medicine, Seoul, Republic of Korea; 4Cancer Research Institute, Seoul National University, Seoul, Republic of Korea *These authors contributed equally to this work Abstract: Ovarian cancer is the fifth-leading cause of cancer-related deaths among women as a result of late diagnosis. For survival rates to improve, more sensitive and specific methods for earlier detection of ovarian cancer are needed. This study presents the development of rapid and specific one-step circulating tumor cell (CTC) detection using flow cytometry in a whole-blood sample with fluorescent silica nanoparticles. We prepared magnetic nanoparticle (MNP)-SiO2(rhodamine B isothiocyanate [RITC]) (MNP-SiO2[RITC] incorporating organic dyes [RITC, λmax(ex/em) = 543/580 nm]) in the silica shell. We then controlled the amount of organic dye in the silica shell of MNP-SiO2(RITC) for increased fluorescence intensity to overcome the autofluorescence of whole blood and increase the sensitivity of CTC detection in whole blood. Next, we modified the surface function group of MNP-SiO2(RITC) from –OH to polyethylene glycol (PEG)/COOH and conjugated a mucin 1 cell surface-associated (MUC1) antibody on the surface of MNP-SiO2(RITC) for CTC detection. To study the specific targeting efficiency of MUC1-MNP-SiO2(RITC), we used immunocytochemistry with a MUC1-positive human ovarian cancer cell line and a negative human embryonic kidney cell line. This technology was capable of detecting 100 ovarian cancer cells in 50 µL of whole blood. In conclusion, we developed a one-step CTC detection technology in ovarian cancer based on multifunctional silica nanoparticles and the use of flow cytometry. Keywords: circulating tumor cells, CTCs, fluorescent nanoprobe, MUC1, ovarian cancer
url http://www.dovepress.com/one-step-detection-of-circulating-tumor-cells-in-ovarian-cancer-using--a13426
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