Interleukin-34 Selectively Enhances the Neuroprotective Effects of Microglia to Attenuate Oligomeric Amyloid-β Neurotoxicity

Mizuno, Tetsuya; Doi, Yukiko; Mizoguchi, Hideaki; Jin, Shijie; Noda, Mariko; Sonobe, Yoshifumi; Takeuchi, Hideyuki; Suzumura, Akio

doi:10.1016/j.ajpath.2011.06.011

Cited by 134 publications

(139 citation statements)

References 35 publications

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“…IL-34 reporter expression revealed that within the brain, IL-34 is highly expressed predominantly in the cortex, the anterior olfactory nucleus, and the hippocampus (Figure 3A), whereas no or very low expression could be detected in the brain stem and cerebellum (data not shown). IL-34 was specifically expressed by neurons (Figure 3B) as previously suggested (Mizuno et al, 2011). In adult Il34 LacZ/LacZ mice, microglia were partially reduced, most pronounced in areas correlating with high IL-34 expression (Figures 3C–3E).…”

Section: Resultssupporting

confidence: 83%

Stroma-Derived Interleukin-34 Controls the Development and Maintenance of Langerhans Cells and the Maintenance of Microglia

et al. 2012

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SUMMARY Colony stimulating factor-1 (Csf-1) receptor and its ligand Csf-1 control macrophage development, maintenance, and function. The development of both Langerhans cells (LCs) and microglia is highly dependent on Csf-1 receptor signaling but independent of Csf-1. Here we show that in both mice and humans, interleukin-34 (IL-34), an alternative ligand for Csf-1 receptor, is produced by keratinocytes in the epidermis and by neurons in the brain. Mice lacking IL-34 displayed a marked reduction of LCs and a decrease of microglia, whereas monocytes, dermal, and lymphoid tissue macrophages and DCs were unaffected. We identified IL-34 as a nonredundant cytokine for the development of LCs during embryo-genesis as well as for their homeostasis in the adult skin. Whereas inflammation-induced repopulation of LCs appears to be dependent on Csf-1, once inflammation is resolved, LC survival is again IL-34-dependent. In contrast, microglia and their yolk sac precursors develop independently of IL-34 but rely on it for their maintenance in the adult brain.

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Section: Resultssupporting

confidence: 83%

Stroma-Derived Interleukin-34 Controls the Development and Maintenance of Langerhans Cells and the Maintenance of Microglia

et al. 2012

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“…Accordingly, the pharmacological inhibition of CSF-1R decreases microglia reactivity and extends the life span of ALS mice [10,19]. Astrocytes are another major source of M-CSF and IL-34, both factors being potent agonists of the CSF-1R [20,21]. In support of this hypothesis, previous studies have shown that the intraperitoneal administration of M-CSF to ALS mice induced microglia proliferation, also exacerbating disease progression [22].…”

Section: Discussionsupporting

confidence: 62%

Focal Transplantation of Aberrant Glial Cells Carrying the SOD1<sup>G93A</sup> Mutation into Rat Spinal Cord Induces Extensive Gliosis

Ibarburu

Trías²,

Lago³

et al. 2017

Neuroimmunomodulation

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Objective: We aimed to determine the potential of aberrant glial cells (AbAs) isolated from the spinal cord of adult SOD1^G93A symptomatic rats to induce gliosis and neuronal damage following focal transplantation into the lumbar spinal cord of wild-type rats. Methods: AbAs were obtained from the spinal cords of SOD1^G93A symptomatic rats. One hundred thousand cells were injected using a glass micropipette into the lumbar spinal cords (L3-L5) of syngeneic wild-type adult rats. Equal volumes of culture medium or wild-type neonatal microglia were used as controls. Seven days after transplantation, immunohistochemistry analysis was carried out using astrocytic and microglia cell markers. Transplanted SOD1^G93A AbAs were recognized by specific antibodies to human SOD1 (hSOD1) or misfolded human SOD1. Results: Seven days after transplantation, AbAs were mainly detected in the medial region of the lumbar ventral horn as a well-limited cell cluster formed at the site of injection by their immunoreactivity to either misfolded SOD1 or normally folded hSOD1. Compared with controls, transplanted AbAs were surrounded by marked microgliosis and reactive astrocytes. Marked microgliosis was observed to extend bilaterally up to the cervical cord. Motor neurons close to AbA transplants were surrounded by activated glial cells and displayed ubiquitin aggregation. Conclusions: AbAs bearing mutant SOD1^G93A have the potential to induce neuroinflammation along the spinal cord and incipient damage to the motor neurons. The emergence of AbAs during amyotrophic lateral sclerosis pathogenesis may therefore be a mechanism to boost neuroinflammation and spread motor neuron damage along the neuroaxis.

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“…3d). Recent studies have shown that IL-34 is primarily produced by neurons, specifically directs the differentiation of myeloid cells in the developing CNS and determines the phenotype discrepancy in M-CSF-deficient and M-CSFR-deficient mice described above (Mizuno et al, 2011; Nandi et al, 2012; Wang et al, 2012). IL-34 deficiency mainly affects development but not the ability of microglia to produce inflammatory cytokines (Greter et al, 2012; Nakamichi et al, 2013; Wang and Colonna, 2014).…”

Section: Discussionmentioning

confidence: 99%

Neurons and astroglia govern microglial endotoxin tolerance through macrophage colony-stimulating factor receptor-mediated ERK1/2 signals

Chu

Wang

et al. 2016

Brain, Behavior, and Immunity

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Endotoxin tolerance (ET) is a reduced responsiveness of innate immune cells like macrophages/monocytes to an endotoxin challenge following a previous encounter with the endotoxin. Although ET in peripheral systems has been well studied, little is known about ET in the brain. The present study showed that brain immune cells, microglia, being different from peripheral macrophages, displayed non-cell autonomous mechanisms in ET formation. Specifically, neurons and astroglia were indispensable for microglial ET. Macrophage colony-stimulating factor (M-CSF) secreted from these non-immune cells was essential for governing microglial ET. Neutralization of M-CSF deprived the neuron-glia conditioned medium of its ability to enable microglia to form ET when microglia encountered two lipopolysaccharide (LPS) treatments. Recombinant M-CSF protein rendered enriched microglia refractory to the second LPS challenge leading to microglial ET. Activation of microglial M-CSF receptor (M-CSFR; also known as CSF1R) and the downstream ERK1/2 signals was responsible for M-CSF-mediated microglial ET. Endotoxin-tolerant microglia in neuron-glia cultures displayed M2-like polarized phenotypes, as shown by upregulation of M2 marker Arg-1, elevated production of anti-inflammatory cytokine interleukin 10, and decreased secretion of pro-inflammatory mediators (tumor necrosis factor α, nitric oxide, prostaglandin E2 and interleukin 1β). Endotoxin-tolerant microglia protected neurons against LPS-elicited inflammatory insults, as shown by reduced neuronal damages in LPS pre-treatment group compared with the group without LPS pre-treatment. Moreover, while neurons and astroglia became injured during chronic neuroinflammation, microglia failed to form ET. Thus, this study identified a distinct non-cell autonomous mechanism of microglial ET. Interactions of M-CSF secreted by neurons and astroglia with microglial M-CSFR programed microglial ET. Loss of microglial ET could be an important pathogenetic mechanism of inflammation-associated neuronal damages.

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Interleukin-34 Selectively Enhances the Neuroprotective Effects of Microglia to Attenuate Oligomeric Amyloid-β Neurotoxicity

Cited by 134 publications

References 35 publications

Stroma-Derived Interleukin-34 Controls the Development and Maintenance of Langerhans Cells and the Maintenance of Microglia

Stroma-Derived Interleukin-34 Controls the Development and Maintenance of Langerhans Cells and the Maintenance of Microglia

Focal Transplantation of Aberrant Glial Cells Carrying the SOD1<sup>G93A</sup> Mutation into Rat Spinal Cord Induces Extensive Gliosis

Neurons and astroglia govern microglial endotoxin tolerance through macrophage colony-stimulating factor receptor-mediated ERK1/2 signals

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