37 research outputs found
mTOR-dependent translation amplifies microglia priming in aging mice.
peer reviewedMicroglia maintain homeostasis in the brain. However, with age, they become primed and respond more strongly to inflammatory stimuli. We show here that microglia from aged mice had upregulated mTOR complex 1 signaling controlling translation, as well as protein levels of inflammatory mediators. Genetic ablation of mTOR signaling showed a dual yet contrasting effect on microglia priming: it caused an NF-ÎșB-dependent upregulation of priming genes at the mRNA level; however, mice displayed reduced cytokine protein levels, diminished microglia activation, and milder sickness behavior. The effect on translation was dependent on reduced phosphorylation of 4EBP1, resulting in decreased binding of eIF4E to eIF4G. Similar changes were present in aged human microglia and in damage-associated microglia, indicating that upregulation of mTOR-dependent translation is an essential aspect of microglia priming in aging and neurodegeneration
Plasma extracellular vesicle tau and TDP-43 as diagnostic biomarkers in FTD and ALS
Minimally invasive biomarkers are urgently needed to detect molecular pathology in frontotemporal dementia (FTD) and amyotrophic lateral sclerosis (ALS). Here, we show that plasma extracellular vesicles (EVs) contain quantifiable amounts of TDP-43 and full-length tau, which allow the quantification of 3-repeat (3R) and 4-repeat (4R) tau isoforms. Plasma EV TDP-43 levels and EV 3R/4R tau ratios were determined in a cohort of 704 patients, including 37 genetically and 31 neuropathologically proven cases. Diagnostic groups comprised patients with TDP-43 proteinopathy ALS, 4R tauopathy progressive supranuclear palsy, behavior variant FTD (bvFTD) as a group with either tau or TDP-43 pathology, and healthy controls. EV tau ratios were low in progressive supranuclear palsy and high in bvFTD with tau pathology. EV TDP-43 levels were high in ALS and in bvFTD with TDP-43 pathology. Both markers discriminated between the diagnostic groups with area under the curve values >0.9, and between TDP-43 and tau pathology in bvFTD. Both markers strongly correlated with neurodegeneration, and clinical and neuropsychological markers of disease severity. Findings were replicated in an independent validation cohort of 292 patients including 34 genetically confirmed cases. Taken together, the combination of EV TDP-43 levels and EV 3R/4R tau ratios may aid the molecular diagnosis of FTD, FTD spectrum disorders and ALS, providing a potential biomarker to monitor disease progression and target engagement in clinical trials.</p
Streptococcus pneumoniae induziert Apoptose in zerebralen Endothelzellen
Die bakterielle Meningitis ist trotz der Anwendung modernster Antibiotika mit einer hohen LetalitĂ€t und neurologischen SpĂ€tkomplikationen verbunden. Ein entscheidendes Ereignis ist dabei der Zusammenbruch der Blut-Hirn-Schranke (BHS). Die genauen Mechanismen, die zu ihrer SchĂ€digung fĂŒhren, sind bis heute unklar. In dieser Arbeit wurde untersucht, ob lebende Pneumokokken in einem Zellkulturmodell der BHS zu einer apoptotischen ZellschĂ€digung von zerebralen Endothelzellen, als wichtigstem zellulĂ€ren Bestandteil der BHS, fĂŒhren und damit zu ihrer strukturellen SchĂ€digung beitragen. Mittels verschiedener Detektionsmethoden (TUNEL, Fluoreszenzmikroskopie, Elektronenmikroskopie) konnte nachgewiesen werden, daĂ Streptococcus pneumoniae zu einem apoptotischen endothelialen Zelltod fĂŒhrt. Eine Beteiligung von Caspasen konnte weder mit direkter AktivitĂ€tsmessung noch mittels Inhibitionsexperimenten oder dem Nachweis von Caspase-spezifischen Substraten gezeigt werden. Insgesamt sind die Morphologie der Zellkerne und die spezifische Degradation der endothelialen DNS hinweisend fĂŒr einen Apoptosis-Inducing-Factor-vermittelten Zelltod ohne Caspasenbeteiligung. Diese Form des Zelltodes ist bereits in anderen Zellmodellen, bisher jedoch nicht bei zerebralen Endothelzellen beschrieben worden. Auf Seiten des Bakteriums konnten Wasserstoffperoxid und Pneumolysin als Auslöser der Apoptose identifiziert werden. Die zytotoxische Potenz des Pneumolysins ist dabei an dessen Poren-formende AktivitĂ€t gebunden. Die Ergebnisse sind von potentieller klinischer Relevanz, da es bei einer BakteriĂ€mie und wĂ€hrend der Invasion der Pneumokokken in das ZNS zu einem direkten Kontakt zwischen Bakterien und zerebralen Endothelzellen kommt und sich daraus eine Möglichkeit zur Entwicklung adjuvanter Therapien ergeben könnte.Despite sufficient antibiotic treatment, pneumococcal meningitis has remained a disease associated with high mortality and neurological sequelae. The disruption of the blood brain barrier (BBB) is regarded a key event in the initial phase of pneumococcal meningitis. However, the exact molecular mechanisms involved in this process are still unknown. The aim of this study was to determine if living pneumococci are able to induce apoptosis in cerebral endothelial cells - the main cellular component of BBB - and therefore might contribute to its damage. Using several different detection methods (TUNEL, fluorescence and electron microscopy), induction of apoptotic cell death of endothelial cells by pneumococci could be verified. An accompanying activation of caspases was not detectable, despite the use of specific detection techniques such as inhibition experiments, direct enzyme measurements and detection of caspase-specific protein cleavage. These results as well as the specific nuclear morphology and degradation of endothelial DNA suggest an involvement of the mitochondrial protein Apoptosis inducing factor (AIF). This is the first time this specific form of apoptotic, AIF-driven cell death has been described to be engaged in endothelial cells. On the part of the bacterium, pneumolysin and hydrogen peroxide were identified as the two main inducers of apoptosis. The cytotoxic potency of pneumolysin is related to its pore-forming activity. These results are of clinical relevance since pneumococci are known to reside in close proximity to cerebral endothelial cells during bacteriemia and their entry into the CNS. These findings could contribute to the development of adjuvant treatment of bacterial meningitis
TLR3âmediated IFNâÎČ gene induction is negatively regulated by the TLR adaptor MyD88 adaptorâlike
There is limited insight into the mechanisms involved in the counterregulation of TLR. Given the important role of TLR3/TIR domainâcontaining adaptorâinducing IFNâÎČ (TRIF)âdependent signalling in innate immunity, novel insights into its modulation is of significance in the context of many physiological and pathological processes. Herein, we sought to perform analysis to definitively assign a mechanistic role for MyD88 adaptorâlike (Mal), an activator of TLR2/4 signalling, in the negative regulation of TLR3/TRIF signalling. Biochemical and functional analysis demonstrates that Mal negatively regulates TLR3, but not TLR4, mediated IFNâÎČ production. Coâimmunoprecipitation experiments demonstrate that Mal associates with IRF7 (IRF, IFN regulatory factor), not IRF3, and Mal specifically blocks IRF7 activation. In doing so, Mal impedes TLR3 ligandâinduced IFNâÎČ induction. Interestingly, Mal does not affect the induction of ILâ6 and TNFâα upon TLR3 ligand engagement. Together, these data show that the TLR adaptor Mal interacts with IRF7 and, in doing so, impairs IFNâÎČ induction through the positive regulatory domains IâIII enhancer element of the IFNâÎČ gene following poly(I:C) stimulation. Our findings offer a new mechanistic insight into TLR3/TRIF signalling through a hitherto unknown mechanism whereby Mal inhibits poly(I:C)âinduced IRF7 activation and concomitant IFNâÎČ production. Thus, Mal is essential in restricting TLR3 signalling thereby protecting the host from unwanted immunopathologies associated with excessive IFNâÎČ production
Glial Purinergic Signaling in Neurodegeneration
International audiencePurinergic signaling regulates neuronal and glial cell functions in the healthy CNS. In neurodegenerative diseases, purinergic signaling becomes dysregulated and can affect disease-associated phenotypes of glial cells. In this review, we discuss how cell-specific expression patterns of purinergic signaling components change in neurodegeneration and how dysregulated glial purinergic signaling and crosstalk may contribute to disease pathophysiology, thus bearing promising potential for the development of new therapeutical options for neurodegenerative diseases
Inhibition of Stat3âmediated astrogliosis ameliorates pathology in an Alzheimer's disease model
Abstract Reactive astrogliosis is a hallmark of Alzheimer's disease (AD), but its role for disease initiation and progression has remained incompletely understood. We here show that the transcription factor Stat3 (signal transducer and activator of transcription 3), a canonical inducer of astrogliosis, is activated in an AD mouse model and human AD. Therefore, using a conditional knockout approach, we deleted Stat3 specifically in astrocytes in the APP/PS1 model of AD. We found that Stat3âdeficient APP/PS1 mice show decreased ÎČâamyloid levels and plaque burden. Plaqueâclose microglia displayed a more complex morphology, internalized more ÎČâamyloid, and upregulated amyloid clearance pathways in Stat3âdeficient mice. Moreover, astrocyteâspecific Stat3âdeficient APP/PS1 mice showed decreased proâinflammatory cytokine activation and lower dystrophic neurite burden, and were largely protected from cerebral network imbalance. Finally, Stat3 deletion in astrocytes also strongly ameliorated spatial learning and memory decline in APP/PS1 mice. Importantly, these protective effects on network dysfunction and cognition were recapitulated in APP/PS1 mice systemically treated with a preclinical Stat3 inhibitor drug. In summary, our data implicate Stat3âmediated astrogliosis as an important therapeutic target in AD
Lymphocytic choriomeningitis virus (LCMV) infection of CNS glial cells results in TLR2-MyD88/Mal-dependent inflammatory responses
In response to invading pathogens, Toll-like receptors (TLR) play a critical role in the initiation of the innate immune response, which can be either beneficial or detrimental to the host. In the present study, we demonstrated that central nervous system (CNS) glial cells are activated by Lymphocytic Choriomeningitis Virus (LCMV) in a TLR2-MyD88/Mal-dependent manner. Specifically, in response to LCMV, both astrocytes and microglial cells isolated from wild-type (WT) mice produced chemokines, such as MCP-1, RANTES and TNF-alpha. Similar responses occurred in TLR3 KO and TLR4 KO glial cells. In striking contrast, both astrocytes and microglial cells isolated from mice deficient in TLR2, MyD88, and Mal did not produce any of these chemokines. In addition, LCMV infection of glial cells induced up-regulation of TLR2, MHC class-I and II, CD40, CD86 in a MyD88-dependent manner. These results define a functional role for TLR signaling in viral infection-induced activation of CNS glial cells as well as for the immunopathology in the CNS
Silica crystals and aluminum salts activate the NALP3 inflammasome through phagosomal destabilization
Inhalation of silica crystals causes inflammation in the alveolar space. Prolonged exposure to silica can lead to the development of silicosis, an irreversible, fibrotic pulmonary disease. The mechanisms by which silica and other crystals activate immune cells are not well understood. Here we demonstrate that silica and aluminum salt crystals activated inflammasomes formed by the cytoplasmic receptor NALP3. NALP3 activation required phagocytosis of crystals, and this uptake subsequently led to lysosomal damage and rupture. \u27Sterile\u27 lysosomal damage (without crystals) also induced NALP3 activation, and inhibition of either phagosomal acidification or cathepsin B activity impaired NALP3 activation. Our results indicate that the NALP3 inflammasome senses lysosomal damage as an endogenous \u27danger\u27 signal
Beneficial Effect of a Selective Adenosine A2A Receptor Antagonist in the APPswe/PS1dE9 Mouse Model of Alzheimerâs Disease
International audienceConsumption of caffeine, a non-selective adenosine A2A receptor (A2AR) antagonist, reduces the risk of developing Alzheimer's disease (AD) and mitigates both amyloid and Tau lesions in transgenic mouse models of the disease. While short-term treatment with A2AR antagonists have been shown to alleviate cognitive deficits in mouse models of amyloidogenesis, impact of a chronic and long-term treatment on the development of amyloid burden, associated neuroinflammation and memory deficits has never been assessed. In the present study, we have evaluated the effect of a 6-month treatment of APPsw/PS1dE9 mice with the potent and selective A2AR antagonist MSX-3 from 3 to 9-10 months of age. At completion of the treatment, we found that the MSX-3 treatment prevented the development of memory deficits in APP/PS1dE9 mice, without significantly altering hippocampal and cortical gene expressions. Interestingly, MSX-3 treatment led to a significant decrease of AÎČ1-42 levels in the cortex of APP/PS1dE9 animals, while AÎČ1-40 increased, thereby strongly affecting the AÎČ1-42/AÎČ1-40 ratio. Together, these data support the idea that A2AR blockade is of therapeutic value for AD
Bone Health or Performance? Adaptation Response of Genetically Divergent Chicken Layer Lines to a Nutritive Calcium Depletion
In modern laying hybrids, calcium (Ca) homeostasis is immensely challenged by daily eggshell calcification. However, excessive mobilization of Ca from bones may lead to osteoporosis, which then manifests in a high incidence of poor bone quality. The aim of this study was to characterize the hens’ adaptation response to an alternating dietary Ca restriction. The animal model consisted of four purebred layer lines, differing in laying performance (high vs. moderately performing lines) and phylogenetic origin (white- vs. brown-egg lines). According to the resource allocation theory, hens selected for high egg production were assumed to show a different response pattern to cope with this nutritive challenge compared to moderately performing lines. Data collected included egg number, egg quality traits, body weight and bone characteristics. The Ca depletion led to a temporary drop in egg production and shell quality and a loss of bone stability due to Ca mobilization. The white-egg lines response was more pronounced, whereas the brown-egg lines were less sensitive towards reduced Ca supply. Our study shows that the hens’ responsiveness to coping with a nutritive Ca depletion is not ultimately linked to genetic selection for increased egg production but rather to phylogenetic origin