Identification of protein targets in cerebral endothelial cells for brain arteriovenous malformation (AVMs) molecular therapies

To develop a new molecular targeted treatment for brain (AVMs), identification of membrane proteins that are localised on the AVM endothelium is crucial. Current treatment methods are surgery and radiosurgery. However, complete occlusion post radiosurgery are achieved within 3 years, while patient r...

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Bibliographic Details
Published in:Clinical proteomics 2017-05, Vol.14 (1), p.17-17, Article 17
Main Authors: Simonian, Margaret, Loo, Rachel R Ogorzalek, Rannulu, Nalaka, Loo, Joseph A, Molloy, Mark P, Stoodley, Marcus A
Format: Article
Language:English
Subjects:
Animal models
Arteriovenous malformations
Biotinylation
Brain
Brain research
CD31 antigen
Cell adhesion & migration
Cell culture
Cell surface
Cerebral blood flow
Computer programs
Computer simulation
Culture
Data processing
Endothelial cells
Endothelium
Exposure
Hemorrhage
Identification
Immunocytochemistry
Integrins
Irradiation
Ischemia
Mass spectrometry
Mass spectroscopy
Membrane proteins
Methods
Occlusion
Proteins
Proteomics
Radiology
Radiosurgery
Rodents
Software
Surgery
Thromboembolism
Thrombosis
Water analysis
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Summary:To develop a new molecular targeted treatment for brain (AVMs), identification of membrane proteins that are localised on the AVM endothelium is crucial. Current treatment methods are surgery and radiosurgery. However, complete occlusion post radiosurgery are achieved within 3 years, while patient remain at risk of haemorrhage. This study aims to identify potential protein targets in AVM endothelial cells that discriminate these vessels from normal vessels; these proteins targets will be investigated for the molecular therapy of brain AVMs to promote rapid thrombosis after radiosurgery. We employed in vitro biotinylation that we developed, and mass spectrometry to detect cell surface-exposed proteins in cultures of murine cerebral endothelial cells (bEnd.3). Two forms of mass spectrometry were applied (iTRAQ-MS and MS ) to identify and quantify membrane protein expression at various time-points following irradiation which simulates a radiosurgical treatment approach. Immunocytochemistry was used to confirm the expression of selected membrane proteins. ProteinPilot V4.0 software was used to analyse the iTRAQ-MS data and the MS data was analysed using ProteinLynx Global Server version 2.5 software. The proteomics data revealed several differentially expressed membrane proteins between irradiated and non-irradiated cells at specific time points, e.g. PECAM-1, cadherin-5, PDI, EPCR and integrins. Immunocytochemistry data confirmed the expression of these proteins. Cell surface protein biotinylation and proteomics analysis successfully identified membrane proteins from murine brain endothelial cells in response to irradiation. This work suggests potential target protein molecules for evaluation in animal models of brain-AVM.
ISSN:1542-6416
1559-0275
DOI:10.1186/s12014-017-9151-3