Bruna Pescador scite author profile

Maternal deprivation (MD) induces behavioral changes and impacts brain circuits that could be associated with the pathophysiology of depression. This study investigated the markers of microglia and astrocyte activation as well as indoleamine 2,3-dioxygenase (IDO) expression in developmental programming after early life MD (on postnatal days (PNDs) 20, 30, 40, and 60). On PND 60, the rats that were subjected to MD displayed depressive-like behavior. On PND 10, it was found that there was a decrease in the level of glial fibrillary acidic protein (GFAP) immunopositive cells, a decrease in the level of IDO expression, and an increase in the level of Iba-1 (microglial marker) in the hippocampus of rats that were subjected to MD. On PND 20, levels of GFAP were also found to have decreased in the hippocampus, and there was an increase in the level of Iba-1 in the hippocampus. AIF-1 (microglial marker) expression was observed in the PFC following MD. On PND 30, the levels of Iba-1 remained elevated. On PND 40, the levels of GFAP were found to have increased in the hippocampus of rats that were subjected to MD. On PND 60, the levels of GFAP and AIF-1 remained elevated following MD. These results suggest that early life stress induces negative developmental programming in rats, as demonstrated by depressive-like behavior in adult life. Moreover, MD increases microglial activation in both early and late developmental phases. The levels of GFAP and IDO decreased in the early stages but were found to be higher in later developmental periods. These findings suggest that MD could differentially affect the expression of the IDO enzyme, astrocytes, and microglial activation depending on the neurodevelopmental period. The onset of an inflammatory state from resident brain cells could be associated with the activation of the kynurenine pathway and the development of depressive behavior in adulthood.

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Early life experience contributes to the developmental programming of depressive-like behaviour, neuroinflammation and oxidative stress

Réus

Fernandes

Moura

et al. 2017

Journal of Psychiatric Research

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CD40-CD40 Ligand Pathway Is a Major Component of Acute Neuroinflammation and Contributes to Long-term Cognitive Dysfunction after Sepsis

Michels

Danieslki

Vieira

et al. 2015

Mol Med

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Sepsis-associated encephalopathy (SAE) is associated with an increased rate of morbidity and mortality. It is not understood what the exact mechanism is for the brain dysfunction that occurs in septic patients, but brain inflammation and oxidative stress are a possible theory. Such events can occur through the alteration of molecules that perpetuate the inflammatory response. Thus, it is possible to postulate that CD40 may be involved in this process. The aim of this work is to evaluate the role of CD40-CD40L pathway activation in brain dysfunction associated with sepsis in an animal model. Microglia activation induces the upregulation of CD40-CD40L, both in vitro and in vivo. The inhibition of microglia activation decreases levels of CD40-CD40L in the brain and decreases brain inflammation, oxidative damage and blood brain barrier dysfunction. Despite this, anti-CD40 treatment does not improve mortality in this model. However, it is able to improve long-term cognitive impairment in sepsis survivors. In conclusion, there is a major involvement of the CD40-CD40L signaling pathway in long-term brain dysfunction in an animal model of sepsis.

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Microglial Cells Depletion Increases Inflammation and Modifies Microglial Phenotypes in an Animal Model of Severe Sepsis

et al. 2019

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NMDA preconditioning prevents object recognition memory impairment and increases brain viability in mice exposed to traumatic brain injury

et al. 2012

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Recent studies have focused on the role of N-methyl-d-aspartate (NMDA) in brain injury. The present study is aimed at verifying memory, anxiety/depression parameters, and cellular viability in the brain of mice preconditioned with NMDA and subjected to the model of mild traumatic brain injury. For this purpose, male albino CF-1 mice were pre-treated with NMDA (75 mg/kg) and subjected to brain trauma, and after 24h submitted to memory tasks and anxiety and depression-like behavioral tests. The memory tests were evaluated at 1.5h, 24h, and 7 days after the training. In addition, the cellular viability was evaluated in the cerebral cortex and hippocampus 96 h after the trauma. It was observed that the cellular viability was reduced in the hippocampus of the mice subjected to trauma and the preconditioning with NMDA was able to protect this damage. All mice learnt the task in the habituation test, but in the object recognition task the mice preconditioned with NMDA were protected against impairment induced by TBI in both short and long-term memory. On the other hand, in the step-down inhibitory avoidance test, only the mice treated with NMDA showed impairment of long-term memory (7 days after training session). The evaluation of anxiety/depression behavior showed no changes after TBI. In conclusion, NMDA preconditioning induced impairment of the long-term memory; however, it was able to protect against the novel recognition memory impairment and increase the cellular survival in the hippocampus of mice exposed to traumatic brain injury.

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Bruna Pescador

Early Maternal Deprivation Induces Microglial Activation, Alters Glial Fibrillary Acidic Protein Immunoreactivity and Indoleamine 2,3-Dioxygenase during the Development of Offspring Rats

Early life experience contributes to the developmental programming of depressive-like behaviour, neuroinflammation and oxidative stress

CD40-CD40 Ligand Pathway Is a Major Component of Acute Neuroinflammation and Contributes to Long-term Cognitive Dysfunction after Sepsis

Microglial Cells Depletion Increases Inflammation and Modifies Microglial Phenotypes in an Animal Model of Severe Sepsis

NMDA preconditioning prevents object recognition memory impairment and increases brain viability in mice exposed to traumatic brain injury

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