Modulation of Monocytic Cell Activity and Virus Susceptibility During Differentiation into Macrophages

A major component of innate immune responses relies on monocytes and macrophages, virus infection of which will pose a particular problem for immunological defense. Consequently, the monocytic cell differentiation pathway was analyzed in terms of cellular modulations therein and their relation to mo...

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Bibliographic Details
Published in:The Journal of immunology (1950) 1999-04, Vol.162 (7), p.3961-3969
Main Authors: Basta, Sameh, Knoetig, Sonja M, Spagnuolo-Weaver, Martha, Allan, Gordon, McCullough, Kenneth C
Format: Article
Language:English
Subjects:
Acid Phosphatase - metabolism
African Swine Fever - immunology
African Swine Fever Virus - immunology
Animals
Antigen-Presenting Cells - immunology
Antigens, Surface - biosynthesis
Cell Differentiation - immunology
Cells, Cultured
Disease Susceptibility
Endocytosis - immunology
Hydrogen-Ion Concentration
Interleukin-1 - biosynthesis
Intracellular Fluid - immunology
Intracellular Fluid - metabolism
Macrophages - cytology
Macrophages - enzymology
Macrophages - immunology
Macrophages - virology
Monocytes - cytology
Monocytes - enzymology
Monocytes - immunology
Monocytes - virology
Phagocytosis - immunology
Swine
Tartrates - pharmacology
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Summary:A major component of innate immune responses relies on monocytes and macrophages, virus infection of which will pose a particular problem for immunological defense. Consequently, the monocytic cell differentiation pathway was analyzed in terms of cellular modulations therein and their relation to monocytotropic virus infection. Differentiation was characterized by down-regulation of CD14, MHC Ags, the monocytic SWC1 marker, and p53; concomitant up-regulation of the SWC9 macrophage marker, a putative porcine CD80 (detected with anti-human CD80 Ab), and acid phosphatase secretion were also characteristic. Elevated phagocytic and endocytic activities as well as endosomal/lysosomal acidification were identified as being important to the macrophage. In contrast, monocytes possessed high accessory activity. This was multifactorial, concomitantly requiring 1) high MHC Ag expression; 2) enzyme activity of esterase, peroxidase, myeloperoxidase, and 5' nucleotidase in preference to glucosidase, galactosidase, and glucuronidase; and 3) elevated capacity for spontaneous IL-1 production. Only with all parameters was efficient stimulation of Ag-specific lymphocytes possible. These results point to a continuous process during differentiation, involving inter-related characteristics linking the more accessory monocyte to the scavenger macrophage, both in vitro and in vivo. Of particular interest was how these characteristics related to monocytotropic virus infection, and how a particular virus could show a clear preference for the differentiating macrophages. Such results not only further our understanding of porcine immunology, but also provide evidence and a potential model for the determination and characterization of monocytotropic virus-host cell interactions.
ISSN:0022-1767
1550-6606
DOI:10.4049/jimmunol.162.7.3961