Microglial NMDA receptors drive pro‐inflammatory responses via PARP‐1/TRMP2 signaling

Raghunatha, Prajwal; Vosoughi, Amir Reza; Kauppinen, Tiina M.; Jackson, Michael

doi:10.1002/glia.23790

Cited by 54 publications

(28 citation statements)

References 69 publications

(84 reference statements)

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“…As manifested in Figure 10 , the unprimed primary microglial cells displayed shortened cellular branches. In contrast, the BAFF-priming microglial cells showed an obvious enlarged cell body with thickening and retraction of cellular branches, which was defined as proinflammatory morphological activation ( 25 , 36 ). Microglial cells pretreated with rapamycin transformed into a morphology similar to the unprimed one.…”

Section: Resultsmentioning

confidence: 99%

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Rapamycin Modulates the Proinflammatory Memory-Like Response of Microglia Induced by BAFF

et al. 2021

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BackgroundRecently trained immunity of microglia provided an opportunity to study the chronic effect of microglial activation and its metabolic rewiring in neuroimmunological diseases. Since elevated levels of B cell-activating factor (BAFF) have been proved to be associated with some chronic neuroimmunological disorders. Here, we used the trained innate immunity model to analyze the effect of BAFF, a vital regulator of the adaptive immune system, on long-term microglial activation and metabolic reprogramming in vitro and in vivo.Methods and resultsIn vitro, BV2 cells and mouse primary microglial cells were incubated with BAFF for 24 h (BAFF priming). After 5 days of resting, microglia were restimulated with LPS (LPS restimulation) or BAFF (BAFF restimulation). BAFF priming induced a pro-inflammatory trained immunity-phenotype of both BV2 cells and primary microglial cells, which was indicated by morphological change, secretion of pro-inflammatory cytokine and chemokine upon LPS restimulation or BAFF restimulation. The production of lactate and NAD+/NADH ratio were elevated 5 days after BAFF priming. The activation of the Akt/mTOR/HIF-1α pathway was induced by BAFF priming and lasted for 5 days. Pretreating the BV2 cells or mouse primary microglial cells with rapamycin blocked mTOR/HIF-1α activation and cellular metabolic reprogramming induced by BAFF training. Consistently, rapamycin efficiently suppressed the trained immunity-like responses of microglia triggered by BAFF. In vivo, adult male mice were treated withBAFF by intracerebroventricular injection for priming and 7 days later with BAFF for restimulation. BAFF training activated microglia in the cortex and hippocampus. The production of proinflammatory cytokines and chemokines was elevated after BAFF training.ConclusionOur current data, for the first time, demonstrate that BAFF priming induces a proinflammatory memory-like response of microglia not only to LPS but also to BAFF itself. Rapamycin inhibits microglial priming triggered by BAFF through targeting the mTOR/HIF-1α signaling pathway. Our data reveal a novel role of BAFF in trained immunity and that rapamycin may be a potential therapeutic target of neuroimmunological diseases.

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Section: Resultsmentioning

confidence: 99%

“…Microglial morphology was assessed by phase-contrast microscopy based on previously described criteria ( 25 ). The cell morphology was observed using the Nexcope NIB410 microscope linked to the DLAIPU PUBLIC software (China) for image processing.…”

Section: Methodsmentioning

confidence: 99%

Rapamycin Modulates the Proinflammatory Memory-Like Response of Microglia Induced by BAFF

et al. 2021

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“…Microglia expresses most types of glutamate receptors, including NMDA receptors. Activation of NMDA receptors by glutamate in microglia leads to morphological activation and release of inflammatory mediators that promote microglial polarization [50,51]. Glutamate released from Purkinje neurons in hyperammonemic rats would also contribute to keep microglial activation.…”

Section: Discussionmentioning

confidence: 99%

Blocking glycine receptors reduces neuroinflammation and restores neurotransmission in cerebellum through ADAM17-TNFR1-NF-κβ pathway

Arenas

Cabrera‐Pastor

Juciute

et al. 2020

J Neuroinflammation

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Background Chronic hyperammonemia induces neuroinflammation in cerebellum, with glial activation and enhanced activation of the TNFR1-NF-kB-glutaminase-glutamate-GABA pathway. Hyperammonemia also increases glycinergic neurotransmission. These alterations contribute to cognitive and motor impairment. Activation of glycine receptors is reduced by extracellular cGMP, which levels are reduced in cerebellum of hyperammonemic rats in vivo. We hypothesized that enhanced glycinergic neurotransmission in hyperammonemic rats (1) contributes to induce neuroinflammation and glutamatergic and GABAergic neurotransmission alterations; (2) is a consequence of the reduced extracellular cGMP levels. The aims were to assess, in cerebellum of hyperammonemic rats, (a) whether blocking glycine receptors with the antagonist strychnine reduces neuroinflammation; (b) the cellular localization of glycine receptor; (c) the effects of blocking glycine receptors on the TNFR1-NF-kB-glutaminase-glutamate-GABA pathway and microglia activation; (d) whether adding extracellular cGMP reproduces the effects of strychnine. Methods We analyzed in freshly isolated cerebellar slices from control or hyperammonemic rats the effects of strychnine on activation of microglia and astrocytes, the content of TNFa and IL1b, the surface expression of ADAM17, TNFR1 and transporters, the phosphorylation levels of ERK, p38 and ADAM17. The cellular localization of glycine receptor was assessed by immunofluorescence. We analyzed the content of TNFa, IL1b, HMGB1, glutaminase, and the level of TNF-a mRNA and NF-κB in Purkinje neurons. Extracellular concentrations of glutamate and GABA were performed by in vivo microdialysis in cerebellum. We tested whether extracellular cGMP reproduces the effects of strychnine in ex vivo cerebellar slices. Results Glycine receptors are expressed mainly in Purkinje cells. In hyperammonemic rats, enhanced glycinergic neurotransmission leads to reduced membrane expression of ADAM17, resulting in increased surface expression and activation of TNFR1 and of the associated NF-kB pathway. This increases the expression in Purkinje neurons of TNFa, IL-1b, HMGB1, and glutaminase. Increased glutaminase activity leads to increased extracellular glutamate, which increases extracellular GABA. Increased extracellular glutamate and HMGB1 potentiate microglial activation. Blocking glycine receptors with strychnine or extracellular cGMP completely prevents the above pathway in hyperammonemic rats. Conclusions Glycinergic neurotransmission modulates neuroinflammation. Enhanced glycinergic neurotransmission in hyperammonemia would be due to reduced extracellular cGMP. These results shed some light on possible new therapeutic target pathways for pathologies associated to neuroinflammation.

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“…Also, the injection of Aβ into PARP-1 (−/−) mice or the inhibition of PARP-1 with PJ34 induced lower microglial activation compared to controls ( Kauppinen et al, 2011 ). Recent studies show that the toxicity of Aβ involves the activation of the transient receptor potential melastatin-related 2 (TRPM2) channel, a cation channel activated by ADP-ribose ( Miller, 2006 ; Alawieyah Syed Mortadza et al, 2018 ; Li and Jiang, 2018 ; Raghunatha et al, 2020 ). In studies in hippocampal neurons it is proposed that Aβ-generated ROS damage the DNA activating PARP-1 which in turn activates TRPM2 leading to Ca 2+ entry and mitochondrial dysfunction perpetuating the cycle ( Li and Jiang, 2018 ).…”

Section: Introductionmentioning

confidence: 99%

“…In a microglial cell line (BV2 cells) microglial activation induced by lipopolysaccharides (LPS) stimulation prompted PARP-1 enzymatic activity that enhanced microglial expression of NF-κB-dependent inflammatory cytokines (IL1β and TNF-α) ( Martínez-Zamudio and Ha, 2014 ). The signaling pathway maintaining microglial PARP−1 activation also involves the TRMP2 channel ( Raghunatha et al, 2020 ). In vivo experiments are in line with this evidence.…”

Section: Introductionmentioning

confidence: 99%

Nicotinamide, a Poly [ADP-Ribose] Polymerase 1 (PARP-1) Inhibitor, as an Adjunctive Therapy for the Treatment of Alzheimer’s Disease

Salech

Ponce

Paula-Lima

et al. 2020

Front. Aging Neurosci.

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Microglial NMDA receptors drive pro‐inflammatory responses via PARP‐1/TRMP2 signaling

Cited by 54 publications

References 69 publications

Rapamycin Modulates the Proinflammatory Memory-Like Response of Microglia Induced by BAFF

Rapamycin Modulates the Proinflammatory Memory-Like Response of Microglia Induced by BAFF

Blocking glycine receptors reduces neuroinflammation and restores neurotransmission in cerebellum through ADAM17-TNFR1-NF-κβ pathway

Nicotinamide, a Poly [ADP-Ribose] Polymerase 1 (PARP-1) Inhibitor, as an Adjunctive Therapy for the Treatment of Alzheimer’s Disease

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