CSF1R blockade slows the progression of amyotrophic lateral sclerosis by reducing microgliosis and invasion of macrophages into peripheral nerves

Martínez-Muriana, Anna; Mancuso, Renzo; Francos-Quijorna, Isaac; Olmos-Alonso, Adrián; Osta, Rosario; Perry, V. Hugh; Navarro, Xavier; Gómez-Nicola, Diego

doi:10.1038/srep25663

Cited by 117 publications

(158 citation statements)

References 45 publications

(74 reference statements)

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“…[17][18][19] Here, we provide novel evidence that CSF1R signaling may likewise contribute to microglial proliferation and neuroinflammation in PD, as evidenced by increased levels of the ligand CSF-1 in postmortem PD patients, along with increased mRNA and protein levels of CSF1R, CSF-1, and IL-34 in animal models of PD. [17][18][19] Here, we provide novel evidence that CSF1R signaling may likewise contribute to microglial proliferation and neuroinflammation in PD, as evidenced by increased levels of the ligand CSF-1 in postmortem PD patients, along with increased mRNA and protein levels of CSF1R, CSF-1, and IL-34 in animal models of PD.…”

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confidence: 70%

“…49 Class III receptor tyrosine kinases, which includes CSF1R, c-kit, PDGFRβ, and FLT3, all regulate cell survival through downstream pathways such as PI3K and Akt. [17][18][19] GW2580 completely blocked the MPTP-induced gene expression of Iba1 in the mouse striatum, along with significant reduction of Iba1 + and Ki-67 + / Iba1 + cells in the SN (Figure 4). 21,50,51 Recent research found that complete ablation of microglia in the brain using PLX-3397 exacerbated MPTPinduced neuroinflammation, neurotoxicity, and behavioral effects.…”

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confidence: 94%

“…58 We found significant loss of the TH + and Nissl + neurons in the SN of mice treated with acute MPTP ( Figure 6C,D), demonstrating neuronal cell death and not loss of TH expression. [17][18][19] The neuroprotection is most likely through the reduction of microglial proliferation and inflammatory response; however, CSF1R has also been found in neurons. GW2580 treatment significantly abolished the MPTP-induced loss of both the TH + and Nissl + cells, along with partially rescuing MPTP-induced deficits in traversing a challenging beam and in spontaneous movements ( Figure 6E-H).…”

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confidence: 99%

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Pharmacological inhibition of CSF1R by GW2580 reduces microglial proliferation and is protective against neuroinflammation and dopaminergic neurodegeneration

et al. 2019

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Increased pro-inflammatory cytokine levels and proliferation of activated microglia have been found in Parkinson's disease (PD) patients and animal models of PD, suggesting that targeting of the microglial inflammatory response may result in neuroprotection in PD. Microglial proliferation is regulated by many factors, but colony stimulating factor-1 receptor (CSF1R) has emerged as a primary factor. Using data mining techniques on existing microarray data, we found that mRNA expression of the CSF1R ligand, CSF-1, is increased in the brain of PD patients compared to controls. In two different neurotoxic mouse models of PD, acute MPTP and sub-chronic LPS treatment, mRNA and protein levels of CSF1R and CSF-1 were significantly increased. Treatment with the CSF1R inhibitor GW2580 significantly attenuated MPTP-induced CSF1R activation and Iba1-positive cell proliferation, without a reduction of the basal Iba1-positive population in the substantia nigra. GW2580 treatment also significantly decreased mRNA levels of pro-inflammatory factors, without alteration of anti-inflammatory mediators, and significantly attenuated the MPTPinduced loss of dopamine neurons and motor behavioral deficits. Importantly, these effects were observed in the absence of overt microglial depletion, suggesting that targeting CSF1R signaling may be a viable neuroprotective strategy in PD that disrupts pro-inflammatory signaling, but maintains the beneficial effects of microglia. K E Y W O R D Smicroglia, neuroprotection, Parkinson's disease, proliferation 1680 |

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confidence: 70%

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confidence: 94%

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confidence: 99%

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Pharmacological inhibition of CSF1R by GW2580 reduces microglial proliferation and is protective against neuroinflammation and dopaminergic neurodegeneration

et al. 2019

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“…In the CNS, ALS is typically accompanied by neuroinflammation involving the emergence of reactive microglia, astrocytes, and aberrant glial phenotypes (3)(4)(5). Evidence also shows activation of circulating immune cells (6), as well as immune cell infiltration of the ALS-degenerating peripheral nerves containing motor axons (7)(8)(9)(10).…”

Section: Introductionmentioning

confidence: 99%

Evidence for mast cells contributing to neuromuscular pathology in an inherited model of ALS

Trías¹,

Ibarburu²,

Barreto-Núñez³

et al. 2017

JCI Insight

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“…We have previously shown that aberrant microglial cells from symptomatic ALS rats are responsive to M-CSF through the tyrosine kinase receptor CSF-1R [10]. 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].…”

Section: Discussionmentioning

confidence: 99%

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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CSF1R blockade slows the progression of amyotrophic lateral sclerosis by reducing microgliosis and invasion of macrophages into peripheral nerves

Cited by 117 publications

References 45 publications

Pharmacological inhibition of CSF1R by GW2580 reduces microglial proliferation and is protective against neuroinflammation and dopaminergic neurodegeneration

Pharmacological inhibition of CSF1R by GW2580 reduces microglial proliferation and is protective against neuroinflammation and dopaminergic neurodegeneration

Evidence for mast cells contributing to neuromuscular pathology in an inherited model of ALS

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

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