glial activation
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Cholesterol and matrisome pathways dysregulated in Alzheimer’s disease brain astrocytes and microglia
The impact of apolipoprotein E ε4 (APOE4), the strongest genetic risk factor for Alzheimer’s disease (AD), on human brain cellular function remains unclear. Here, we investigated the effects of APOE4 on brain cell types derived from population and isogenic human induced pluripotent stem cells, post-mortem brain, and APOE targeted replacement mice. Population and isogenic models demonstrate that APOE4 local haplotype, rather than a single risk allele, contributes to risk. Global transcriptomic analyses reveal human-specific, APOE4-driven lipid metabolic dysregulation in astrocytes and microglia. APOE4 enhances de novo cholesterol synthesis despite elevated intracellular cholesterol due to lysosomal cholesterol sequestration in astrocytes. Further, matrisome dysregulation is associated with upregulated chemotaxis, glial activation, and lipid biosynthesis in astrocytes co-cultured with neurons, which recapitulates altered astrocyte matrisome signaling in human brain. Thus, APOE4 initiates glia-specific cell and non-cell autonomous dysregulation that may contribute to increased AD risk." https://doi.org/10.1016/j.cell.2022.05.017
Tapeworm larvae in the brain: cellular mechanisms of epilepsy in neurocysticercosis
Cerebral infection by the larvae of the cestode, Taenia solium (neurocysticercosis), is thought to be the leading cause of adult-acquired epilepsy worldwide. Despite this, little is known about the cellular mechanisms that underlie seizure development in this condition. In this talk I will present our recent data exploring multiple interactions between cestode larvae, neuroinflammatory processes and network excitability. We find that viable cestode larvae are able to strongly suppress microglial activation and inflammatory cytokine release with consequences for the modulation host neuroinflammatory responses and seizure development in vivo. At the same time, larvae produce and release glutamate, with acute excitatory effects on neuronal circuits. We hope that an improved understanding of epileptogenic mechanisms in neurocysticercosis will one day improve the management of this condition as well as other inflammatory causes of epilepsy.
Innate immune response in brain pathologies: Lost in translation?
Inflammation is a key component of the innate immune response. Primarily designed to remove noxious agents and limit their detrimental effects, the prolonged and/or inappropriately scaled innate immune response may be detrimental to the host and lead to a chronic disease. Indeed, there is increasing evidence suggesting that a chronic deregulation of immunity may represent one of the key elements in the pathobiology of many brain disorders. Microglia are the principal immune cells of the brain. The consensus today is that once activated microglia/macrophages can acquire a wide repertoire of profiles ranging from the classical pro-inflammatory to alternative and protective phenotypes. Recently, we described a novel ribosome-based regulatory mechanism/checkpoint that controls innate immune gene translation and microglial activation involving RNA binding protein SRSF3. Here we will discuss the implications of SRSF3 and other endogenous immune regulators in deregulation of immunity observed in different models of brain pathologies. Furthermore, we will discuss whether targeting SRSF3 and mRNA translation may open novel avenues for therapeutic modulation of immune response in the brain.
Microglia, memories, and the extracellular space
Microglia are the immune cells of the brain, and play increasingly appreciated roles in synapse formation, brain plasticity, and cognition. A growing appreciation that the immune system involved in diseases like schizophrenia, epilepsy, and neurodegenerative diseases has led to renewed interest in how microglia regulate synaptic connectivity. Our group previously identified the IL-1 family cytokine Interleukin-33 (IL-33) as a novel regulator of microglial activation and function. I will discuss a mechanism by which microglia regulate synaptic plasticity and long-term memories by engulfing brain extracellular matrix (ECM) proteins. These studies raise the question of how these pathways may be altered or could be modified in the context of disease.
Aberrant microglial activation in mice lacking the dsRNA editing enzyme ADAR1 is rescued by removing the gene encoding PKR
FENS Forum 2024
Cerebral malaria leads to persistent microglial activation, long-term behavioural changes and electrographic seizures in mice
FENS Forum 2024
Combined restraint stress and metal exposure paradigms in rats; cognitive assessment, brain oxidative stress, caspase-3 mediated responses, microglial activation, and myelin health
FENS Forum 2024
Early microstructural alterations in Alzheimer’s disease: novel MRI biomarkers of Aß deposition and glial activation in APP/PS1 mouse model
FENS Forum 2024
Effects of HSPB1 on glial activation in a mouse model of Alzheimer’s disease
FENS Forum 2024
Microglial activation in the anterior cingulate cortex: A biological marker of early adverse events and future vulnerability to develop alcohol use disorder
FENS Forum 2024
Selective estrogen receptor agonists confer minimal protection from global cerebral ischemia but show impacts on anxiety-like behaviors and microglial activation
FENS Forum 2024
Sex-dependent differences of short-term aerobic endurance exercise on systemic LPS-induced inflammation and microglial activation in young C57BL/6J mice
FENS Forum 2024
glial activation coverage
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