Jamal Hussen scite author profile

Murine and human peripheral blood monocytes are heterogeneous in size, granularity, nuclear morphology, phenotype and function. Whether and how bovine blood monocytes follow this pattern was analyzed in this study. Flow cytometrically, classical monocytes (cM) CD14+ CD16−, intermediate monocytes (intM) CD14+ CD16+ and nonclassical monocytes (ncM) CD14+ CD16+ were identified, with cM being the predominant subset (89%). cM showed a significant lower expression of CD172a, intM expressed the highest level of MHC class II molecules, and ncM were low positive for CD163. Compared to cM and intM, ncM showed a significantly reduced phagocytosis capacity, a significantly reduced generation of reactive oxygen species, and reduced mRNA expression of CXCL8, CXCL1 and IL-1β after LPS stimulation. Based on IL-1β secretion after LPS/ATP stimulation, the inflammasome could be activated in cM and intM, but not in ncM. IFNγ increased the expression of CD16 selectively on cM and induced a shift from cM into intM in vitro. In summary, bovine CD172a-positive mononuclear cells define three monocyte subsets with distinct phenotypic and functional differences. Bovine cM and intM share homologies with their human counterparts, whereas bovine ncM are not inflammatory monocytes.

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Heterogeneity of Bovine Peripheral Blood Monocytes

Hussen

Schuberth

2017

Front. Immunol.

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Peripheral blood monocytes of several species can be divided into different subpopulations with distinct phenotypic and functional properties. Herein, we aim at reviewing published work regarding the heterogeneity of the recently characterized bovine monocyte subsets. As the heterogeneity of human blood monocytes was widely studied and reviewed, this work focuses on comparing bovine monocyte subsets with their human counterparts regarding their phenotype, adhesion and migration properties, inflammatory and antimicrobial functions, and their ability to interact with neutrophilic granulocytes. In addition, the differentiation of monocyte subsets into functionally polarized macrophages is discussed. Regarding phenotype and distribution in blood, bovine monocyte subsets share similarities with their human counterparts. However, many functional differences exist between monocyte subsets from the two species. In contrast to their pro-inflammatory functions in human, bovine non-classical monocytes show the lowest phagocytosis and reactive oxygen species generation capacity, an absent ability to produce the pro-inflammatory cytokine IL-1β after inflammasome activation, and do not have a role in the early recruitment of neutrophils into inflamed tissues. Classical and intermediate monocytes of both species also differ in their response toward major monocyte-attracting chemokines (CCL2 and CCL5) and neutrophil degranulation products (DGP) in vitro. Such differences between homologous monocyte subsets also extend to the development of monocyte-derived macrophages under the influence of chemokines like CCL5 and neutrophil DGP. Whereas the latter induce the differentiation of M1-polarized macrophages in human, bovine monocyte-derived macrophages develop a mixed M1/M2 macrophage phenotype. Although only a few bovine clinical trials analyzed the correlation between changes in monocyte composition and disease, they suggest that functional differences between human and bovine monocyte subsets are also reflected in their different clinical relevance for distinct diseases. In opposite to the human system, where higher blood cell number of non-classical monocytes was widely correlated with several human infectious and non-infectious diseases, higher counts of bovine intermediate monocytes are suggested as a potential biomarker for inflammatory responses postpartum.

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Pathogen-specific responses in the bovine udder. Models and immunoprophylactic concepts

Petzl

Zerbe

Günther

et al. 2018

Research in Veterinary Science

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Neutrophil degranulation differentially modulates phenotype and function of bovine monocyte subsets

Hussen¹,

Koy²,

Petzl

et al. 2015

Innate Immun

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Monocytes and neutrophils are important players in the innate immune response and cooperate during infection and inflammation. In our study we analyzed the effects of neutrophil degranulation products (polymorphonuclear granulocytes degranulation products, PMN-DGP) on the activation, the adhesion and the migration of three bovine monocyte subsets, as well as their effects on monocyte-macrophage differentiation. Cross-linking of surface CD18 molecules on bovine PMN resulted in the release of primary, secondary and tertiary granules as well as of secretory vesicles. PMN-DGP induced a significant Ca2+-influx in classical (classical monocytes, cM) and intermediate monocytes (intermediate monocytes, intM) but not in non-classical monocytes (non-classical monocytes, ncM). A selective and up-regulated expression induced by PMN-DGP was only seen for CD11a and CD31 on intM. PMN-DGP induced a selective migration of intM in vitro. The presence of PMN-DGP during the differentiation of cM or intM into macrophages resulted in increased expression of membrane CD163 and reduced expression of MHC-II molecules. PMN-DGP-derived macrophages produced more IL-12 and IL-10 and showed enhanced phagocytosis and ROS production capacities. In conclusion, PMN-DGP selectively attract bovine intM and skew the functional maturation of cM and intM.

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Jamal Hussen

Phenotypic and Functional Heterogeneity of Bovine Blood Monocytes

Heterogeneity of Bovine Peripheral Blood Monocytes

Pathogen-specific responses in the bovine udder. Models and immunoprophylactic concepts

Neutrophil degranulation differentially modulates phenotype and function of bovine monocyte subsets

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