An improved strategy to recover large fragments of functional human neutrophil extracellular traps

An improved strategy to recover large fragments of functional human neutrophil extracellular traps

Netosis is a recently described neutrophil function that leads to the release of neutrophil extracellular traps (NETs) in response to various stimuli. NETs are filaments of decondensed chromatin associated with granular proteins. In addition to their role against microorganisms, NETs have been impli...

Full description

Bibliographic Details
Main Authors: Lorena eBarrientos, Viviana eMarin-Esteban, Luc ede Chaisemartin, Vanessa eLievin le moal, Catherine eSandre, Elsa eBianchini, Valerie eNicolas, Marc ePallardy, Sylvie eChollet-Martin
Format: Article
Language:English
Published: Frontiers Media S.A. 2013-06-01
Series:Frontiers in Immunology
Subjects:
Neutrophil
characterization
neutrophil extracellular traps
quantification
Isolation
NEtosis
Online Access:http://journal.frontiersin.org/Journal/10.3389/fimmu.2013.00166/full
id doaj-d8c2063e67d043eb8e033d76e8570367
record_format Article
spelling doaj-d8c2063e67d043eb8e033d76e85703672020-11-24T22:46:10ZengFrontiers Media S.A.Frontiers in Immunology1664-32242013-06-01410.3389/fimmu.2013.0016652996An improved strategy to recover large fragments of functional human neutrophil extracellular trapsLorena eBarrientos0Viviana eMarin-Esteban1Luc ede Chaisemartin2Luc ede Chaisemartin3Vanessa eLievin le moal4Catherine eSandre5Elsa eBianchini6Valerie eNicolas7Marc ePallardy8Sylvie eChollet-Martin9Sylvie eChollet-Martin10INSERM UMRS 996, Université Paris-SudINSERM UMRS 996, Université Paris-SudINSERM UMRS 996, Université Paris-SudHôpital Bichat, APHPUniversity Paris-SudINSERM UMRS 996, Université Paris-SudUniversity Paris-SudUniversity Paris-SudINSERM UMRS 996, Université Paris-SudINSERM UMRS 996, Université Paris-SudHôpital Bichat, APHPNetosis is a recently described neutrophil function that leads to the release of neutrophil extracellular traps (NETs) in response to various stimuli. NETs are filaments of decondensed chromatin associated with granular proteins. In addition to their role against microorganisms, NETs have been implicated in autoimmunity, thrombosis and tissue injury. Access to a standardized source of isolated NETs is needed to better analyze the roles of NETs. The aim of this study was to develop a procedure yielding soluble, well-characterized NET preparations from fresh human neutrophils. The calcium ionophore A23187 was chosen to induce netosis, and the restriction enzyme Alu I was used to prepare large NET fragments. DNA and proteins were detected by electrophoresis and specific labeling. Some NET proteins (histone 3, lactoferrin) were quantified by western blotting, and dsDNA was quantified by immunofluorescence. Co-existence of dsDNA and neutrophil proteins confirmed the quality of the NET preparations. Their biological activity was checked by measuring elastase activity and bacterial killing against various strains. Interindividual differences in histone 3, lactoferrin, elastase and dsDNA relative contents were observed in isolated NETs. However, the reproducibility of NET preparation and characterization was validated, suggesting that this interindividual variability was rather related to donor variation than to technical bias. This standardized protocol is suitable for producing, isolating and quantifying functional NETs that could serve as a tool for studying NET effects on immune cells and tissues.http://journal.frontiersin.org/Journal/10.3389/fimmu.2013.00166/fullNeutrophilcharacterizationneutrophil extracellular trapsquantificationIsolationNEtosis
collection DOAJ
language English
format Article
sources DOAJ
author Lorena eBarrientos
Viviana eMarin-Esteban
Luc ede Chaisemartin
Luc ede Chaisemartin
Vanessa eLievin le moal
Catherine eSandre
Elsa eBianchini
Valerie eNicolas
Marc ePallardy
Sylvie eChollet-Martin
Sylvie eChollet-Martin
spellingShingle Lorena eBarrientos
Viviana eMarin-Esteban
Luc ede Chaisemartin
Luc ede Chaisemartin
Vanessa eLievin le moal
Catherine eSandre
Elsa eBianchini
Valerie eNicolas
Marc ePallardy
Sylvie eChollet-Martin
Sylvie eChollet-Martin
An improved strategy to recover large fragments of functional human neutrophil extracellular traps
Frontiers in Immunology
Neutrophil
characterization
neutrophil extracellular traps
quantification
Isolation
NEtosis
author_facet Lorena eBarrientos
Viviana eMarin-Esteban
Luc ede Chaisemartin
Luc ede Chaisemartin
Vanessa eLievin le moal
Catherine eSandre
Elsa eBianchini
Valerie eNicolas
Marc ePallardy
Sylvie eChollet-Martin
Sylvie eChollet-Martin
author_sort Lorena eBarrientos
title An improved strategy to recover large fragments of functional human neutrophil extracellular traps
title_short An improved strategy to recover large fragments of functional human neutrophil extracellular traps
title_full An improved strategy to recover large fragments of functional human neutrophil extracellular traps
title_fullStr An improved strategy to recover large fragments of functional human neutrophil extracellular traps
title_full_unstemmed An improved strategy to recover large fragments of functional human neutrophil extracellular traps
title_sort improved strategy to recover large fragments of functional human neutrophil extracellular traps
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2013-06-01
description Netosis is a recently described neutrophil function that leads to the release of neutrophil extracellular traps (NETs) in response to various stimuli. NETs are filaments of decondensed chromatin associated with granular proteins. In addition to their role against microorganisms, NETs have been implicated in autoimmunity, thrombosis and tissue injury. Access to a standardized source of isolated NETs is needed to better analyze the roles of NETs. The aim of this study was to develop a procedure yielding soluble, well-characterized NET preparations from fresh human neutrophils. The calcium ionophore A23187 was chosen to induce netosis, and the restriction enzyme Alu I was used to prepare large NET fragments. DNA and proteins were detected by electrophoresis and specific labeling. Some NET proteins (histone 3, lactoferrin) were quantified by western blotting, and dsDNA was quantified by immunofluorescence. Co-existence of dsDNA and neutrophil proteins confirmed the quality of the NET preparations. Their biological activity was checked by measuring elastase activity and bacterial killing against various strains. Interindividual differences in histone 3, lactoferrin, elastase and dsDNA relative contents were observed in isolated NETs. However, the reproducibility of NET preparation and characterization was validated, suggesting that this interindividual variability was rather related to donor variation than to technical bias. This standardized protocol is suitable for producing, isolating and quantifying functional NETs that could serve as a tool for studying NET effects on immune cells and tissues.
topic Neutrophil
characterization
neutrophil extracellular traps
quantification
Isolation
NEtosis
url http://journal.frontiersin.org/Journal/10.3389/fimmu.2013.00166/full
work_keys_str_mv AT lorenaebarrientos animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT vivianaemarinesteban animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT lucedechaisemartin animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT lucedechaisemartin animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT vanessaelievinlemoal animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT catherineesandre animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT elsaebianchini animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT valerieenicolas animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT marcepallardy animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT sylvieecholletmartin animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT sylvieecholletmartin animprovedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT lorenaebarrientos improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT vivianaemarinesteban improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT lucedechaisemartin improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT lucedechaisemartin improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT vanessaelievinlemoal improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT catherineesandre improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT elsaebianchini improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT valerieenicolas improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT marcepallardy improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT sylvieecholletmartin improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
AT sylvieecholletmartin improvedstrategytorecoverlargefragmentsoffunctionalhumanneutrophilextracellulartraps
_version_ 1725685961409429504

Similar Items