Mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.

Mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.

Circulating tumor cells (CTCs) provide a non-invasive accessible source of tumor material from patients with cancer. The cellular heterogeneity within CTC populations is of great clinical importance regarding the increasing number of adjuvant treatment options for patients with metastatic carcinomas...

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Main Authors: Anna Lyberopoulou, Gerasimos Aravantinos, Efstathios P Efstathopoulos, Nikolaos Nikiteas, Penelope Bouziotis, Athina Isaakidou, Apostolos Papalois, Evangelos Marinos, Maria Gazouli
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4406761?pdf=render
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spelling doaj-0eae72a824c34df5b6abac049beeacbd2020-11-24T21:52:15ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01104e012390210.1371/journal.pone.0123902Mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.Anna LyberopoulouGerasimos AravantinosEfstathios P EfstathopoulosNikolaos NikiteasPenelope BouziotisAthina IsaakidouApostolos PapaloisEvangelos MarinosMaria GazouliCirculating tumor cells (CTCs) provide a non-invasive accessible source of tumor material from patients with cancer. The cellular heterogeneity within CTC populations is of great clinical importance regarding the increasing number of adjuvant treatment options for patients with metastatic carcinomas, in order to eliminate residual disease. Moreover, the molecular profiling of these rare cells might lead to insight on disease progression and therapeutic strategies than simple CTCs counting. In the present study we investigated the feasibility to detect KRAS, BRAF, CD133 and Plastin3 (PLS3) mutations in an enriched CTCs cell suspension from patients with colorectal cancer, with the hypothesis that these genes` mutations are of great importance regarding the generation of CTCs subpopulations. Subsequently, we compared CTCs mutational status with that of the corresponding primary tumor, in order to access the possibility of tumor cells characterization without biopsy. CTCs were detected and isolated from blood drawn from 52 colorectal cancer (CRC) patients using a quantum-dot-labelled magnetic immunoassay method. Mutations were detected by PCR-RFLP or allele-specific PCR and confirmed by direct sequencing. In 52 patients, discordance between primary tumor and CTCs was 5.77% for KRAS, 3.85% for BRAF, 11.54% for CD133 rs3130, 7.69% for CD133 rs2286455 and 11.54% for PLS3 rs6643869 mutations. Our results support that DNA mutational analysis of CTCs may enable non-invasive, specific biomarker diagnostics and expand the scope of personalized medicine for cancer patients.http://europepmc.org/articles/PMC4406761?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Anna Lyberopoulou
Gerasimos Aravantinos
Efstathios P Efstathopoulos
Nikolaos Nikiteas
Penelope Bouziotis
Athina Isaakidou
Apostolos Papalois
Evangelos Marinos
Maria Gazouli
spellingShingle Anna Lyberopoulou
Gerasimos Aravantinos
Efstathios P Efstathopoulos
Nikolaos Nikiteas
Penelope Bouziotis
Athina Isaakidou
Apostolos Papalois
Evangelos Marinos
Maria Gazouli
Mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.
PLoS ONE
author_facet Anna Lyberopoulou
Gerasimos Aravantinos
Efstathios P Efstathopoulos
Nikolaos Nikiteas
Penelope Bouziotis
Athina Isaakidou
Apostolos Papalois
Evangelos Marinos
Maria Gazouli
author_sort Anna Lyberopoulou
title Mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.
title_short Mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.
title_full Mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.
title_fullStr Mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.
title_full_unstemmed Mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.
title_sort mutational analysis of circulating tumor cells from colorectal cancer patients and correlation with primary tumor tissue.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description Circulating tumor cells (CTCs) provide a non-invasive accessible source of tumor material from patients with cancer. The cellular heterogeneity within CTC populations is of great clinical importance regarding the increasing number of adjuvant treatment options for patients with metastatic carcinomas, in order to eliminate residual disease. Moreover, the molecular profiling of these rare cells might lead to insight on disease progression and therapeutic strategies than simple CTCs counting. In the present study we investigated the feasibility to detect KRAS, BRAF, CD133 and Plastin3 (PLS3) mutations in an enriched CTCs cell suspension from patients with colorectal cancer, with the hypothesis that these genes` mutations are of great importance regarding the generation of CTCs subpopulations. Subsequently, we compared CTCs mutational status with that of the corresponding primary tumor, in order to access the possibility of tumor cells characterization without biopsy. CTCs were detected and isolated from blood drawn from 52 colorectal cancer (CRC) patients using a quantum-dot-labelled magnetic immunoassay method. Mutations were detected by PCR-RFLP or allele-specific PCR and confirmed by direct sequencing. In 52 patients, discordance between primary tumor and CTCs was 5.77% for KRAS, 3.85% for BRAF, 11.54% for CD133 rs3130, 7.69% for CD133 rs2286455 and 11.54% for PLS3 rs6643869 mutations. Our results support that DNA mutational analysis of CTCs may enable non-invasive, specific biomarker diagnostics and expand the scope of personalized medicine for cancer patients.
url http://europepmc.org/articles/PMC4406761?pdf=render
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