<i>C9orf72</i>
            is required for proper macrophage and microglial function in mice

O’Rourke, Jacqueline G.; Bogdanik, Laurent; Yáñez, Alberto; Lall, Deepti; Wolf, Andrea J.; Muhammad, A.K.M. Ghulam; Ho, Ritchie; Carmona, Sharon; Vit, Jean-Philippe; Zarrow, Jonah E.; Kim, K. J.; Bell, Shaughn; Harms, Matthew B.; Miller, Timothy M.; Dangler, Charles A.; Underhill, David; Goodridge, Helen S.; Lutz, Cathleen; Baloh, Robert H.

doi:10.1126/science.aaf1064

Cited by 472 publications

(594 citation statements)

References 35 publications

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“…However, zebrafish models show reduced axon length in motoneurons and reduced locomotion after antisense morpholino-mediated reduction of C9ORF72 levels 5 . In contrast to the results in C. elegans and zebrafish, studies in mouse have so far not revealed conclusive results for C9ORF72 loss of function as a possible cause of FTLD/ALS [13][14][15][16] . Administering antisense oligonucleotides (ASOs) targeting mouse C9ORF72 by stereotactic intracerebroventricular (ICV) injection reduced C9ORF72 mRNA levels to 30-40% of control levels in the spinal cord and brain 17 .…”

Section: C9orf72 Interaction With Cofilin Modulates Actin Dynamics Inmentioning

confidence: 65%

C9ORF72 interaction with cofilin modulates actin dynamics in motor neurons

et al. 2016

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Section: C9orf72 Interaction With Cofilin Modulates Actin Dynamics Inmentioning

confidence: 65%

C9ORF72 interaction with cofilin modulates actin dynamics in motor neurons

et al. 2016

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“…Moreover, increased activated circulating macrophages, abnormal numbers of CD4 T‐cells, antibodies and circulating immune complex have been described in blood of ALS patients, but the results have been inconsistent 70, 71. Interestingly, the development of C9orf72 null mouse models, after identification of a mutated version of this gene in a significant proportion of ALS patients, did not lead to overt motor impairment 72, 73. Instead, an array of peripheral immune organ abnormalities arose, including splenomegaly, lymphadenopathy and eventually an autoimmune‐like phenotype 72, 73.…”

Section: Status Of Neuroinflammation In Als and Smamentioning

confidence: 99%

“…Interestingly, the development of C9orf72 null mouse models, after identification of a mutated version of this gene in a significant proportion of ALS patients, did not lead to overt motor impairment 72, 73. Instead, an array of peripheral immune organ abnormalities arose, including splenomegaly, lymphadenopathy and eventually an autoimmune‐like phenotype 72, 73. Nonetheless, macrophages and microglia appeared particularly susceptible, showing lysosomal dysfunction and a proinflammatory state 73.…”

Section: Status Of Neuroinflammation In Als and Smamentioning

confidence: 99%

“…Instead, an array of peripheral immune organ abnormalities arose, including splenomegaly, lymphadenopathy and eventually an autoimmune‐like phenotype 72, 73. Nonetheless, macrophages and microglia appeared particularly susceptible, showing lysosomal dysfunction and a proinflammatory state 73. Strikingly, transcriptomic analysis of spinal cord reveals similar changes in pathways involved in immune function both in mice and C9orf72 ALS patients, likely leading to neuroinflammation 73…”

Section: Status Of Neuroinflammation In Als and Smamentioning

confidence: 99%

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New insights into SMA pathogenesis: immune dysfunction and neuroinflammation

Deguise

Kothary

2017

Ann Clin Transl Neurol

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Spinal muscular atrophy (SMA) is a neuromuscular disorder characterized by motor neuron degeneration, although defects in multiple cell types and tissues have also been implicated. Three independent laboratories recently identified immune organ defects in SMA. We therefore propose a novel pathogenic mechanism contributory to SMA, resulting in higher susceptibility to infection and exacerbated disease progression caused by neuroinflammation. Overall, compromised immune function could significantly affect survival and quality of life of SMA patients. We highlight the recent findings in immune organ defects, their potential consequences on patients, our understanding of neuroinflammation in SMA, and new research hypotheses in SMA pathogenesis.

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“…However, several mouse models with a general or neuron-specific deletion of C9orf72 did not develop clinical or pathological signs of motor neuron disease [2,27,28,35,42]. Instead, some models developed splenomegaly, lymphadenopathy, auto-immune disorders and neoplastic events, indicative of a primary role of the C9orf72 protein in immunity [2,35,42]. Interestingly, the C9orf72 protein has been shown to be a key player in regulation of autophagy [49].…”

Section: Electronic Supplementary Materialsmentioning

confidence: 99%

A zebrafish model for C9orf72 ALS reveals RNA toxicity as a pathogenic mechanism

et al. 2018

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The exact mechanism underlying amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) associated with the GGG GCC repeat expansion in C9orf72 is still unclear. Two gain-of-function mechanisms are possible: repeat RNA toxicity and dipeptide repeat protein (DPR) toxicity. We here dissected both possibilities using a zebrafish model for ALS. Expression of two DPRs, glycine-arginine and proline-arginine, induced a motor axonopathy. Similarly, expanded sense and antisense repeat RNA also induced a motor axonopathy and formed mainly cytoplasmic RNA foci. However, DPRs were not detected in these conditions. Moreover, stop codon-interrupted repeat RNA still induced a motor axonopathy and a synergistic role of low levels of DPRs was excluded. Altogether, these results show that repeat RNA toxicity is independent of DPR formation. This RNA toxicity, but not the DPR toxicity, was attenuated by the RNA-binding protein Pur-alpha and the autophagy-related protein p62. Our findings demonstrate that RNA toxicity, independent of DPR toxicity, can contribute to the pathogenesis of C9orf72-associated ALS/FTD.

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C9orf72 is required for proper macrophage and microglial function in mice

Cited by 472 publications

References 35 publications

C9ORF72 interaction with cofilin modulates actin dynamics in motor neurons

C9ORF72 interaction with cofilin modulates actin dynamics in motor neurons

New insights into SMA pathogenesis: immune dysfunction and neuroinflammation

A zebrafish model for C9orf72 ALS reveals RNA toxicity as a pathogenic mechanism

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