ARTEMIS: A Novel Mass-Spec Platform for HLA-Restricted Self and Disease-Associated Peptide Discovery

Conventional immunoprecipitation/mass spectroscopy identification of HLA-restricted peptides remains the purview of specializing laboratories, due to the complexity of the methodology, and requires computational post-analysis to assign peptides to individual alleles when using pan-HLA antibodies. We...

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Published inFrontiers in immunology Vol. 12; p. 658372
Main Authors Finton, Kathryn A. K., Brusniak, Mi-Youn, Jones, Lisa A., Lin, Chenwei, Fioré-Gartland, Andrew J., Brock, Chance, Gafken, Philip R., Strong, Roland K.
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Media S.A 23.04.2021
Subjects
Immunology
immunotherapy
ligandome analysis
mass spectrometry
MHC class I
peptide-HLA complex
MHC class I
mass spectrometry
peptide-HLA complex
ligandome analysis
immunotherapy
Online AccessGet full text
ISSN1664-3224
1664-3224
DOI10.3389/fimmu.2021.658372

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Abstract Conventional immunoprecipitation/mass spectroscopy identification of HLA-restricted peptides remains the purview of specializing laboratories, due to the complexity of the methodology, and requires computational post-analysis to assign peptides to individual alleles when using pan-HLA antibodies. We have addressed these limitations with ARTEMIS: a simple, robust, and flexible platform for peptide discovery across ligandomes, optionally including specific proteins-of-interest, that combines novel, secreted HLA-I discovery reagents spanning multiple alleles, optimized lentiviral transduction, and streamlined affinity-tag purification to improve upon conventional methods. This platform fills a middle ground between existing techniques: sensitive and adaptable, but easy and affordable enough to be widely employed by general laboratories. We used ARTEMIS to catalog allele-specific ligandomes from HEK293 cells for seven classical HLA alleles and compared results across replicates, against computational predictions, and against high-quality conventional datasets. We also applied ARTEMIS to identify potentially useful, novel HLA-restricted peptide targets from oncovirus oncoproteins and tumor-associated antigens.
AbstractList Conventional immunoprecipitation/mass spectroscopy identification of HLA-restricted peptides remains the purview of specializing laboratories, due to the complexity of the methodology, and requires computational post-analysis to assign peptides to individual alleles when using pan-HLA antibodies. We have addressed these limitations with ARTEMIS: a simple, robust, and flexible platform for peptide discovery across ligandomes, optionally including specific proteins-of-interest, that combines novel, secreted HLA-I discovery reagents spanning multiple alleles, optimized lentiviral transduction, and streamlined affinity-tag purification to improve upon conventional methods. This platform fills a middle ground between existing techniques: sensitive and adaptable, but easy and affordable enough to be widely employed by general laboratories. We used ARTEMIS to catalog allele-specific ligandomes from HEK293 cells for seven classical HLA alleles and compared results across replicates, against computational predictions, and against high-quality conventional datasets. We also applied ARTEMIS to identify potentially useful, novel HLA-restricted peptide targets from oncovirus oncoproteins and tumor-associated antigens.Conventional immunoprecipitation/mass spectroscopy identification of HLA-restricted peptides remains the purview of specializing laboratories, due to the complexity of the methodology, and requires computational post-analysis to assign peptides to individual alleles when using pan-HLA antibodies. We have addressed these limitations with ARTEMIS: a simple, robust, and flexible platform for peptide discovery across ligandomes, optionally including specific proteins-of-interest, that combines novel, secreted HLA-I discovery reagents spanning multiple alleles, optimized lentiviral transduction, and streamlined affinity-tag purification to improve upon conventional methods. This platform fills a middle ground between existing techniques: sensitive and adaptable, but easy and affordable enough to be widely employed by general laboratories. We used ARTEMIS to catalog allele-specific ligandomes from HEK293 cells for seven classical HLA alleles and compared results across replicates, against computational predictions, and against high-quality conventional datasets. We also applied ARTEMIS to identify potentially useful, novel HLA-restricted peptide targets from oncovirus oncoproteins and tumor-associated antigens.
Conventional immunoprecipitation/mass spectroscopy identification of HLA-restricted peptides remains the purview of specializing laboratories, due to the complexity of the methodology, and requires computational post-analysis to assign peptides to individual alleles when using pan-HLA antibodies. We have addressed these limitations with ARTEMIS: a simple, robust, and flexible platform for peptide discovery across ligandomes, optionally including specific proteins-of-interest, that combines novel, secreted HLA-I discovery reagents spanning multiple alleles, optimized lentiviral transduction, and streamlined affinity-tag purification to improve upon conventional methods. This platform fills a middle ground between existing techniques: sensitive and adaptable, but easy and affordable enough to be widely employed by general laboratories. We used ARTEMIS to catalog allele-specific ligandomes from HEK293 cells for seven classical HLA alleles and compared results across replicates, against computational predictions, and against high-quality conventional datasets. We also applied ARTEMIS to identify potentially useful, novel HLA-restricted peptide targets from oncovirus oncoproteins and tumor-associated antigens.
Author Lin, Chenwei
Gafken, Philip R.
Brock, Chance
Finton, Kathryn A. K.
Jones, Lisa A.
Brusniak, Mi-Youn
Fioré-Gartland, Andrew J.
Strong, Roland K.
AuthorAffiliation 3 Proteomics Shared Resource, Fred Hutchinson Cancer Research Center , Seattle, WA , United States
1 Division of Basic Science, Fred Hutchinson Cancer Research Center , Seattle, WA , United States
2 Clinical Research Division, Fred Hutchinson Cancer Research Center , Seattle, WA , United States
4 Vaccine and Infectious Disease Division, Fred Hutchinson Cancer Research Center , Seattle, WA , United States
AuthorAffiliation_xml – name: 2 Clinical Research Division, Fred Hutchinson Cancer Research Center , Seattle, WA , United States
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– name: 1 Division of Basic Science, Fred Hutchinson Cancer Research Center , Seattle, WA , United States
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Keywords MHC class I
mass spectrometry
peptide-HLA complex
ligandome analysis
immunotherapy
Language English
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Reviewed by: Frank Momburg, German Cancer Research Center (DKFZ), Germany; Angelika B. Riemer, German Cancer Research Center (DKFZ), Germany
Edited by: Khashayarsha Khazaie, Mayo Clinic College of Medicine and Science, United States
This article was submitted to Cancer Immunity and Immunotherapy, a section of the journal Frontiers in Immunology
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Snippet Conventional immunoprecipitation/mass spectroscopy identification of HLA-restricted peptides remains the purview of specializing laboratories, due to the...
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SubjectTerms Immunology
immunotherapy
ligandome analysis
mass spectrometry
MHC class I
peptide-HLA complex
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Title ARTEMIS: A Novel Mass-Spec Platform for HLA-Restricted Self and Disease-Associated Peptide Discovery
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