Immunoproteomic identification and characterization of Ni2+-regulated proteins implicates Ni2+ in the induction of monocyte cell death

Nickel allergy is the most common cause of allergic reactions worldwide, with cutaneous and systemic effects potentially affecting multiple organs. Monocytes are precursors of not only macrophages but also dendritic cells, the most potent activators of nickel hypersensitivity. Monocytes are themselv...

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Published in:Cell death & disease 2017-03, Vol.8 (3), p.e2684-e2684
Main Authors: Jakob, Annika, Mussotter, Franz, Ohnesorge, Stefanie, Dietz, Lisa, Pardo, Julian, Haidl, Ian D, Thierse, Hermann-Josef
Format: Article
Language:English
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Allergies
Antibodies
Biochemistry
Biomedical and Life Sciences
Cell Biology
Cell Culture
Cell death
Cells
Immunology
Life Sciences
Nickel
Original
original-article
Proteins
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Summary:Nickel allergy is the most common cause of allergic reactions worldwide, with cutaneous and systemic effects potentially affecting multiple organs. Monocytes are precursors of not only macrophages but also dendritic cells, the most potent activators of nickel hypersensitivity. Monocytes are themselves important antigen-presenting cells, capable of nickel-specific T-cell activation in vivo and in vitro , in addition to being important for immediate innate immune inflammation. To elucidate early Ni 2+ -dependent inflammatory molecular mechanisms in human monocytes, a Ni 2+ -specific proteomic approach was applied. Quantitative two-dimensional (2D) differential gel electrophoresis and Delta2D software analyses coupled with matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) revealed that Ni 2+ significantly regulated 56 protein species, of which 36 were analyzed by MALDI-MS. Bioinformatics analyses of all identified proteins resulted in Ni 2+ -associated functional annotation clusters, such as cell death, metal ion binding, and cytoskeletal remodeling. The involvement of Ni 2+ in the induction of monocyte cell death, but not T-cell death, was observed at Ni 2+ concentrations at or above 250  μ M. Examination of caspase activity during Ni 2+ -mediated cell death revealed monocytic cell death independent of caspase-3 and -7 activity. However, confocal microscopy analysis demonstrated Ni 2+ -triggered cytoskeletal remodeling and nuclear condensation, characteristic of cellular apoptosis. Thus, Ni 2+ -specific peripheral blood mononuclear cell stimulation suggests monocytic cell death at Ni 2+ concentrations at or above 250  μ M, and monocytic effects on immune regulation at lower Ni 2+ concentrations.
ISSN:2041-4889
2041-4889
DOI:10.1038/cddis.2017.112