Chikako Kaizu scite author profile

Chikako Kaizu

4Publications

73Citation Statements Received

86Citation Statements Given

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100

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Niigata University

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Effects of macrophage‐colony‐stimulating factor deficiency on the maturation of microglia and brain macrophages and on their expression of scavenger receptor

et al. 2000

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Macrophage-colony-stimulating factor (M-CSF) regulates the survival, proliferation and differentiation of the mononuclear phagocyte lineage. Osteopetrotic (op/op) mice defective in producing functional M-CSF were used in order to investigate the role of M-CSF on the development of microglia and brain macrophages and the expression of scavenger receptor (SR). Adult op/op and littermate mice at 10-47 weeks of age were investigated by immunohistochemistry with a panel of monoclonal antibodies (F4/80, Mac-1, anti-major histocompatibility complex (MHC) class II and anti-SR), electron microscopy and reverse transcriptase-polymerase chain reaction (RT-PCR). Microglia were weakly immunolabeled with F4/80 and Mac-1 in op/op and littermate mice, but the number of microglia in op/op mice was reduced in the cerebrum, cerebellum and brainstem compared with that of normal littermates. The numbers of Mac-1-positive microglia in op/op mice was 39% (pons) and 30% (cerebellar cortex) lower than that in normal littermates (P<0.05). In addition, the microglia cell processes in op/op mice were often shorter than those in control mice. In op/op and littermate mice, both MHC class II and SR were present in perivascular cells and macrophages of the leptomeninx and choroid plexus. Ultrastructurally, perivascular cells appeared to be immature, since their cytoplasm was narrow and contained few inclusion bodies compared with those of control mice. Reverse transcriptase-polymerase chain reaction showed a weak expression for SR mRNA in the brains of op/op mice as well as littermate mice. These results indicate that microglia are partly dependent on M-CSF for their proliferation and differentiation and that M-CSF has no significant effect on the expression of SR in the physiological brain. The study also suggests that M-CSF affects the maturation of perivascular cells at the ultrastructural level.

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Macrophage colony-stimulating factor is indispensable for repopulation and differentiation of Kupffer cells but not for splenic red pulp macrophages in osteopetrotic (op/op) mice after macrophage depletion

et al. 2008

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We previously reported that macrophage colony-stimulating factor (M-CSF, CSF-1) played important roles in the process of the repopulation of Kupffer cells after their elimination by administration of liposome-entrapped dichloromethylene diphosphonate (lipo-MDP). In this study, we examined the repopulation of Kupffer cells and splenic red pulp macrophages in osteopetrotic (op/op) mice defective in the production of functional M-CSF and their littermate mice by using the lipo-MDP model. In untreated op/op mice, numbers of F4/80-positive Kupffer cells in the liver and F4/80-positive splenic red pulp macrophages were reduced. Repopulation of Kupffer cells and splenic macrophages was observed in littermate (op/+) mice liver by 14 days after depletion. However, in op/op mice, repopulation of Kupffer cells was not observed in Kupffer-cell-depleted op/op mice until 56 days after depletion, whereas splenic red pulp macrophages repopulated and recovered to the level of control op/op mice by 10 days after depletion. Single injection of M-CSF was effective for the induction of the repopulation of Kupffer cells, and daily administration of M-CSF induced remarkable repopulation and maturation of Kupffer cells and proliferation of macrophage precursor cells in the liver of Kupffer-cell-depleted op/op mice. These results suggest that Kupffer cells are completely M-CSF-dependent tissue macrophages, whereas splenic red pulp macrophages are composed of M-CSF-dependent macrophages and M-CSF-independent macrophages. This mouse model provides a useful tool for the study of effects of growth factor on Kupffer cell differentiation in vivo.

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Lipopolysaccharide‐induced cytokine and receptor expression and neutrophil infiltration in the liver of osteopetrosis (op/op) mutant mice

Jiang

Naito

Kaizu

et al. 2000

Liver

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Repopulation of Kupffer cells in op/op mice after administration of liposome-encapsulated dichloromethylene diphosphonate

Kaizu

2000

J. Jpn. Soc. L. R. T

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Kupffer cells were selectively eliminated in the macrophage colony stimulating factor (M-CSF)-deficient osteopetrotic (op/op) mice by intravenous administration of liposomeentrapped dichloromethylene diphosphonate. Repopulation of Kupffer cells was observed in the Kupffer cell-depleted littermate mouse (op/+) liver by 14 days after treatment. In contrast, repopulation of Kupffer cells was not observed in the Kupffer cell-depleted op/ op mice through the observation period of 56 days. Daily administration of M-CSF induced remarkable repopulation of Kupffer cells and proliferation of macrophage precursor cells, whereas GM-CSF and IL-3 were less effective. These findings indicated that M-CSF plays a major role in Kupffer cell development.

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Chikako Kaizu

Effects of macrophage‐colony‐stimulating factor deficiency on the maturation of microglia and brain macrophages and on their expression of scavenger receptor

Macrophage colony-stimulating factor is indispensable for repopulation and differentiation of Kupffer cells but not for splenic red pulp macrophages in osteopetrotic (op/op) mice after macrophage depletion

Lipopolysaccharide‐induced cytokine and receptor expression and neutrophil infiltration in the liver of osteopetrosis (op/op) mutant mice

Repopulation of Kupffer cells in op/op mice after administration of liposome-encapsulated dichloromethylene diphosphonate

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