Efficient ex vivo analysis of CD4+ T-cell responses using combinatorial HLA class II tetramer staining

Efficient ex vivo analysis of CD4+ T-cell responses using combinatorial HLA class II tetramer staining

Detection of antigen specificity in a blood sample is limited by low frequencies of individual clones. Here the authors develop an MHC class II combinatorial technique and apply it to immunophenotype human CD4+ T cells of multiple specificities in response to influenza vaccine in single blood sample...

Full description

Bibliographic Details
Main Authors: Hannes Uchtenhagen, Cliff Rims, Gabriele Blahnik, I-Ting Chow, William W. Kwok, Jane H. Buckner, Eddie A. James
Format: Article
Language:English
Published: Nature Publishing Group 2016-08-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms12614
id doaj-a2822371a2184c1581f604ee30e21895
record_format Article
spelling doaj-a2822371a2184c1581f604ee30e218952021-05-11T10:45:39ZengNature Publishing GroupNature Communications2041-17232016-08-017111210.1038/ncomms12614Efficient ex vivo analysis of CD4+ T-cell responses using combinatorial HLA class II tetramer stainingHannes Uchtenhagen0Cliff Rims1Gabriele Blahnik2I-Ting Chow3William W. Kwok4Jane H. Buckner5Eddie A. James6Benaroya Research Institute at Virginia Mason, Translational Research ProgramBenaroya Research Institute at Virginia Mason, Translational Research ProgramBenaroya Research Institute at Virginia Mason, Diabetes ProgramBenaroya Research Institute at Virginia Mason, Diabetes ProgramBenaroya Research Institute at Virginia Mason, Diabetes ProgramBenaroya Research Institute at Virginia Mason, Translational Research ProgramBenaroya Research Institute at Virginia Mason, Diabetes Program and Tetramer Core LaboratoryDetection of antigen specificity in a blood sample is limited by low frequencies of individual clones. Here the authors develop an MHC class II combinatorial technique and apply it to immunophenotype human CD4+ T cells of multiple specificities in response to influenza vaccine in single blood samples.https://doi.org/10.1038/ncomms12614
collection DOAJ
language English
format Article
sources DOAJ
author Hannes Uchtenhagen
Cliff Rims
Gabriele Blahnik
I-Ting Chow
William W. Kwok
Jane H. Buckner
Eddie A. James
spellingShingle Hannes Uchtenhagen
Cliff Rims
Gabriele Blahnik
I-Ting Chow
William W. Kwok
Jane H. Buckner
Eddie A. James
Efficient ex vivo analysis of CD4+ T-cell responses using combinatorial HLA class II tetramer staining
Nature Communications
author_facet Hannes Uchtenhagen
Cliff Rims
Gabriele Blahnik
I-Ting Chow
William W. Kwok
Jane H. Buckner
Eddie A. James
author_sort Hannes Uchtenhagen
title Efficient ex vivo analysis of CD4+ T-cell responses using combinatorial HLA class II tetramer staining
title_short Efficient ex vivo analysis of CD4+ T-cell responses using combinatorial HLA class II tetramer staining
title_full Efficient ex vivo analysis of CD4+ T-cell responses using combinatorial HLA class II tetramer staining
title_fullStr Efficient ex vivo analysis of CD4+ T-cell responses using combinatorial HLA class II tetramer staining
title_full_unstemmed Efficient ex vivo analysis of CD4+ T-cell responses using combinatorial HLA class II tetramer staining
title_sort efficient ex vivo analysis of cd4+ t-cell responses using combinatorial hla class ii tetramer staining
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2016-08-01
description Detection of antigen specificity in a blood sample is limited by low frequencies of individual clones. Here the authors develop an MHC class II combinatorial technique and apply it to immunophenotype human CD4+ T cells of multiple specificities in response to influenza vaccine in single blood samples.
url https://doi.org/10.1038/ncomms12614
work_keys_str_mv AT hannesuchtenhagen efficientexvivoanalysisofcd4tcellresponsesusingcombinatorialhlaclassiitetramerstaining
AT cliffrims efficientexvivoanalysisofcd4tcellresponsesusingcombinatorialhlaclassiitetramerstaining
AT gabrieleblahnik efficientexvivoanalysisofcd4tcellresponsesusingcombinatorialhlaclassiitetramerstaining
AT itingchow efficientexvivoanalysisofcd4tcellresponsesusingcombinatorialhlaclassiitetramerstaining
AT williamwkwok efficientexvivoanalysisofcd4tcellresponsesusingcombinatorialhlaclassiitetramerstaining
AT janehbuckner efficientexvivoanalysisofcd4tcellresponsesusingcombinatorialhlaclassiitetramerstaining
AT eddieajames efficientexvivoanalysisofcd4tcellresponsesusingcombinatorialhlaclassiitetramerstaining
_version_ 1721447645149396992

Similar Items