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1.
J Affect Disord ; 330: 216-226, 2023 06 01.
Article in English | MEDLINE | ID: mdl-36907459

ABSTRACT

BACKGROUND: Although many studies have pointed out a possible relationship between COVID-19 and the presence of psychiatric disorders, the majority of the studies have significant limitations. This study investigates the influence of COVID-19 infection on mental health. METHODS: This cross-sectional study included an age- and sex-matched sample of adult individuals positive (cases) or negative (controls) for COVID-19. We evaluated the presence of psychiatric conditions and C-reactive protein (CRP). RESULTS: Findings showed greater severity of depressive symptoms, higher levels of stress, and greater CRP in cases. The severity of depressive and insomnia symptoms, as well as the CRP were more remarkable in individuals with moderate/severe COVID-19. We found a positive correlation between stress and severity of anxiety, depression, and insomnia in individuals with or without COVID-19. There was a positive correlation between CRP levels and severity of depressive symptoms in cases and controls, and a positive correlation between CRP levels and the severity of anxiety symptoms and stress levels only in individuals with COVID-19. Individuals with COVID-19 and depression had greater CRP than those with COVID-19 without current major depressive disorder. LIMITATIONS: We cannot infer causality because this is a cross-sectional study, and the majority of COVID-19 sample was asymptomatic or had mild symptoms, which may limit the generalizability of our findings for moderate/severe cases. CONCLUSIONS: Individuals with COVID-19 showed greater severity of psychological symptoms, which may impact on the development of psychiatric disorders in the future. CPR seem to be a promising biomarker for earlier detection of post-COVID depression.


Subject(s)
COVID-19 , Depressive Disorder, Major , Sleep Initiation and Maintenance Disorders , Adult , Humans , C-Reactive Protein/metabolism , Cross-Sectional Studies , Depression/psychology , Anxiety/epidemiology , Anxiety/psychology , Stress, Psychological/psychology
2.
Mol Neurobiol ; 60(12): 6757-6773, 2023 Dec.
Article in English | MEDLINE | ID: mdl-34665408

ABSTRACT

Stress is related to major depressive disorder (MDD). This study investigated the action that early stress, represented by maternal deprivation (MD), has on the behavior and oxidative stress of Wistar female and male rats. Also, it was evaluated whether changes induced by MD could be reversed by environmental enrichment (EE). Male and female rats were divided into a non-MD and MD group. The MD group was subdivided into 3 groups: (1) assessed on the 31st day after exposure to EE for 10 days, (2) assessed on the 41st day after exposure to EE for 20 days, and (3) assessed on the 61st day after exposure to EE for 40 days. Behavioral tests were performed (memory habituation and elevated plus maze). Oxidative stress parameters were evaluated peripherally. MD was able to promote anxiety-like behavior at postnatal day (PND) 41 and impair memory at PND 31 and PND 61 in male and PND 41 and PND 61 in female rats. MD was associated with increased oxidative stress parameters (reactive species to thiobarbituric acid levels (TBARS), carbonylated proteins, nitrite/nitrate concentration), and altered antioxidant defenses (superoxide dismutase (SOD) and catalase (CAT), and sulfhydryl content) in different stages of development. The EE was able to reverse almost all behavioral and biochemical changes induced by MD; however, EE effects were sex and developmental period dependent. These findings reinforce the understanding of the gender variable as a biological factor in MDD related to MD and EE could be considered a treatment option for MDD treatment and its comorbidities.


Subject(s)
Depressive Disorder, Major , Female , Male , Animals , Rats , Rats, Wistar , Maternal Deprivation , Oxidative Stress , Antioxidants
3.
Brain Res Bull ; 190: 152-167, 2022 11.
Article in English | MEDLINE | ID: mdl-36191730

ABSTRACT

A suitable enriched environment favors development but can also influence behavior and neuronal circuits throughout development. Studies have shown that environmental enrichment (EE) can be used as an essential tool or combined with conventional treatments to improve psychiatric and neurological symptoms, including major depressive disorder (MDD) and autism spectrum disorder (ASD). Both disorders affect a significant percentage of the wofrld's population and have complex pathophysiology. Moreover, the available treatments for MDD and ASD are still inadequate for many affected individuals. Experimental models demonstrate that EE has significant positive effects on behavioral modulation. In addition, EE has effects on neurobiology, including improvement in synaptic connections and neuroplasticity, modulation of neurotransmissions, a decrease in inflammation and oxidative stress, and other neurobiology effects that can be involved in the pathophysiology of MDD and ASD. Thus, this review aims to describe the leading behavioral and neurobiological effects associated with EE in MDD and ASD.


Subject(s)
Autism Spectrum Disorder , Depressive Disorder, Major , Humans , Autism Spectrum Disorder/therapy , Autism Spectrum Disorder/psychology , Depressive Disorder, Major/therapy , Depressive Disorder, Major/psychology , Neurobiology , Neuronal Plasticity , Neurons
4.
Pharmacol Biochem Behav ; 220: 173468, 2022 10.
Article in English | MEDLINE | ID: mdl-36174752

ABSTRACT

Major depressive disorder (MDD) is the most prevalent mood disorder globally. Most antidepressants available for the treatment of MDD increase the concentration of monoamines in the synaptic cleft. However, such drugs have a high latency time to obtain benefits. Thus, new antidepressants with fast action and robust efficacy are very important. This study evaluated the effects of escitalopram, ketamine, and probiotic Bifidobacterium infantis in rats submitted to the maternal deprivation (MD). MD rats received saline, escitalopram, ketamine, or probiotic for 10, 30, or 50 days, depending on the postnatal day (PND):21, 41, and 61. Following behavior, this study examined the integrity of the blood-brain barrier (BBB) and oxidative stress markers. MD induced depressive-like behavior in females with PND21 and males with PND61. All treatments reversed depressive-like behavior in females and escitalopram and ketamine in males. MD induced an increase in the permeability of the BBB, an imbalance between oxidative stress and antioxidant defenses. Treatments regulated the oxidative damage and the integrity of the BBB induced by MD. The treatment with escitalopram, ketamine, or probiotics may prevent behavioral and neurochemical changes associated with MDD, depending on the developmental period and gender.


Subject(s)
Antidepressive Agents , Depressive Disorder, Major , Sex Characteristics , Stress, Psychological , Animals , Female , Male , Rats , Antidepressive Agents/therapeutic use , Antioxidants/metabolism , Depressive Disorder, Major/drug therapy , Ketamine , Rats, Wistar , Stress, Psychological/drug therapy , Escitalopram
5.
Mol Neurobiol ; 59(3): 1452-1475, 2022 Mar.
Article in English | MEDLINE | ID: mdl-34994953

ABSTRACT

This study aimed at evaluating the treatment effects with ketamine, electroconvulsive stimulation (ECS), escitalopram, alone or in combination in adult rats of both sexes, subjected to the animal model of maternal deprivation (MD). All groups were subjected to the forced swimming test (FST), splash and open field tests. The prefrontal cortex (PFC), hippocampus and serum were collected to analyze oxidative stress and inflammatory parameters. MD induced depressive-like behavior in the FST test in males and reduced grooming time in male and female rats. The treatments alone or combined reversed depressive and anhedonic behavior in females. In males, all treatments increased grooming time, except for ECS + escitalopram + ketamine. MD increased lipid peroxidation and protein carbonylation, nitrite/nitrate concentration and myeloperoxidase activity in the PFC and hippocampus of males and females. However, the treatment's response was sex dependent. Catalase activity decreased in the PFC of males and the PFC and hippocampus of females, and most treatments were not able to reverse it. MD increased the inflammation biomarkers levels in the PFC and hippocampus of males and females, and most treatments were able to reverse this increase. In all groups, a reduction in the interleukin-10 levels in the PFC and hippocampus of female and male rats was observed. Our study shows different responses between the sexes in the patterns evaluated and reinforces the use of the gender variable as a biological factor in MDD related to early stress and in the response of the therapeutic strategies used.


Subject(s)
Ketamine , Maternal Deprivation , Animals , Behavior, Animal , Brain/metabolism , Escitalopram , Female , Hippocampus/metabolism , Inflammation/metabolism , Ketamine/pharmacology , Male , Oxidative Stress , Rats , Rats, Wistar
6.
Brain Res Bull ; 172: 129-138, 2021 07.
Article in English | MEDLINE | ID: mdl-33932489

ABSTRACT

This study aimed to evaluate the effects of ketamine, on behavioral parameters, oxidative stress, and inflammation in the brain of male and female rats submitted to the animal model of maternal deprivation (MD). Wistar rats were deprived of maternal care in the first 10 days of life (three hours daily). As adults, male and female rats were divided: control + saline deprived + saline and deprived + ketamine (15 mg/kg). The behavior was evaluated through the open field and forced swimming tests. Then brain was removed for analysis of oxidative damage, the activity of superoxide dismutase (SOD), catalase (CAT), and myeloperoxidase (MPO) activity, and levels of interleukin-6 (IL-6). MD induced depressive behavior in males and ketamine reversed these changes. MD induced an increase in lipid peroxidation in males and females; ketamine reversed these effects in males. Protein carbonylation was increased in males and females, with ketamine decreasing such effects. The concentration of nitrite/nitrate increased in males and females, whereas ketamine decreased this in the PFC of males. SOD and CAT activities were decreased in male and female deprived groups and deprived groups treated with ketamine. MPO activity and IL-6 levels increased in males subjected to MD and ketamine reversed this effect. The results suggest that stressful events in early life can induce behavioral, neuroimmune changes, and oxidative stress, however, such effects depend on sex and brain area. Ketamine presents anti-inflammatory and antioxidant properties and could be considered an alternative for individuals who are resistant to classical treatments.


Subject(s)
Behavior, Animal/drug effects , Hippocampus/drug effects , Ketamine/pharmacology , Maternal Deprivation , Oxidative Stress/drug effects , Prefrontal Cortex/drug effects , Stress, Psychological/metabolism , Animals , Catalase/metabolism , Female , Hippocampus/metabolism , Interleukin-6/metabolism , Male , Malondialdehyde/metabolism , Motor Activity/drug effects , Peroxidase/metabolism , Prefrontal Cortex/metabolism , Rats , Rats, Wistar , Sex Factors , Superoxide Dismutase/metabolism
7.
J Psychiatr Res ; 138: 107-116, 2021 06.
Article in English | MEDLINE | ID: mdl-33848966

ABSTRACT

This study aimed to evaluate the effects of environmental enrichment (EE) in Wistar rats subjected to maternal deprivation (MD). MD was performed in the first post-natal days (PND) ten for 3 h/day. The groups were: control; deprived without EE; and deprived with EE. The EE was applied for 3 h/day. Forced swimming test (FST) and open field test were performed, and histone deacetylase (HDAC) and DNA methyltransferase (DNMT) activities in the prefrontal cortex (PFC) and hippocampus were evaluated on 31, 41, and 61 PND. MD altered spontaneous locomotor activity and immobility time in FST, but the effects were sex- and developmental period dependent. In deprived females at PND 31, 41, and 61, HDAC and DNMT increased in the PFC and hippocampus. In females exposed to EE for 20 days, there was a decrease of HDAC in the hippocampus and DNMT in the PFC and hippocampus. Exposure of females to EE for 40 days can reverse HDAC and DNMT increase in all brain areas. In deprived males at PND 31, 41, and 61, HDAC and DNMT increased in the hippocampus, and in the group exposed to EE for 40 days, there was a decrease in hippocampal activity. In PFC of male deprived rats at PND 61 and EE for 40 days, there was a reduction of HDAC and DNMT. MD induced lifelong persistent behavioral and epigenetic changes, and such effects were more evident in female than male rats. EE can be considered an essential non-pharmacological strategy to treat long-term trauma-induced early life changes.


Subject(s)
Environment , Epigenesis, Genetic , Stress, Psychological , Animals , Female , Male , Rats , Hippocampus , Maternal Deprivation , Rats, Wistar , Sex Factors , Behavior, Animal
8.
Int J Dev Neurosci ; 81(5): 407-415, 2021 Aug.
Article in English | MEDLINE | ID: mdl-33788296

ABSTRACT

Maternal deprivation (MD) is known to be related to long-term changes that could influence the onset of psychiatric disorders. Studies have demonstrated that early life stress makes the cells in the brain more susceptible to subsequent stressors. To test it, we used an animal model of MD conducted from postnatal day (PND) 1 to 10. Deprived and non-deprived rats (control) were randomized to receive or not lipopolysaccharide (LPS) at 5 mg/kg on PND 50. The behavior and glial cells activation were evaluated in all groups from 51 to 53 PND. There was an increase in the immobility time in the MD and MD+LPS groups. The spontaneous locomotor activity was not changed between groups. We found elevated ionized calcium-binding adapter molecule 1 (Iba-1)-positive cells levels in the control+LPS and MD+LPS groups. In the MD+LPS group, it was found an increase in Iba-positive cells compared to the MD+sal group. The glial fibrillary acidic protein (GFAP)-positive cells were also increased in the MD+LPS, compared to control+sal, control+LPS, and MD+sal groups. Immune challenge by LPS in late adolescence, which was subjected to MD, did not influence the depressive-like behavior but exerted a pronounced effect in the microglial activation and astrocyte atrophy.


Subject(s)
Behavior, Animal , Immunity , Maternal Deprivation , Neuroglia , Stress, Psychological , Animals , Female , Rats , Astrocytes/pathology , Calcium-Binding Proteins/metabolism , Depression , Disease Models, Animal , Glial Fibrillary Acidic Protein/biosynthesis , Immunity/physiology , Lipopolysaccharides , Macrophage Activation , Microfilament Proteins/metabolism , Motor Activity , Neuroglia/immunology , Rats, Wistar , Stress, Psychological/immunology , Swimming/psychology
9.
Behav Brain Res ; 406: 113226, 2021 05 21.
Article in English | MEDLINE | ID: mdl-33684423

ABSTRACT

Major depressive disorder (MDD) is one of the most prevalent forms of mental illness also affecting older adults. Recent evidence suggests a relationship between MDD and neurodegenerative diseases, including Parkinson's disease (PD). Individuals with PD have a predisposition to developing MDD, and both neurobiological conditions are associated with oxidative stress. Thus, we conducted this study to investigate depressive-like behavior and oxidative stress parameters using both animal models of PD and stress. Adult Wistar rats were subjected to chronic mild stress (CMS) protocol by 40 days and then it was used 6-hydroxydopamine (6-OHDA) as a model of PD, into the striatum. The experimental groups were: Control + Sham, Stress + Sham, Control+6-OHDA, and Stress+6-OHDA. Depressive like-behavior was evaluated by the forced swimming test (FST) and spontaneous locomotor activity by open-field test. Oxidative stress parameters were measured in the striatum, hippocampus, and prefrontal cortex (PFC). The results showed effects to increase immobility and decrease climbing times in the FST in Stress + Sham, Control+6-OHDA, and Stress+6-OHDA groups. The number of crossings and rearings were decreased in the Stress+6-OHDA group. The lipid peroxidation was increased in the PFC of Stress + Sham, and the hippocampus and striatum of Stress + Sham and Control+6-OHDA groups. Carbonyl protein levels increased in the PFC of Stress + Sham and striatum in Control+6-OHDA. Nitrite/Nitrate concentration was elevated in the PFC of Stress + Sham, in the hippocampus of Control+6-OHDA, the striatum of Stress + Sham, and Control+6-OHDA groups. Myeloperoxidase (MPO) activity was increased in the PFC and hippocampus of Stress + Sham and Control+6-OHDA groups. The activity of catalase decreased in the PFC of the Stress + Sham group. The activity of the superoxide dismutase (SOD) was decreased in the PFC of the Stress + Sham group, in the hippocampus of Stress + Sham and Control+6-OHDA groups, and the striatum of Control+6-OHDA group. These findings suggest that both stress and 6-OHDA induce depressive-like behavior and oxidative stress in the brain. The joining models have little evidence of the effects. Thus these findings suggest that other pathways are involved in the common point of the pathophysiology of PD and MDD.


Subject(s)
Adrenergic Agents/pharmacology , Behavior, Animal , Brain , Depressive Disorder, Major , Oxidative Stress , Oxidopamine/pharmacology , Parkinson Disease, Secondary , Stress, Psychological/complications , Animals , Behavior, Animal/drug effects , Behavior, Animal/physiology , Brain/drug effects , Brain/metabolism , Brain/physiopathology , Corpus Striatum/drug effects , Corpus Striatum/metabolism , Corpus Striatum/physiopathology , Depressive Disorder, Major/chemically induced , Depressive Disorder, Major/etiology , Depressive Disorder, Major/metabolism , Depressive Disorder, Major/physiopathology , Disease Models, Animal , Hippocampus/drug effects , Hippocampus/metabolism , Hippocampus/physiopathology , Male , Oxidative Stress/drug effects , Parkinson Disease, Secondary/chemically induced , Parkinson Disease, Secondary/etiology , Parkinson Disease, Secondary/metabolism , Parkinson Disease, Secondary/physiopathology , Prefrontal Cortex/drug effects , Prefrontal Cortex/metabolism , Prefrontal Cortex/physiopathology , Rats , Rats, Wistar
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