A subpopulation of circulating endothelial cells express CD109 and is enriched in the blood of cancer patients.

A subpopulation of circulating endothelial cells express CD109 and is enriched in the blood of cancer patients.

BACKGROUND:The endothelium is not a homogeneous organ. Endothelial cell heterogeneity has been described at the level of cell morphology, function, gene expression, and antigen composition. As a consequence of the genetic, transcriptome and surrounding environment diversity, endothelial cells from d...

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Main Authors: Patrizia Mancuso, Angelica Calleri, Giuliana Gregato, Valentina Labanca, Jessica Quarna, Pierluigi Antoniotti, Lucia Cuppini, Gaetano Finocchiaro, Marica Eoli, Vittorio Rosti, Francesco Bertolini
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4266608?pdf=render
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spelling doaj-d3f014193afb4450be0fe24e7f66a5892020-11-24T21:36:43ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-01912e11471310.1371/journal.pone.0114713A subpopulation of circulating endothelial cells express CD109 and is enriched in the blood of cancer patients.Patrizia MancusoAngelica CalleriGiuliana GregatoValentina LabancaJessica QuarnaPierluigi AntoniottiLucia CuppiniGaetano FinocchiaroMarica EoliVittorio RostiFrancesco BertoliniBACKGROUND:The endothelium is not a homogeneous organ. Endothelial cell heterogeneity has been described at the level of cell morphology, function, gene expression, and antigen composition. As a consequence of the genetic, transcriptome and surrounding environment diversity, endothelial cells from different vascular beds have differentiated functions and phenotype. Detection of circulating endothelial cells (CECs) by flow cytometry is an approach widely used in cancer patients, and their number, viability and kinetic is a promising tool to stratify patient receiving anti-angiogenic treatment. METHODOLOGY/PRINCIPAL FINDINGS:Currently CECs are identified as positive for a nuclear binding antigen (DNA+), negative for the pan leukocyte marker CD45, and positive for CD31 and CD146. Following an approach recently validated in our laboratory, we investigated the expression of CD109 on CECs from the peripheral blood of healthy subject and cancer patients. The endothelial nature of these cells was validated by RT-PCR for the presence of m-RNA level of CDH5 (Ve-Cadherin) and CLDN5 (Claudin5), two endothelial specific transcripts. Before treatment, significantly higher levels of CD109+ CECs and viable CD109+CECs were found in breast cancer patients and glioblastoma patients compared to healthy controls, and their number significantly decreased after treatment. Higher levels of endothelial specific transcripts expressed in developing endothelial cells CLEC14a, TMEM204, ARHGEF15, GPR116, were observed in sorted CD109+CECs when compared to sorted CD146+CECs, suggesting that these genes can play an important role not only during embryogenesis but also in adult angiogenesis. Interestingly, mRNA levels of TEM8 (identified as Antrax Toxin Receptor1, Antrax1) were expressed in CD109+CECs+ but not in CD146+CECs. CONCLUSION:Taken together our results suggest that CD109 represent a rare population of circulating tumor endothelial cells, that play a potentially useful prognostic role in patients with glioblastoma. The role of CD109 expression in cancer vessel-specific endothelial cells deserves to be further investigated by gene expression studies.http://europepmc.org/articles/PMC4266608?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Patrizia Mancuso
Angelica Calleri
Giuliana Gregato
Valentina Labanca
Jessica Quarna
Pierluigi Antoniotti
Lucia Cuppini
Gaetano Finocchiaro
Marica Eoli
Vittorio Rosti
Francesco Bertolini
spellingShingle Patrizia Mancuso
Angelica Calleri
Giuliana Gregato
Valentina Labanca
Jessica Quarna
Pierluigi Antoniotti
Lucia Cuppini
Gaetano Finocchiaro
Marica Eoli
Vittorio Rosti
Francesco Bertolini
A subpopulation of circulating endothelial cells express CD109 and is enriched in the blood of cancer patients.
PLoS ONE
author_facet Patrizia Mancuso
Angelica Calleri
Giuliana Gregato
Valentina Labanca
Jessica Quarna
Pierluigi Antoniotti
Lucia Cuppini
Gaetano Finocchiaro
Marica Eoli
Vittorio Rosti
Francesco Bertolini
author_sort Patrizia Mancuso
title A subpopulation of circulating endothelial cells express CD109 and is enriched in the blood of cancer patients.
title_short A subpopulation of circulating endothelial cells express CD109 and is enriched in the blood of cancer patients.
title_full A subpopulation of circulating endothelial cells express CD109 and is enriched in the blood of cancer patients.
title_fullStr A subpopulation of circulating endothelial cells express CD109 and is enriched in the blood of cancer patients.
title_full_unstemmed A subpopulation of circulating endothelial cells express CD109 and is enriched in the blood of cancer patients.
title_sort subpopulation of circulating endothelial cells express cd109 and is enriched in the blood of cancer patients.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description BACKGROUND:The endothelium is not a homogeneous organ. Endothelial cell heterogeneity has been described at the level of cell morphology, function, gene expression, and antigen composition. As a consequence of the genetic, transcriptome and surrounding environment diversity, endothelial cells from different vascular beds have differentiated functions and phenotype. Detection of circulating endothelial cells (CECs) by flow cytometry is an approach widely used in cancer patients, and their number, viability and kinetic is a promising tool to stratify patient receiving anti-angiogenic treatment. METHODOLOGY/PRINCIPAL FINDINGS:Currently CECs are identified as positive for a nuclear binding antigen (DNA+), negative for the pan leukocyte marker CD45, and positive for CD31 and CD146. Following an approach recently validated in our laboratory, we investigated the expression of CD109 on CECs from the peripheral blood of healthy subject and cancer patients. The endothelial nature of these cells was validated by RT-PCR for the presence of m-RNA level of CDH5 (Ve-Cadherin) and CLDN5 (Claudin5), two endothelial specific transcripts. Before treatment, significantly higher levels of CD109+ CECs and viable CD109+CECs were found in breast cancer patients and glioblastoma patients compared to healthy controls, and their number significantly decreased after treatment. Higher levels of endothelial specific transcripts expressed in developing endothelial cells CLEC14a, TMEM204, ARHGEF15, GPR116, were observed in sorted CD109+CECs when compared to sorted CD146+CECs, suggesting that these genes can play an important role not only during embryogenesis but also in adult angiogenesis. Interestingly, mRNA levels of TEM8 (identified as Antrax Toxin Receptor1, Antrax1) were expressed in CD109+CECs+ but not in CD146+CECs. CONCLUSION:Taken together our results suggest that CD109 represent a rare population of circulating tumor endothelial cells, that play a potentially useful prognostic role in patients with glioblastoma. The role of CD109 expression in cancer vessel-specific endothelial cells deserves to be further investigated by gene expression studies.
url http://europepmc.org/articles/PMC4266608?pdf=render
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