Protein signatures in exosome-like vesicles of uterine aspirates improve the diagnosis and stratification of endometrial cancer patients

Protein signatures in exosome-like vesicles of uterine aspirates improve the diagnosis and stratification of endometrial cancer patients

Background: Endometrial cancer (EC) accounts for more than 10,000 deaths per year in the US alone. EC is divided into the more common and less aggressive type 1 and the type 2. There is an urgent need to develop non-invasive tests that can provide early detection of EC and that can discriminate EC s...

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Veröffentlicht in:Journal of extracellular vesicles 2018-01, Vol.7, p.57-57
Hauptverfasser: Campoy, Irene, Moiola, Cristian, Hirschfeld, Marc, Asberger, Jasmin, Cabrera, Silvia, Matias-Guiu, Xavier, Reventos, Jaume, Sabidó, Eduard, Moreno, Antonio Gil, Thibault, Pierre, Colas, Eva
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Agrin
Cancer
CD81 antigen
Diagnosis
Endometrial cancer
Endometrium
Gel electrophoresis
Mass spectrometry
Mass spectroscopy
Nanoparticles
Patients
Proteins
Quantitation
Scientific imaging
Sodium lauryl sulfate
Trypsin
Ultracentrifugation
Uterine cancer
Uterus
Vesicles
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container_end_page 57
container_issue
container_start_page 57
container_title Journal of extracellular vesicles
container_volume 7
creator Campoy, Irene
Moiola, Cristian
Hirschfeld, Marc
Asberger, Jasmin
Cabrera, Silvia
Matias-Guiu, Xavier
Reventos, Jaume
Sabidó, Eduard
Moreno, Antonio Gil
Thibault, Pierre
Colas, Eva
description Background: Endometrial cancer (EC) accounts for more than 10,000 deaths per year in the US alone. EC is divided into the more common and less aggressive type 1 and the type 2. There is an urgent need to develop non-invasive tests that can provide early detection of EC and that can discriminate EC subtypes. This study focuses on the identification of protein biomarkers in exosome-like vesicles (ELVs) isolated from uterine aspirates. Uterine aspirates are collected by a minimally invasive procedure and it represents the ideal body fluid since it is the closest to the neoplasic endometrium cells. Methods: Protein extracts from purified ELVs were obtained following ultracentrifugation of UAs from age-matched groups of control, type 1 and type 2 EC patients (10 patients/group). The quality of ELVs was monitored by nanoparticle tracking analysis and immunoblot. To profile protein abundance across different groups, we develop a super-SILAC approach where ELV proteins from three different EC cell lines grown in heavy amino acids were combined with ELV protein extracts of each patient. Proteins were separated by SDS-PAGE and 10 gel-isolated bands per patient were digested with trypsin and analysed by mass spectrometry. From 2138 proteins identified, we generated a list of 54 protein candidates that were further validated by selected reaction monitoring (SRM) in an independent cohort of 107 patients including type 1 EC (n = 45) EC, type 2 EC (n = 21) and controls (n = 41). A total of 86 unique peptides matching the proteins of interest were monitored. Protein quantitation was performed using a QTRAP 5500 Sciex instrument. Results: Our targeted mass spectrometry approach confirmed that ELVs from uterine aspirates contain proteins that can discriminate between cancer patients and healthy individuals, and can classify EC in the different subtypes. A 2-protein signature, composed of Agrin and CD81, achieved an AUC = 0.935 for EC diagnosis. In addition, we also report a new protein signature, combining CLD6, and RAB8A, that can differentiate type 1 versus type 2 EC (AUC = 0.932). This study has important implications in early detection of EC and in patient stratification. Summary/conclusion: A targeted mass spectrometry approach defines protein signatures for endometrial cancer diagnosis and stratification of patients in ELVs isolated from uterine aspirates.
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EC is divided into the more common and less aggressive type 1 and the type 2. There is an urgent need to develop non-invasive tests that can provide early detection of EC and that can discriminate EC subtypes. This study focuses on the identification of protein biomarkers in exosome-like vesicles (ELVs) isolated from uterine aspirates. Uterine aspirates are collected by a minimally invasive procedure and it represents the ideal body fluid since it is the closest to the neoplasic endometrium cells. Methods: Protein extracts from purified ELVs were obtained following ultracentrifugation of UAs from age-matched groups of control, type 1 and type 2 EC patients (10 patients/group). The quality of ELVs was monitored by nanoparticle tracking analysis and immunoblot. To profile protein abundance across different groups, we develop a super-SILAC approach where ELV proteins from three different EC cell lines grown in heavy amino acids were combined with ELV protein extracts of each patient. Proteins were separated by SDS-PAGE and 10 gel-isolated bands per patient were digested with trypsin and analysed by mass spectrometry. From 2138 proteins identified, we generated a list of 54 protein candidates that were further validated by selected reaction monitoring (SRM) in an independent cohort of 107 patients including type 1 EC (n = 45) EC, type 2 EC (n = 21) and controls (n = 41). A total of 86 unique peptides matching the proteins of interest were monitored. Protein quantitation was performed using a QTRAP 5500 Sciex instrument. Results: Our targeted mass spectrometry approach confirmed that ELVs from uterine aspirates contain proteins that can discriminate between cancer patients and healthy individuals, and can classify EC in the different subtypes. A 2-protein signature, composed of Agrin and CD81, achieved an AUC = 0.935 for EC diagnosis. In addition, we also report a new protein signature, combining CLD6, and RAB8A, that can differentiate type 1 versus type 2 EC (AUC = 0.932). This study has important implications in early detection of EC and in patient stratification. 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In addition, we also report a new protein signature, combining CLD6, and RAB8A, that can differentiate type 1 versus type 2 EC (AUC = 0.932). This study has important implications in early detection of EC and in patient stratification. 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EC is divided into the more common and less aggressive type 1 and the type 2. There is an urgent need to develop non-invasive tests that can provide early detection of EC and that can discriminate EC subtypes. This study focuses on the identification of protein biomarkers in exosome-like vesicles (ELVs) isolated from uterine aspirates. Uterine aspirates are collected by a minimally invasive procedure and it represents the ideal body fluid since it is the closest to the neoplasic endometrium cells. Methods: Protein extracts from purified ELVs were obtained following ultracentrifugation of UAs from age-matched groups of control, type 1 and type 2 EC patients (10 patients/group). The quality of ELVs was monitored by nanoparticle tracking analysis and immunoblot. To profile protein abundance across different groups, we develop a super-SILAC approach where ELV proteins from three different EC cell lines grown in heavy amino acids were combined with ELV protein extracts of each patient. Proteins were separated by SDS-PAGE and 10 gel-isolated bands per patient were digested with trypsin and analysed by mass spectrometry. From 2138 proteins identified, we generated a list of 54 protein candidates that were further validated by selected reaction monitoring (SRM) in an independent cohort of 107 patients including type 1 EC (n = 45) EC, type 2 EC (n = 21) and controls (n = 41). A total of 86 unique peptides matching the proteins of interest were monitored. Protein quantitation was performed using a QTRAP 5500 Sciex instrument. Results: Our targeted mass spectrometry approach confirmed that ELVs from uterine aspirates contain proteins that can discriminate between cancer patients and healthy individuals, and can classify EC in the different subtypes. A 2-protein signature, composed of Agrin and CD81, achieved an AUC = 0.935 for EC diagnosis. In addition, we also report a new protein signature, combining CLD6, and RAB8A, that can differentiate type 1 versus type 2 EC (AUC = 0.932). This study has important implications in early detection of EC and in patient stratification. Summary/conclusion: A targeted mass spectrometry approach defines protein signatures for endometrial cancer diagnosis and stratification of patients in ELVs isolated from uterine aspirates.</abstract><cop>Abingdon</cop><pub>John Wiley &amp; Sons, Inc</pub></addata></record>
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subjects Agrin
Cancer
CD81 antigen
Diagnosis
Endometrial cancer
Endometrium
Gel electrophoresis
Mass spectrometry
Mass spectroscopy
Nanoparticles
Patients
Proteins
Quantitation
Scientific imaging
Sodium lauryl sulfate
Trypsin
Ultracentrifugation
Uterine cancer
Uterus
Vesicles
title Protein signatures in exosome-like vesicles of uterine aspirates improve the diagnosis and stratification of endometrial cancer patients
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