Blood monocytes and their subsets: established features and open questions

被引:221
作者
Ziegler-Heitbrock, Loems [1 ]
机构
[1] Asklepios Fachkliniken Munchen Gauting, Helmholtz Zentrum Munchen, Gauting, Germany
来源
FRONTIERS IN IMMUNOLOGY | 2015年 / 6卷
关键词
monocyte subsets; nomenclature; classical monocytes; intermediate monocytes; non-classical monocytes; HUMAN PERIPHERAL-BLOOD; HUMAN DENDRITIC CELLS; PREDICT CARDIOVASCULAR EVENTS; CD14(+) CD16(+) MONOCYTES; GENE-EXPRESSION PROFILES; CHRONIC KIDNEY-DISEASE; FC-EPSILON-RI; BONE-MARROW; CD16-POSITIVE MONOCYTES; M-DC8(+) MONOCYTES;
D O I
10.3389/fimmu.2015.00423
中图分类号
R392 [医学免疫学]; Q939.91 [免疫学];
学科分类号
100102 ;
摘要
In contrast to the past reliance on morphology, the identification and enumeration of blood monocytes are nowadays done with monoclonal antibodies and flow cytometry and this allows for subdivision into classical, intermediate, and non-classical monocytes. Using specific cell surface markers, dendritic cells in blood can be segregated from these monocytes. While in the past, changes in monocyte numbers as determined in standard hematology counters have not had any relevant clinical impact, the subset analysis now has uncovered informative changes that may be used in management of disease.
引用
收藏
页数:5
相关论文
共 73 条
  • [1] Sputum phagocytes from healthy individuals are functional and activated: A flow cytometric comparison with cells in bronchoalveolar lavage and peripheral blood
    Alexis, N
    Soukup, J
    Ghio, A
    Becker, S
    [J]. CLINICAL IMMUNOLOGY, 2000, 97 (01) : 21 - 32
  • [2] The proinflammatory CD14+CD16+DR++ monocytes are a major source of TNF
    Belge, KU
    Dayyani, F
    Horelt, A
    Siedlar, M
    Frankenberger, M
    Frankenberger, B
    Espevik, T
    Ziegler-Heitbrock, L
    [J]. JOURNAL OF IMMUNOLOGY, 2002, 168 (07) : 3536 - 3542
  • [3] CIRCULATING FIBROCYTES DEFINE A NEW LEUKOCYTE SUBPOPULATION THAT MEDIATES TISSUE-REPAIR
    BUCALA, R
    SPIEGEL, LA
    CHESNEY, J
    HOGAN, M
    CERAMI, A
    [J]. MOLECULAR MEDICINE, 1994, 1 (01) : 71 - 81
  • [4] Detection and properties of the human proliferative monocyte subpopulation
    Clanchy, Felix I. L.
    Holloway, Alice C.
    Lari, Roya
    Cameron, Paul U.
    Hamilton, John A.
    [J]. JOURNAL OF LEUKOCYTE BIOLOGY, 2006, 79 (04) : 757 - 766
  • [5] Human CD14dim Monocytes Patrol and Sense Nucleic Acids and Viruses via TLR7 and TLR8 Receptors
    Cros, Jerome
    Cagnard, Nicolas
    Woollard, Kevin
    Patey, Natacha
    Zhang, Shen-Ying
    Senechal, Brigitte
    Puel, Anne
    Biswas, Subhra K.
    Moshous, Despina
    Picard, Capucine
    Jais, Jean-Philippe
    D'Cruz, David
    Casanova, Jean-Laurent
    Trouillet, Celine
    Geissmann, Frederic
    [J]. IMMUNITY, 2010, 33 (03) : 375 - 386
  • [6] Mechanism of glucocorticoid-induced depletion of human CD14+CD16+ monocytes
    Dayyani, F
    Belge, KU
    Frankenberger, M
    Mack, M
    Berki, T
    Ziegler-Heitbrock, L
    [J]. JOURNAL OF LEUKOCYTE BIOLOGY, 2003, 74 (01) : 33 - 39
  • [7] de Baey A, 2001, EUR J IMMUNOL, V31, P1646, DOI 10.1002/1521-4141(200106)31:6<1646::AID-IMMU1646>3.0.CO
  • [8] 2-X
  • [9] Characterization of a bipotent erythro-megakaryocytic progenitor in human bone marrow
    Debili, N
    Coulombel, L
    Croisille, L
    Katz, A
    Guichard, J
    BretonGorius, J
    Vainchenker, W
    [J]. BLOOD, 1996, 88 (04) : 1284 - 1296
  • [10] Relationships between Levels of Serum IgE, Cell-Bound IgE, and IgE-Receptors on Peripheral Blood Cells in a Pediatric Population
    Dehlink, Eleonora
    Baker, Alexandra H.
    Yen, Elizabeth
    Nurko, Samuel
    Fiebiger, Edda
    [J]. PLOS ONE, 2010, 5 (08):
12345678