Mechanism of Fcγ receptor-mediated trogocytosis-based false-positive results in flow cytometry

Mechanism of Fcγ receptor-mediated trogocytosis-based false-positive results in flow cytometry

The whole blood erythrocyte lysis method is the most common protocol of sample preparation for flow cytometry (FCM). Although this method has many virtues, our recent study has demonstrated false-positive results when surface markers of monocytes were examined by this method due to the phenomenon ca...

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Bibliographic Details
Published in:PloS one Vol. 7; no. 12; p. e52918
Main Authors: Masuda, Sakiko, Iwasaki, Sari, Tomaru, Utano, Sato, Juri, Kawakami, Ai, Ichijo, Kana, Sogo, Sayuri, Baba, Tomohisa, Katsumata, Kazuaki, Kasahara, Masanori, Ishizu, Akihiro
Format: Journal Article
Language:English
Published: United States Public Library of Science 27-12-2012
Public Library of Science (PLoS)
Subjects:
Antibodies
Antigen presentation
Biology
Blood
CD8 Antigens - metabolism
Classical pathway
Complement component C1
Cytometry
Deactivation
Erythrocytes
False Positive Reactions
Flow Cytometry
Granulocytes
Health sciences
Heat inactivation
Humans
Immunoglobulins
Inactivation
Inhibitors
Leukocytes (granulocytic)
Lymphocytes
Lymphoma
Lysis
Macrophages - immunology
Macrophages - metabolism
Medicine
Molecular weight
Monocytes
Monocytes - immunology
Monocytes - metabolism
Pathology
Peripheral blood
Plasma membranes
Quality control
Receptors, IgG - immunology
Receptors, IgG - metabolism
Sample preparation
Surface markers
T cell receptors
University graduates
Japan
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Summary:The whole blood erythrocyte lysis method is the most common protocol of sample preparation for flow cytometry (FCM). Although this method has many virtues, our recent study has demonstrated false-positive results when surface markers of monocytes were examined by this method due to the phenomenon called Fcγ receptor (FcγR)-mediated trogocytosis. In the present study, similar FcγR-mediated trogocytosis-based false-positive results have been demonstrated when granulocytes were focused on instead of monocytes. These findings indicated that not only monocytes but also granulocytes, the largest population with FcγR expression in peripheral blood, could perform FcγR-mediated trogocytosis. Since the capacity of FcγR-mediated trogocytosis was different among blood samples, identification of factors that could regulate the occurrence of FcγR-mediated trogocytosis should be important for the quality control of FCM. Our studies have suggested that such factors are present in the serum. In order to identify the serum factors, we employed the in vitro model of FcγR-mediated trogocytosis using granulocytes. Investigation with this model determined the serum factors as heat-labile molecules with molecular weight of more than 100 kDa. Complements in the classical pathway were initially assumed as candidates; however, the C1 inhibitor did not yield an obvious influence on FcγR-mediated trogocytosis. On the other hand, although immunoglobulin ought to be resistant to heat inactivation, the inhibitor of human anti-mouse antibodies (HAMA) effectively blocked FcγR-mediated trogocytosis. Moreover, the inhibition rates were significantly higher in HAMA(high) serum than HAMA(low) serum. The collective findings suggested the involvement of heterophilic antibodies such as HAMA in the mechanism of false-positive results in FCM due to FcγR-mediated trogocytosis.
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Conceived and designed the experiments: UT AI. Performed the experiments: SM SI JS AK KI SS. Analyzed the data: SM SI UT JS AK KI SS TB KK AI. Contributed reagents/materials/analysis tools: UT MK AI. Wrote the paper: UT AI.
Competing Interests: The authors have declared that no competing interests exist.
Current address: Division of Molecular Bioregulation, Cancer Research Institute, Kanazawa University, Kanazawa, Japan
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0052918