Purine nucleotide metabolism regulates expression of the human immune ligand MICA

Expression of the cell-surface glycoprotein MHC class I polypeptide-related sequence A (MICA) is induced in dangerous, abnormal, or “stressed” cells, including cancer cells, virus-infected cells, and rapidly proliferating cells. MICA is recognized by the activating immune cell receptor natural kille...

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Published inThe Journal of biological chemistry Vol. 293; no. 11; pp. 3913 - 3924
Main Authors McCarthy, Michael T., Moncayo, Gerard, Hiron, Thomas K., Jakobsen, Niels A., Valli, Alessandro, Soga, Tomoyoshi, Adam, Julie, O’Callaghan, Christopher A.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 16.03.2018
American Society for Biochemistry and Molecular Biology
Subjects
Gene Expression Regulation - drug effects
Glucose - pharmacology
HEK293 Cells
HeLa Cells
Histocompatibility Antigens Class I - genetics
Histocompatibility Antigens Class I - metabolism
Humans
Immunology
immunometabolism
immunosurveillance
innate immunity
Ligands
MCF-7 Cells
metabolism
Metabolome - drug effects
natural killer cells (NK cells)
NK Cell Lectin-Like Receptor Subfamily K - genetics
NK Cell Lectin-Like Receptor Subfamily K - metabolism
NKG2D ligands
nucleoside/nucleotide metabolism
purine
purine metabolism, glucose metabolism
Purine Nucleotides - pharmacology
Warburg effect
nucleoside/nucleotide metabolism
purine metabolism, glucose metabolism
innate immunity
immunometabolism
NKG2D ligands
purine
metabolism
natural killer cells (NK cells)
immunology
immunosurveillance
Warburg effect
Online AccessGet full text
ISSN0021-9258
1083-351X
1083-351X
DOI10.1074/jbc.M117.809459

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Abstract Expression of the cell-surface glycoprotein MHC class I polypeptide-related sequence A (MICA) is induced in dangerous, abnormal, or “stressed” cells, including cancer cells, virus-infected cells, and rapidly proliferating cells. MICA is recognized by the activating immune cell receptor natural killer group 2D (NKG2D), providing a mechanism by which immune cells can identify and potentially eliminate pathological cells. Immune recognition through NKG2D is implicated in cancer, atherosclerosis, transplant rejection, and inflammatory diseases, such as rheumatoid arthritis. Despite the wide range of potential therapeutic applications of MICA manipulation, the factors that control MICA expression are unclear. Here we use metabolic interventions and metabolomic analyses to show that the transition from quiescent cellular metabolism to a “Warburg” or biosynthetic metabolic state induces MICA expression. Specifically, we show that glucose transport into the cell and active glycolytic metabolism are necessary to up-regulate MICA expression. Active purine synthesis is necessary to support this effect of glucose, and increases in purine nucleotide levels are sufficient to induce MICA expression. Metabolic induction of MICA expression directly influences NKG2D-dependent cytotoxicity by immune cells. These findings support a model of MICA regulation whereby the purine metabolic activity of individual cells is reflected by cell-surface MICA expression and is the subject of surveillance by NKG2D receptor-expressing immune cells.
AbstractList Expression of the cell-surface glycoprotein MHC class I polypeptide-related sequence A (MICA) is induced in dangerous, abnormal, or "stressed" cells, including cancer cells, virus-infected cells, and rapidly proliferating cells. MICA is recognized by the activating immune cell receptor natural killer group 2D (NKG2D), providing a mechanism by which immune cells can identify and potentially eliminate pathological cells. Immune recognition through NKG2D is implicated in cancer, atherosclerosis, transplant rejection, and inflammatory diseases, such as rheumatoid arthritis. Despite the wide range of potential therapeutic applications of MICA manipulation, the factors that control MICA expression are unclear. Here we use metabolic interventions and metabolomic analyses to show that the transition from quiescent cellular metabolism to a "Warburg" or biosynthetic metabolic state induces MICA expression. Specifically, we show that glucose transport into the cell and active glycolytic metabolism are necessary to up-regulate MICA expression. Active purine synthesis is necessary to support this effect of glucose, and increases in purine nucleotide levels are sufficient to induce MICA expression. Metabolic induction of MICA expression directly influences NKG2D-dependent cytotoxicity by immune cells. These findings support a model of MICA regulation whereby the purine metabolic activity of individual cells is reflected by cell-surface MICA expression and is the subject of surveillance by NKG2D receptor-expressing immune cells.
Expression of the cell-surface glycoprotein MHC class I polypeptide-related sequence A (MICA) is induced in dangerous, abnormal, or "stressed" cells, including cancer cells, virus-infected cells, and rapidly proliferating cells. MICA is recognized by the activating immune cell receptor natural killer group 2D (NKG2D), providing a mechanism by which immune cells can identify and potentially eliminate pathological cells. Immune recognition through NKG2D is implicated in cancer, atherosclerosis, transplant rejection, and inflammatory diseases, such as rheumatoid arthritis. Despite the wide range of potential therapeutic applications of MICA manipulation, the factors that control MICA expression are unclear. Here we use metabolic interventions and metabolomic analyses to show that the transition from quiescent cellular metabolism to a "Warburg" or biosynthetic metabolic state induces MICA expression. Specifically, we show that glucose transport into the cell and active glycolytic metabolism are necessary to up-regulate MICA expression. Active purine synthesis is necessary to support this effect of glucose, and increases in purine nucleotide levels are sufficient to induce MICA expression. Metabolic induction of MICA expression directly influences NKG2D-dependent cytotoxicity by immune cells. These findings support a model of MICA regulation whereby the purine metabolic activity of individual cells is reflected by cell-surface MICA expression and is the subject of surveillance by NKG2D receptor-expressing immune cells.Expression of the cell-surface glycoprotein MHC class I polypeptide-related sequence A (MICA) is induced in dangerous, abnormal, or "stressed" cells, including cancer cells, virus-infected cells, and rapidly proliferating cells. MICA is recognized by the activating immune cell receptor natural killer group 2D (NKG2D), providing a mechanism by which immune cells can identify and potentially eliminate pathological cells. Immune recognition through NKG2D is implicated in cancer, atherosclerosis, transplant rejection, and inflammatory diseases, such as rheumatoid arthritis. Despite the wide range of potential therapeutic applications of MICA manipulation, the factors that control MICA expression are unclear. Here we use metabolic interventions and metabolomic analyses to show that the transition from quiescent cellular metabolism to a "Warburg" or biosynthetic metabolic state induces MICA expression. Specifically, we show that glucose transport into the cell and active glycolytic metabolism are necessary to up-regulate MICA expression. Active purine synthesis is necessary to support this effect of glucose, and increases in purine nucleotide levels are sufficient to induce MICA expression. Metabolic induction of MICA expression directly influences NKG2D-dependent cytotoxicity by immune cells. These findings support a model of MICA regulation whereby the purine metabolic activity of individual cells is reflected by cell-surface MICA expression and is the subject of surveillance by NKG2D receptor-expressing immune cells.
Author Soga, Tomoyoshi
Hiron, Thomas K.
Moncayo, Gerard
O’Callaghan, Christopher A.
Adam, Julie
Jakobsen, Niels A.
McCarthy, Michael T.
Valli, Alessandro
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  givenname: Thomas K.
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  givenname: Niels A.
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  givenname: Julie
  surname: Adam
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  organization: From the Wellcome Trust Centre for Human Genetics, Nuffield Department of Medicine, University of Oxford, Oxford OX3 7BN, United Kingdom
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  givenname: Christopher A.
  surname: O’Callaghan
  fullname: O’Callaghan, Christopher A.
  email: chris.ocallaghan@ndm.ox.ac.uk
  organization: From the Wellcome Trust Centre for Human Genetics, Nuffield Department of Medicine, University of Oxford, Oxford OX3 7BN, United Kingdom
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ContentType Journal Article
Copyright 2018 © 2018 by The American Society for Biochemistry and Molecular Biology, Inc.
2018 by The American Society for Biochemistry and Molecular Biology, Inc.
2018 by The American Society for Biochemistry and Molecular Biology, Inc. 2018 The American Society for Biochemistry and Molecular Biology, Inc.
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Issue 11
Keywords nucleoside/nucleotide metabolism
purine metabolism, glucose metabolism
innate immunity
immunometabolism
NKG2D ligands
purine
metabolism
natural killer cells (NK cells)
immunology
immunosurveillance
Warburg effect
Language English
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2018 by The American Society for Biochemistry and Molecular Biology, Inc.
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Edited by Luke O'Neill
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Snippet Expression of the cell-surface glycoprotein MHC class I polypeptide-related sequence A (MICA) is induced in dangerous, abnormal, or “stressed” cells, including...
Expression of the cell-surface glycoprotein MHC class I polypeptide-related sequence A (MICA) is induced in dangerous, abnormal, or "stressed" cells, including...
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SubjectTerms Gene Expression Regulation - drug effects
Glucose - pharmacology
HEK293 Cells
HeLa Cells
Histocompatibility Antigens Class I - genetics
Histocompatibility Antigens Class I - metabolism
Humans
Immunology
immunometabolism
immunosurveillance
innate immunity
Ligands
MCF-7 Cells
metabolism
Metabolome - drug effects
natural killer cells (NK cells)
NK Cell Lectin-Like Receptor Subfamily K - genetics
NK Cell Lectin-Like Receptor Subfamily K - metabolism
NKG2D ligands
nucleoside/nucleotide metabolism
purine
purine metabolism, glucose metabolism
Purine Nucleotides - pharmacology
Warburg effect
Title Purine nucleotide metabolism regulates expression of the human immune ligand MICA
URI https://dx.doi.org/10.1074/jbc.M117.809459
https://www.ncbi.nlm.nih.gov/pubmed/29279329
https://www.proquest.com/docview/1981055921
https://pubmed.ncbi.nlm.nih.gov/PMC5857976
Volume 293
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