Overexpression of Macrophage Colony-stimulating Factor Receptor on Microglial Cells Induces an Inflammatory Response

Mitrasinovic, Olivera M.; Perez, Grace V.; Zhao, Fei; Lee, Yuen Ling; Poon, Clara; Murphy, Greer M.

doi:10.1074/jbc.m104265200

Cited by 61 publications

(76 citation statements)

References 71 publications

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“…Control transfections were performed in parallel with an equal volume of LipofectAMINE PLUS reagent only (transfection medium; designated by M in the figures). Transfections using the pZeoSV plasmid (Invitrogen) that contains the pTK1 backbone sequence originally used in c-fms subcloning were included as a second control, although we previously showed that pZeoSV does not induce a microglial proinflammatory response (19). Cells were transfected with the pZeoSV plasmid using the same procedure as described for pTK1.…”

Section: Microglial Cell Lines Plasmid Transfections and Tissue Culmentioning

confidence: 99%

“…Immunocytochemical visualization of M-CSFR was demonstrated previously (19). To quantify cells overexpressing M-CSFR, 24 h post-transfection BV-2 cells were washed with PBS buffer, reacted for 1 h with 10% normal goat serum (Zymed Laboratories Inc.), and incubated with rabbit antimouse M-CSFR antiserum (1:500) (Upstate Biotechnology Inc., Lake Placid, NY) for 16 h at 4°C.…”

Section: Microglial Cell Lines Plasmid Transfections and Tissue Culmentioning

confidence: 99%

Section: Microglial Cell Lines Plasmid Transfections and Tissue Culmentioning

confidence: 99%

“…We recently demonstrated that overexpression of M-CSFR by cultured microglia increases proliferation, stimulates release of pro-inflammatory and chemotactic cytokines, and induces a paracrine inflammatory response in a microglial-organotypic co-culture system (19). In the present study we sought to determine the effects of M-CSFR overexpression on A␤ phagocytosis by cultured mouse and human microglia.…”

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confidence: 99%

“…The human SV-A3 cell line was a gift from Dr. Robert Nelson (Pfizer Central Research, Groton, CT). The SV-A3 line was an immortalized line from fetal brain microglia, and phenotypic features have been previously described (19).Transient transfections with the pTK1 plasmid were carried out * This work was supported by National Institutes of Health Grants MH57833, MH40041, and AG17824 and the Alzheimer's Association. The costs of publication of this article were defrayed in part by the payment of page charges.…”

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Accelerated Phagocytosis of Amyloid-β by Mouse and Human Microglia Overexpressing the Macrophage Colony-stimulating Factor Receptor

Mitrasinovic

Murphy

2002

Journal of Biological Chemistry

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Alzheimer's disease (AD) 1 is characterized by amyloid-␤ peptide (A␤) plaques surrounded by microglia. A␤ is thought to be directly neurotoxic, and activated microglia are hypothesized to have negative effects on neurons through the release of effectors of inflammation (1). However, as brain macrophages microglia can clear A␤ by phagocytosis, primarily through macrophage scavenger receptors (MSR) (2-6). Immunization of transgenic mice modeling AD with A␤ results in clearance of plaques from the brain (7). Whereas some results suggest that microglial phagocytosis may be key in clearance of A␤ after immunization (8), other findings indicate that circulating antibodies may result in movement of A␤ out of the brain (9). This controversy has stimulated renewed interest in uptake of A␤ by microglia.A distinctive phenotypic feature of microglia surrounding A␤ plaques in APPV717F transgenic mice and in AD is enhanced expression of the macrophage colony-stimulating factor receptor (M-CSFR), translation product of the c-fms proto-oncogene (10, 11). Microglial M-CSFR expression is also increased after experimental ischemic and traumatic brain injury (12, 13). M-CSFR regulates proliferation, activation, and survival of cells in the monocyte-macrophage lineage through tyrosine kinase activation of diverse signal transduction pathways including: Src kinase, Ras-ERK, phosphoinositide 3-kinase, and p38 MAP kinase (14 -16). Deletion of M-CSFR expression results in decreased numbers of cells of the mononuclear phagocyte lineage (17). In AD macrophage colony-stimulating factor (M-CSF), the ligand for M-CSFR expressed by neurons and glia is also increased (18). Simultaneous increases in M-CSF and M-CSFR expression in the brain could result in significant changes in microglial function.We recently demonstrated that overexpression of M-CSFR by cultured microglia increases proliferation, stimulates release of pro-inflammatory and chemotactic cytokines, and induces a paracrine inflammatory response in a microglial-organotypic co-culture system (19). In the present study we sought to determine the effects of M-CSFR overexpression on A␤ phagocytosis by cultured mouse and human microglia. We hypothesized that M-CSFR-induced activation of microglia would increase their capacity to clear A␤ from culture medium. Although A␤ immunization clinical trials have been discontinued in humans for the present, identifying factors that enhance microglial clearance of A␤ may be of benefit in devising alternative means of decreasing A␤ burden in the brain in AD. EXPERIMENTAL PROCEDURES Microglial Cell Lines, Plasmid Transfections, and Tissue culture-The c-fms expression plasmid pTK1 was a gift from Dr. Rao Tekmal (Emory University, Atlanta, GA), and contains the complete mouse c-fms sequence under the control of an SV40 promoter (20). Transfections were carried out using mouse BV-2 and human SV-A3 microglial cells. The BV-2 immortalized microglial cell line has been characterized previously (21)(22)(23)(24). Because of phenotypic changes that occur at...

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Section: Microglial Cell Lines Plasmid Transfections and Tissue Culmentioning

confidence: 99%

Section: Microglial Cell Lines Plasmid Transfections and Tissue Culmentioning

confidence: 99%

Section: Microglial Cell Lines Plasmid Transfections and Tissue Culmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Accelerated Phagocytosis of Amyloid-β by Mouse and Human Microglia Overexpressing the Macrophage Colony-stimulating Factor Receptor

Mitrasinovic

Murphy

2002

Journal of Biological Chemistry

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RON‐regulated innate immunity is protective in an animal model of multiple sclerosis

Tsutsui

Noorbakhsh

Sullivan

et al. 2005

Annals of Neurology

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The tyrosine kinase receptor RON and its ligand, macrophage stimulating protein (MSP), exert inhibitory effects on systemic innate immunity, but their CNS expression and impact on human neuroinflammatory diseases are unknown were RON and MSP present in human brain perivascular macrophages and microglia, but RON mRNA and protein abundance in the CNS were diminished in both MS patients and the MS animal model, experimental autoimmune encephalomyelitis (EAE). Treatment of differentiated human monocytoid cells with MSP resulted in significant reduction of interleukin (IL)-1beta, tumor necrosis factor (TNF)-alpha and MMP-9 mRNA levels, whereas minimal effects were observed in human astrocytes. After induction of EAE, RON knockout and heterozygote animals exhibited significantly increased CNS proinflammatory gene (TNF-alpha, MMP-12) expression compared with wild-type littermate controls, although IL-4 levels were suppressed in both RON-deficient groups. Neurological disease in RON-deficient animals showed a more rapid onset with overall worsened severity, together with exacerbated demyelination, axonal injury, and neuroinflammation after EAE induction. The proto-oncogene, c-Cbl, which modulates ubiquitylation of RON, was increased in glia in both MS brains and EAE spinal cords. Thus, the MSP-RON pathway represents a novel regulatory mechanism within the CNS by which innate immunity and its pathogenic effects could be targeted for future therapeutic interventions.

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Intracellular signaling in M‐CSF‐induced microglia activation: Role of Iba1

Imai

Kohsaka

2002

Glia

324

221

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Microglia are reactively activated by various environmental stimulations caused by brain injury or disease. Activated microglia exhibit morphological transformation, proliferation, migration, phagocytosis, and the production of bioactive molecules. Various molecules are reported and suggested to activate microglia. Among them, macrophage-colony-stimulating factor (M-CSF) is considered one of the most convincing candidates responsible for maintaining activation properties of microglia. Therefore, the focus of the present study is on intracellular molecular events that arise downstream of M-CSF stimulation. M-CSF activates its receptor, Fms tyrosine kinase, and Fms sequentially activates a number of signaling molecules, including PI3K or phospholipase C␥ (PLC␥). Stimulation of continuing signaling cascades results in the activation of a small GTPase, Rac, the key molecule in microglia activation. Rac is known to be activated downstream of receptor tyrosine kinases and to regulate reorganization of the actin cytoskeleton, which profoundly underlies the above-mentioned properties of activated microglia. Iba1, a macrophage/microglia-specific calcium-binding protein, was identified by our group and was shown to be involved in the Rac signaling pathway. Further, we introduce a novel signaling pathway in which Rac is activated, dependent on PLC␥ and Iba1. However, to understand the molecular details of microglia activation, future work is required. GLIA 40: 164 -174, 2002.

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Overexpression of Macrophage Colony-stimulating Factor Receptor on Microglial Cells Induces an Inflammatory Response

Cited by 61 publications

References 71 publications

Accelerated Phagocytosis of Amyloid-β by Mouse and Human Microglia Overexpressing the Macrophage Colony-stimulating Factor Receptor

Accelerated Phagocytosis of Amyloid-β by Mouse and Human Microglia Overexpressing the Macrophage Colony-stimulating Factor Receptor

RON‐regulated innate immunity is protective in an animal model of multiple sclerosis

Intracellular signaling in M‐CSF‐induced microglia activation: Role of Iba1

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