Monocyte chemoattractant protein-1 affects migration of hippocampal neural progenitors following status epilepticus in rats

Hung, Yu-Min; Lai, Ming-Tsong; Tseng, Yi‐Jhan; Chou, Chien‐Chen; Lin, Yung-Yang

doi:10.1186/1742-2094-10-11

Cited by 25 publications

(21 citation statements)

References 44 publications

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“…In rodent models of temporal lobe epilepsy, seizures have been shown to transiently increase CCL2 and CCR2 expression in the hippocampus. In dentate gyrus and CA1/CA3 pyramidal layers, CCL2 upregulation after seizures has been detected in both neurons and glial cells, whereas CCR2 induction has been observed in astrocytes, microglia, and ectopic progenitors of hilar neurons (Manley et al, 2007;Foresti et al, 2009;Hung et al, 2013;Arisi, 2014;Arisi et al, 2015;Cerri et al, 2016) (Fig. 1B).…”

Section: Expression Of Ccl2 and Its Receptor In The Epileptic Brainmentioning

confidence: 88%

“…Since IL-1b is mainly produced and released by activated microglia in the epileptic brain (Vezzani et al, 1999), it is likely that CCL2 increases seizures through IL-1b. Finally, CCL2 might also be involved in neuropathological changes that accompany seizures, such as ectopic migration of neuronal progenitors in the dentate gyrus (Hung et al, 2013). Thus, CCL2/CCR2 signaling may act as a key proinflammatory factor in the epileptic brain by both directly increasing neuronal excitability and inducing downstream inflammatory effectors.…”

Section: Open Questionsmentioning

confidence: 98%

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Epilepsy, Seizures, and Inflammation: Role of the C-C Motif Ligand 2 Chemokine

Bozzi

Caleo

2016

DNA and Cell Biology

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Epilepsy is a chronic disorder characterized by spontaneous recurrent seizures. Several lines of evidence demonstrate that inflammatory processes within the brain parenchyma contribute to recurrence and precipitation of seizures. In both epileptic patients and animal models, seizures upregulate inflammatory mediators, which in turn may enhance brain excitability. We recently showed that the C-C motif ligand 2 (CCL2) chemokine (also known as monocyte chemoattractant protein-1 [MCP-1]) mediates the seizure-promoting effects of inflammation. Systemic inflammatory challenge in chronically epileptic mice markedly enhanced seizure frequency and upregulated CCL2 expression in the brain. Selective pharmacological blockade of CCL2 synthesis or C-C chemokine receptor type 2 (CCR2) significantly suppressed inflammation-induced seizures. These results have important implications for the development of novel anticonvulsant therapies: drugs interfering with CCL2 signaling are used clinically for several human disorders and might be redirected for use in pharmacoresistant epilepsy. Here we review the role of CCL2/CCR2 signaling in linking systemic inflammation with seizure susceptibility and discuss some open questions that arise from our recent studies.

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Section: Expression Of Ccl2 and Its Receptor In The Epileptic Brainmentioning

confidence: 88%

Section: Open Questionsmentioning

confidence: 98%

Epilepsy, Seizures, and Inflammation: Role of the C-C Motif Ligand 2 Chemokine

Bozzi

Caleo

2016

DNA and Cell Biology

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“…Signaling through CXCR2 has been shown to increase neuronal excitability, potentially through the association of CXCR2 with GluR1 AMPA receptors (Lax et al 2002; Wang et al 2008). CCl2, CCL4 and CCR7 are elevated in brain tissue from epilepsy patients, as well as in animal models (Fabene et al 2010; Lehtimaki et al 2003; Liimatainen et al 2013; Vezzani et al 2008; Vezzani et al 2002; Hung et al 2013). In concordance with this, we found the Ccl2 and Ccr7 genes to feature a prolonged upregulation following PIC challenge (Figs.…”

Section: Discussionmentioning

confidence: 99%

Peripherally restricted acute phase response to a viral mimic alters hippocampal gene expression

Michalovicz

Konat

2013

Metab Brain Dis

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We have previously shown that peripherally restricted acute phase response (APR) elicited by intraperitoneal (i.p.) injection of a viral mimic, polyinosinic-polycytidylic acid (PIC), renders the brain hypersusceptible to excitotoxic insult as seen from profoundly exacerbated kainic acid (KA)-induced seizures. In the present study, we found that this hypersusceptibility was protracted for up to 72 h. RT-PCR profiling of hippocampal gene expression revealed rapid upregulation of 23 genes encoding cytokines, chemokines and chemokine receptors generally within 6 h after PIC challenge. The expression of most of these genes decreased by 24 h. However, two chemokine genes, i.e., Ccl19 and Cxcl13 genes, as well as two chemokine receptor genes, Ccr1 and Ccr7, remained upregulated for 72 h suggesting their possible involvement in the induction and sustenance of seizure hypersusceptibility. Also, 12 genes encoding proteins related to glutamatergic and GABAergic neurotransmission featured initial upregulation or downregulation followed by gradual normalization. The upregulation of the Gabrr3 gene remained upregulated at 72 h, congruent with its plausible role in the hypersusceptible phenotype. Moreover, the expression of ten microRNAs (miRs) was rapidly affected by PIC challenge, but their levels generally exhibited oscillating profiles over the time course of seizure hypersusceptibility. These results indicate that protracted seizure susceptibility following peripheral APR is associated with a robust polygenic response in the hippocampus.

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“…In line with these findings, we recently reported that CCR2 deficiency, through genetic manipulation in mice, was sufficient to prevent the aberrant migration of new neurons observed in vivo following irradiation (Belarbi et al, 2013). Similarly, in the pilocarpine-induced status epilepticus rat model, the blockade of the MCP-1/CCR2 interaction with a selective CCR2 antagonist attenuated the ectopic migration of neuronal progenitors into the hilus (Hung et al, 2013). Collectively, these findings indicate that adult-born neurons have the capacity to migrate to the site of damage in response to the chemokine MCP-1/CCR2 signaling pathway.…”

Section: Distribution Of Adult-born Neurons In the Inflamed Hippocampusmentioning

confidence: 99%

Modulation of adult-born neurons in the inflamed hippocampus

Bélarbi¹,

Rosi²

2013

Front. Cell. Neurosci.

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Throughout life new neurons are continuously added to the hippocampal circuitry involved with spatial learning and memory. These new cells originate from neural precursors in the subgranular zone of the dentate gyrus, migrate into the granule cell layer, and integrate into neural networks encoding spatial and contextual information. This process can be influenced by several environmental and endogenous factors and is modified in different animal models of neurological disorders. Neuroinflammation, as defined by the presence of activated microglia, is a common key factor to the progression of neurological disorders. Analysis of the literature shows that microglial activation impacts not only the production, but also the migration and the recruitment of new neurons. The impact of microglia on adult-born neurons appears much more multifaceted than ever envisioned before, combining both supportive and detrimental effects that are dependent upon the activation phenotype and the factors being released. The development of strategies aimed to change microglia toward states that promote functional neurogenesis could therefore offer novel therapeutic opportunities against neurological disorders associated with cognitive deficits and neuroinflammation. The present review summarizes the current knowledge on how production, distribution, and recruitment of new neurons into behaviorally relevant neural networks are modified in the inflamed hippocampus.

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Monocyte chemoattractant protein-1 affects migration of hippocampal neural progenitors following status epilepticus in rats

Cited by 25 publications

References 44 publications

Epilepsy, Seizures, and Inflammation: Role of the C-C Motif Ligand 2 Chemokine

Epilepsy, Seizures, and Inflammation: Role of the C-C Motif Ligand 2 Chemokine

Peripherally restricted acute phase response to a viral mimic alters hippocampal gene expression

Modulation of adult-born neurons in the inflamed hippocampus

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