Stress Group Research Articles

Chronic stress induces insulin resistance and enhances cognitive impairment in AD

BackgroundChronic stress can induce the cognitive impairment, and even promote the occurrence and development of Alzheimer's disease (AD). Evidence has suggested that chronic stress impacts on glucose metabolism, and both of these have been implicated in AD. Here we focused on the effect of insulin resistance in glucose metabolism, and further evaluated the changes in cognition and pathology. MethodsMale 9-month-old wild-type and APP/PS1 mice were randomly divided into 4 groups. Mice in the chronic unpredictable mild stress (CUMS) groups were exposed for 4 weeks. Homeostatic Model Assessment (HOMA) was utilized to evaluate insulin sensitivity. A total of eighty-four genes related to the insulin signaling pathway were examined for rapid screening. Additionally, the phosphorylated protein expressions of insulin receptors (IR), IR substrate 1 (IRS1), c-Jun N-terminal kinase (JNK), and amyloid were detected in the hippocampus. Cognitive function was assessed through ethological methods. Cognitive function was assessed using both the Morris water maze (MWM) and the Passive avoidance test (PAT). ResultsFour weeks of CUMS exposure significantly increased the HOMA value, indicating reduced insulin sensitivity. The gene expressions of Insr and Lipe were downregulated. Additionally, the analysis revealed a significant interaction between the genotype (wild-type vs. APP/PS1) and CUMS treatment on the phosphorylated protein expressions of insulin receptor substrate 1 (IRS1). Specifically, CUMS exposure increased the inhibitory phosphorylation site (IRS1-pSer636) and decreased the excitatory phosphorylation site (IRS1-pTyr465) in the post-insulin receptor signaling pathway within the hippocampus of both wild-type and APP/PS1 mice. Moreover, CUMS exposure induced and exacerbated cognitive impairments in both wild-type and APP/PS1 mice, as assessed by the Morris water maze (MWM) and Passive avoidance test (PAT). However, there was no significant effect of CUMS on senile plaque deposition or levels of Aβ42 and Aβ40 in wild-type mice. ConclusionsChronic stress significantly affects hippocampal cognitive function through insulin resistance and exacerbates AD pathology. This study reveals the complex relationship between chronic stress, insulin resistance, and AD, providing new insights for developing interventions targeting chronic stress and insulin resistance.

Kefir recovered depressive-like behaviour in CantonS lineage of Drosophila melanogaster exposed to chronic unpredictable mild stress protocol.

Chronic unpredictable mild stress (CUMS) is a widely accepted method for inducing depressive-like states in animal models. We decided to explore the effects of CUMS on the CantonS lineage of Drosophila melanogaster, which differs from the OregonR lineage in various ways. Additionally, we wanted to investigate the potential benefits of kefir in treating these chronically stressed flies, as previous research has shown promising results in using kefir components for depression treatment. To begin, we exposed male CantonS flies to a 10-day CUMS protocol and compared them to non-stressed flies. Within the stressed group, we had two subgroups: one treated with kefir (CUMS+ Kefir group) and the other treated with sertraline (positive control). We then analysed various factors including serotonin levels, brain structure, markers of oxidative damage in lipids and proteins, and behavioural manifestations such as sociability, locomotor function, and anhedonic-like behaviour. Our results showed that flies exposed to CUMS experienced a decrease in serotonin levels without any signs of degeneration. They also exhibited reduced sociability, increased motor agitation, and decreased sucrose consumption, which are all indicative of stress-induced depressive-like behaviour. However, treatment with sertraline partially reversed these effects. Interestingly, treatment with kefir not only restored serotonin levels but also improved sociability and anhedonic-like behaviours. Additionally, flies in the CUMS+ Kefir group had a longer lifespan compared to their untreated counterparts. These findings suggest that kefir has multiple advantageous effects on flies subjected to the 10-day CUMS protocol. In conclusion, our study demonstrates that the CantonS lineage of D. melanogaster displays depressive-like manifestations after exposure to CUMS. Furthermore, kefir emerges as a powerful nutritional tool capable of reversing these effects and promoting beneficial outcomes in chronically stressed flies.

Functional connectivity of the amygdala in relation to high stress and low mindfulness

BackgroundHigh psychological stress has been associated with several brain functional changes, including functional connectivity (FC) alterations in regions such as the prefrontal cortex and the amygdala. This study explored FC alterations associated with high perceived stress, and also investigated whether these neuroimaging features were correlated with low levels of mindfulness. MethodsThis study included 29 adults (12 males and 17 females; mean age: 27.6 ± 3.2) who complained of moderate or higher perceived stress and 31 adults (17 males and 14 females; mean age: 29.2 ± 7.2) who complained of low-level stress on the questionnaire scale. Seed-based resting-state FC analysis was conducted to compare between high and low stress groups. The dorsolateral prefrontal cortex (DLPFC), the ventromedial prefrontal cortex (VMPFC) and the amygdala were selected as seeds. ResultsHigh stress group showed weaker left amygdala-based FC in the left cerebellum crus II and the left orbitofrontal cortex compared with low stress group. High stress group had weaker FC between the left DLPFC and the left inferior parietal lobule. On the contrary, high stress group had stronger FC between the left VMPFC and the left caudate compared with low stress group. Weaker FC between the amygdala and the cerebellum crus II was correlated with lower level of awareness facet of mindfulness. ConclusionsThose with high perceived stress showed low levels of mindfulness and several FC alterations centered on the prefrontal cortex and amygdala. Our findings also suggest that weak amygdala-based FC alterations associated with high psychological stress are related to low-level awareness facet of mindfulness.

Insomnia in teachers at the time of resumption of in-person instruction at schools amidst the COVID-19 pandemic: A cross-sectional study.

The coronavirus (COVID-19) pandemic has affected people's economies, lifestyles, and physical, emotional, and sleep health. This research aimed to estimate the prevalence of insomnia and symptoms of stress, anxiety, and depression among teachers with the resumption of in-person instruction at schools following a hiatus after COVID-19 lockdowns in India. We also studied the association of teachers' insomnia with psychological symptoms and demographic variables. We conducted a cross-sectional survey between October -November 2021 after schools had reopened during the COVID-19 pandemic. Data was collected using standard questionnaires online among schoolteachers. We explored the association of insomnia with teachers' symptoms of stress, anxiety, depression, sex, school boards, and age groups. Of 124 schoolteachers surveyed, the prevalence of insomnia was 37.9% (subthreshold in 25% and clinical in 12.9%). The prevalence of stress, depression, and anxiety was 20.2%, 30.6%, and 45.2%, respectively. There was a significant association (p<0.001) of insomnia with symptoms of anxiety, stress, and depression in univariate analysis. On multivariate analysis, we found that those feeling stressed had a 6.4 times higher risk of insomnia (95% CI: 1.5-28.3, p - 0.01). There was no association of insomnia with age, sex, school educational boards, and type of institution. Over one-third (37.9%) of teachers reported having trouble sleeping when they returned to the school's typical face-to-face instruction modalities through COVID-19 times, and insomnia was more prevalent in those with stress.

The epigenetic changes are affected by sex and valproic acid treatment in a rat model of post-traumatic stress disorder

Post-traumatic stress disorder (PTSD) presents distinct sex-specific differences in both symptom expression and treatment outcomes, with the underlying biological mechanisms still remain unclear. Epigenetic modifications, particularly histone acetylation, have been increasingly recognized as critical factors in the pathophysiology of PTSD. Valproic acid (VPA), a potent histone deacetylase (HDAC) inhibitor, has shown promise in modulating epigenetic responses and improving therapeutic outcomes is PTSD, though its effect may differ between sexes.This study aimed to explore the sex-specific epigenetic changes in response to trauma and the impact of VPA treatment in a rat model of PTSD induced by predator scent stress. Sprague-Dawley rats of both sexes were randomly assigned to stressed and non-stressed groups and treated with either VPA (100 mg/kg) or vehicle. Anxiety levels were assessed using the elevated plus maze, followed by analysis of histone H3 and H4 acetylation, HDAC activity, and c-fos expression in the hippocampus.Our findings revealed that traumatic stress led to increased freezing time and anxiety levels, with more pronounced effects observed in females. Additionally, we have identified sex-specific differences in hippocampal epigenetic modifications; stressed females exhibited higher H3 acetylation, and VPA-treated stressed males showed increased H4 acetylation.These results highlight the importance of considering sex differences in the epigenetic mechanism underlying PTSD and suggest that personalized therapeutic approaches may be necessary to address these complexities.

Exploring the Antidepressant-like Effects of Wogonin: Analysis of Behavioural, Neurochemical, and Biochemical Parameters

Background: Wogonin, a bioactive compound isolated from S. barbata D. Don, has been identified in the literature as a potential inhibitor of monoamine oxidase (MAO), a key enzyme involved in the degradation of neurotransmitters associated with mood regulation. This study aims to investigate the antidepressant-like activity of wogonin in vivo, utilizing a preclinical model. The rationale for selecting wogonin stems from its documented MAO inhibitory properties, suggesting a potential role in modulating neurotransmitter levels implicated in depressive disorder. Method: The study employs a multifaceted approach, incorporating behavioural, neurochemical, and biochemical assessments. The Chronic Unpredictable Mild Stress model is utilized to induce depression-like behavior in rodents for 21 days. Two doses of wogonin (20 and 40 mg/kg per orally) and standard (fluoxetine, 20 mg/kg, and imipramine, 15 mg/kg) were administered to albino mice. Behavioural paradigms, including the Tail Suspension Test, Forced Swim Test, and Open Field Test, are employed to assess the impact of wogonin on depressive-like symptoms on the 21st day. Neurochemical analyses focus on alterations in 5-HT, NE, and DA levels within relevant brain regions, and MAO activity is quantified to ascertain wogonin's potential as an MAO inhibitor on the 22nd day. Biochemical assessments emphasize wogonin's antioxidant properties and its ability to mitigate oxidative stress, a significant factor in depression pathophysiology. Plasma nitrite levels are measured to elucidate wogonin's impact on nitric oxide signalling. Plasma corticosteroid levels are also quantified to delineate wogonin's effect on the hypothalamicpituitary- adrenal (HPA) axis, a central regulator of stress response. Results: Wogonin demonstrates significant antidepressant effects in a dose-dependent manner in the behavioural assessments, showing a marked reduction in depressive-like behaviours across all paradigms. Neurochemical analyses revealed a significant (p ≤ 0.05) restoration of monoamine neurotransmitter levels in the relevant brain regions as compared to CUMS-induced stress group. Additionally, wogonin exhibits a potent (p ≤ 0.05) inhibitory effect on MAO activity. Biochemical assessments demonstrate a significant (p ≤ 0.05) increase in antioxidant capacity and a reduction in oxidative stress markers. Plasma nitrite levels indicate an enhancement of nitric oxide signalling. Corticosteroid levels showed a modulation of the HPA axis, suggesting a regulatory effect on stress response. Conclusion: This comprehensive study establishes wogonin as a promising MAO inhibitor with notable antidepressant potential. The findings provide crucial insights into its mechanisms of action, indicating a multifaceted approach to alleviating depression. Wogonin's demonstrated efficacy across behavioural, neurochemical, and biochemical parameters presents a strong foundation for further research and development of wogonin-based antidepressant interventions.

Acute stress does not influence the learning of a precise manual task: A randomized clinical trial

Acute stress is frequent in sports and rehabilitation contexts and can impact cognitive processes essential for motor learning. This study aimed to investigate the influence of induced acute stress on the learning of a precise manual task, examining its effect on five key parameters of fine motor control: trajectory error, trajectory error direction, time error, tracing accuracy, and task accuracy. A double-masked, randomized clinical trial with 62 participants (average age 20.65 ± 2.54 years; 39 females; 23 males) was conducted. To examine the effects of stress, participants were assigned to either a stress or a control group through stratified randomization by sex. Initially, all participants underwent the Maastricht Acute Stress Test (in its acute stress and control versions, respectively). Subsequently, they performed the precise manual task on a graphic tablet at three stages of the learning process: acquisition, short-term retrieval, and long-term retrieval. Electrodermal activity and heart rate variability were recorded to assess stress induction. Data analysis from 30 stress group participants and 25 control group participants revealed no statistically significant differences between groups in any of the variables studied at the three learning stages. Both groups exhibited statistically significant improvements in time error, trajectory error direction, and tracing accuracy during both short-term and long-term retrieval compared to acquisition. Our findings suggest that acute physical and psychological stress does not markedly impair learning a precise manual task of adhering to a specific trajectory and pace among young adults.

Effects of stress metabolism on physiological and biochemical reaction and polycyclic aromatic hydrocarbons degradation ability of Bacillus. sp

A strain of Bacillus licheniformis T5 was isolated from soil contaminated with crude oil due to its efficient degradation of polycyclic aromatic hydrocarbons (PAHs). When subjected to stress metabolism using phenanthrene as a carbon source, significant changes were observed in T5 cells. Infrared spectrum analysis revealed the presence of -C=C- and Ph-O-C (aromatic) groups on the bacterial surface, facilitating the adsorption of PAHs on the phospholipid layer and causing damage to the cell membrane. Scanning electron microscope (SEM) analysis showed the changes of cell morphology, including a large number of folds on the lower surface and the folding of cell membrane. Transmission electron microscope (TEM) observation showed that non-stressed bacteria with adequate nutritional conditions accumulated more lipids. However, the stress group contained more protein. It was found that stress metabolism led to the increase of protein content in T5 cells by 16.4% and the activity of oxidoreductase more than doubled. These physiological and biochemical changes enhance the ability of stressed bacteria to degrade PAHs efficiently, thereby reducing the degradation cycle. The findings offer valuable insights for the remediation of PAHs pollution.

The Effects of a Post-Traumatic Stress and Post-Traumatic Growth Group Program for Children at Childcare Facilities

The purpose of this study was to investigate the effects of post-traumatic stress and post-traumatic growth program for children at childcare facilities. And for hypothesis verification, Mann-Whitney U analysis and Wilcoxon signed rank test were conducted. The major findings were as; The group program had the effect of the reducing the post-traumatic stress and enhancing the post-traumatic growth of children in child care facilities. It was also found to be effective for changes in self-perception, enhancement of interpersonal relationships, discovery of new possibilities, and increase in spiritual and religious interest, which are sub-factors of children's post-traumatic growth. This study has significance in terms that it proved the importance on the improvement of children’s post-traumatic growth at childcare facilities.

Supervised classification and circuit parameter analysis of electrical bioimpedance spectroscopy data of water stress in tomato plants

Drought poses a significant challenge by inducing water stress in crops, urgently calling for effective monitoring and early intervention. In this work, we conducted a comprehensive 38-day investigation of the bioimpedance of water stressed tomato stems under controlled environmental conditions. A total of 8000 measurements were meticulously collected across a frequency spectrum spanning from 100 Hz to 10 MHz. The collected data was categorized into control, early stress, and late stress groups, corresponding to distinct phases of water stress treatment. To analyze the data, we employed established equivalent circuit models, including Cole, Randles, and double Cole. Subsequently, we evaluated the performance of eight machine learning algorithms widely-used in predicting the water stress stages of the plants. Remarkably, the Cole model, in conjunction with a multi-layer perceptron (MLP) algorithm, demonstrated robust performance, achieving an impressive F1 score of 0.89. In fact, in the control group, 378 out of 388 instances were accurately identified. However, misclassifications were observed in the early and late stress groups, with 31 out of 179 and 14 out of 208 instances mislabeled, respectively. Furthermore, we scrutinized the Cole model’s circuit parameters over time, providing insights aligned with the plant physiological behavior documented in the literature. Our findings suggest that MLP models trained on stem bioimpedance data hold promise as a valuable technique for estimating water stress in tomato plants, offering an essential tool for proactive management by farmers.

Ammonia nitrogen stress induces dysbiosis of the intestinal bacterial community and facilitates the enrichment of pathogenic bacteria in intestines of shrimp

Environmental stress can disrupt the intestinal microbiota of aquatic animals, thereby impacting their health status. In this study, we aimed to elucidate the dynamic changes in the bacterial community within shrimp intestines under short-term ammonia nitrogen stress and investigate the subsequent ecological risks associated with it. Our findings revealed a significant reduction in the Chao1 diversity index within shrimp intestines of the ammonia nitrogen stress group compared to the Control group. Furthermore, distinct disparities in the bacterial community structures were observed between the two groups at 72 h and 120 h post-stress. Additionally, ammonia nitrogen stress significantly altered the abundances of specific bacterial taxa within shrimp intestines. Specifically, the abundance of Bacillus subtilis increased while that of Lactococcus garvieae decreased in the intestine under stress at 72 h. Additionally, Roseivivax jejudonensis exhibited an increase, whereas uncultured_o_Saccharimonadales and Hyphomicrobium sp. showed a decrease at 120 h. Notably, opportunistic pathogens such as Vibrio parahaemolyticus experienced a significant increase at 72 h post-stress, potentially due to a substantial contribution from stochastic processes in shaping the assembly of the intestinal community. Additionally, the intestinal bacterial community of shrimp displayed a noticeable decrease in complexity of bacterial co-association networks under stress conditions. Thus, short-term exposure to ammonia nitrogen disrupts the integrity of shrimp's intestinal community, indicating potential ecological risks within their microhabitat. Confirmatively, we conducted the immersion challenge experiment of V. parahaemolyticus on shrimp post community disturbance under stress, and observed a significantly higher copy numbers of V. parahaemolyticus in host intestines of stressed compared to control shrimp. These findings can provide novel insights into the interactions among ammonia nitrogen stress, intestinal microbiota and host health of aquatic animals, and guide the practices for shrimp healthy culture.

Effects of Heat-Induced Oxidative Stress and Astaxanthin on the NF-kB, NFE2L2 and PPARα Transcription Factors and Cytoprotective Capacity in the Thymus of Broilers.

The thymus, a central lymphoid organ in animals, serves as the site for T cell development, differentiation and maturation, vital to adaptive immunity. The thymus is critical for maintaining tissue homeostasis to protect against tumors and tissue damage. An overactive or prolonged immune response can lead to oxidative stress from increased production of reactive oxygen species. Heat stress induces oxidative stress and overwhelms the natural antioxidant defense mechanisms. This study's objectives were to investigate the protective properties of astaxanthin against heat-induced oxidative stress and apoptosis in the chicken thymus, by comparing the growth performance and gene signaling pathways among three groups: thermal neutral, heat stress, and heat stress with astaxanthin. The thermal neutral temperature was 21-22 °C, and the heat stress temperature was 32-35 °C. Both heat stress groups experienced reduced growth performance, while the astaxanthin-treated group showed a slightly lesser decline. The inflammatory response and antioxidant defense system were activated by the upregulation of the NF-kB, NFE2L2, PPARα, cytoprotective capacity, and apoptotic gene pathways during heat stress compared to the thermal neutral group. However, expression levels showed no significant differences between the thermal neutral and heat stress with antioxidant groups, suggesting that astaxanthin may mitigate inflammation and oxidative stress damage.

The more stress, the more accurate memory? The influence of stress on retrieval-enhanced suggestibility effect

ABSTRACT After the occurrence of criminal events, eyewitnesses are often repeatedly interviewed about the crime, which makes them more vulnerable to memory distortion caused by misleading information. This phenomenon is known as the retrieval-enhanced suggestibility (RES) effect. It has been acknowledged that stressful experiences could affect an individual’s memory processes. Less clear is the exact nature of these stress effects on RES effect. The current study explored the influence of stress, measured by the Trier Social Stress Test, on the RES effect, measured by the RES effect paradigm. Results showed that the incorrect rate of the stress group was lower than that of the no-stress group, indicating that the RES effect was weakened for the participants in the stressful state. The results of the study proved that participants in the stress group were less likely to be misled by misinformation, and provided evidence for the role of stress on memory processes.

The impact of stress testing to guide PCI in patients with chronic coronary disease

BackgroundGuidelines and international appropriate use criteria increasingly endorse non-invasive stress testing to evaluate patients with suspected chronic coronary disease (CCD). We sought to review the real-world utilisation of non-invasive stress testing and investigate whether their use prior to PCI associates with outcomes in patients with CCD. MethodsConsecutive patients from a multicentre registry who underwent PCI for CCD between 2006 and 2018 were included. Clinical characteristics and outcomes were stratified according to whether stress testing was performed prior to PCI (stress vs no-stress groups). The primary outcome was 3-year all-cause mortality. ResultsAmong the 8251 patients included, 4970 (60.2 %) underwent pre-PCI stress testing and this proportion increased over time (p-for-trend<0.001). The stress group had a lower prevalence of prior revascularization, myocardial infarction, or heart failure, and a lower incidence of triple vessel disease, in stent re-stenosis, and ACC/AHA class B2/C lesions (all p < 0.001). When comparing post-procedural outcomes, the stress group had lower rates of arrhythmia (1.5 % vs 2.6 %, p = 0.001), new heart failure (0.2 % vs 0.8 %, p = 0.001), renal impairment, and a shorter length of stay (1.6 vs 2.1 days, p < 0.001). Mortality at 3-years was lower in those undergoing PCI following stress testing (5.8 % vs 8.8 %, p < 0.001). After adjusting for key clinical variables, stress guided revascularization was associated with a significantly lower risk of 3-year mortality (adjusted Hazard Ratio 0.77, 95 % CI 0.64–0.92). ConclusionsIn patients with CCD, PCI guided by non-invasive stress testing is increasingly utilized and associated with improved survival. Further studies are necessary to investigate whether this results from differences in patient characteristics, optimized patient selection, or refined choice of target vessel.

High fat diet consumption and social instability stress impair stress adaptation and maternal care in C57Bl/6 dams

Poor maternal diet and psychosocial stress represent two environmental factors that can significantly impact maternal health during pregnancy. While various mouse models have been developed to study the relationship between maternal and offspring health and behaviour, few incorporate multiple sources of stress that mirror the complexity of human experiences. Maternal high-fat diet (HF) models in rodents are well-established, whereas use of psychosocial stress interventions in female mice are still emerging. The social instability stress (SIS) paradigm, serves as a chronic and unpredictable form of social stress. To evaluate the combined effects of a poor maternal diet and intermittent social stress on maternal health and behaviour, we developed a novel maternal stress model using adult female C57Bl/6 mice. We observed that all HF+ mice demonstrated rapid weight gain, elevated fasting blood glucose levels and impaired glucose tolerance independent of the presence (+) or absence (-) of SIS. Behavioural testing output revealed anxiety-like behaviours remained similar across all groups prior to pregnancy. However, integrated anxiety z-scores revealed a mixed anxious profile amongst HF+/SIS+ females prior to pregnancy. HF+/SIS+ females also did not show reduced plasma ACTH and corticosterone levels that were observed in our other HF+ and HF- stress groups after SIS exposure. Further, HF+/SIS+ females demonstrated significant postpartum maternal neglect, resulting in fewer numbers of live offspring. These findings suggest that prolonged maternal HF diet consumption, coupled with previous exposure to SIS, places a significant burden on the maternal stress response system, resulting in reduced parental investment and negative postpartum behaviour towards offspring.

Effects of prenatal stress on reproductive function of male offspring through the KISS1 system.

Prenatal stress can lead to the programming of the neuroendocrine system in male offspring, disrupting the hypothalamic testicular axis and adversely affecting the reproductive health of male offspring. This study aimed to determine the long-term effects of prenatal stress on the KISS1 system in male offspring and the effects on reproductive function in male offspring. Sixteen pregnant females were divided into a prenatal control group (PC, n = 8) and a prenatal stress group (PS, n = 8). The PS group was modeled with chronic unpredictable mild stress (CUMS) from day 1 of gestation to full-term delivery. Differences between the two groups in various maternal parameters, including glucocorticoid secretion, litter size, and the effects of male offspring birth weight, the KISS1 system, and reproductive function, were determined. Male offspring of PS dams had lower birth weights compared to prenatal controls.KISS1 gene expression is reduced at birth and in adult PS offspring, and its receptor KISS1-R protein is similarly reduced in PS offspring at birth and adulthood. In adulthood, PS male offspring show significantly reduced sex hormone production, altered testicular morphology, reduced maturation of their supporting cells, and decreased expression of connexin 43 (CX43), leading to an altered sperm microenvironment and reduced sperm quality. In conclusion, prenatal stress leads to adverse changes in the KISS1 system in male offspring and decreased reproductive function.

Effects of Repeated Administration of Rauwolfia Serpentina on Stress-Induced Anorexia and Leptin Levels: Relationship With Adaptation to Stress

Background: Stress is a major contributor to various health issues, including depression, anorexia nervosa, diabetes, and obesity. Rauwolfia serpentina, a traditional medicinal plant, has shown potential in alleviating stress-induced effects due to its influence on serotonin neurotransmission and its anxiolytic properties. Objective: This study aimed to investigate the effects of repeated administration of Rauwolfia serpentina on stress-induced anorexia and leptin levels, and its relationship with adaptation to stress in rats. Methods: Male albino Wistar rats were divided into four groups: DMSO unstressed, DMSO stressed, Rauwolfia serpentina unstressed, and Rauwolfia serpentina stressed. The stressed groups were subjected to two hours of immobilization daily for five days, followed by oral administration of Rauwolfia serpentina at 10 mg/kg. Behavioral assessments included the open field and light-dark transition tests. Body weight, food intake, and plasma levels of glucose, leptin, and corticosterone were measured. Data were analyzed using ANOVA with post-hoc Newman-Keuls test, and significance was set at p&lt;0.05. Results: Rauwolfia serpentina significantly improved body weight maintenance (98.9 ± 1.3% vs. 99.5 ± 1.7%) and increased food intake (16.3 ± 0.6 g vs. 16.5 ± 0.5 g) in stressed rats. It also reduced anxiety-like behaviors and lowered corticosterone levels (15.9 ± 1.6 ng/mL vs. 18.4 ± 1.7 ng/mL) in stressed groups (p&lt;0.05). Conclusion: Rauwolfia serpentina effectively alleviates stress-induced anorexigenic and anxiogenic effects, suggesting its potential as a therapeutic agent for managing stress-related disorders.

Effects of ammonia nitrogen stress on the physiological, biochemical, and metabolic levels of the gill tissue of juvenile four-finger threadfin (Eleutheronema tetradactylum)

In this study, the impact of ammonia nitrogen stress on juvenile four-finger threadfin in pond culture was examined. The 96-hour median lethal concentration (LC50-96h) and safe concentration of ammonia nitrogen were assessed in juveniles with a body weight of 7.4 ± 0.6 g using ecotoxicological methods. The study design included a stress group exposed to LC50-96h levels of ammonia nitrogen and a control group without ammonia nitrogen exposure. To examine the physiological, biochemical, and metabolic effects of ammonia nitrogen on gill tissue, gill tissue samples were collected after 12, 24, 48, and 96 h of stress, with a resumption of treatment after 48 h. Compared to the control group, ammonia nitrogen adversely affected juvenile four-finger threadfin, with LC50-96h and safe concentration values of 20.70 mg/L and 2.07 mg/L, respectively. Exposure to ammonia nitrogen resulted in substantial gill damage, including fusion of lamellae, epithelial cell loss, and proliferation of chlorine-secreting cells. This tissue damage persisted even after a 48-h recovery period. Ammonia nitrogen stress triggered an increase in antioxidant enzyme activity (superoxide dismutase, catalase, and glutathione peroxidase) and malondialdehyde levels in gills, indicating oxidative stress from 12 h onwards. Although enzyme activity decreased over time, oxidative stress persisted even after recovery, suggesting an ongoing need for antioxidant defense. Metabolomics analysis showed significant alterations in 423 metabolites under ammonia nitrogen stress. Key metabolites such as L-arginine, taurine, 20-hydroxyarachidonic acid, 11,12-dihydroxy-5Z, 8Z, and 14Z eicosotrienic acid followed an increasing trend; uridine, adenosine, L-glutathione, and thymidine 5′-triphosphate followed a decreasing trend. These changes reflect metabolic adaptations to stress. In enriched metabolic pathways, the main differential pathways are membrane transport, lipid metabolism, and amino acid metabolism. After 48 h, significant differences were observed in 396 metabolites compared to the control group. Notably, L-arginine, choline, and L-histidine increased, while linoleic acid, adenosine, and glutathione decreased. Amino acid and lipid metabolism pathways were key affected pathways. Under ammonia nitrogen stress, juvenile four-finger threadfin increased the synthesis of unsaturated and saturated fatty acids to cope with low temperatures and bolster immune function by consuming spermidine. This adaptation helps to clear peroxides generated during fatty acid synthesis, thereby protecting cells from oxidative damage. This study provides insights for pond aquaculture and breeding of ammonia nitrogen-tolerant fish strains.

Understanding sex differences in extinction retention: Pre-extinction stress and sex hormone status

Difficulties in fear regulation can sometimes result in maladaptive fear responses. To better understand how to improve fear regulation, it is important to determine how known factors, such as sex hormone status and stress, might interact to influence fear memory. Research has shown that women with high estradiol levels (mid-cycle) and men exhibit better extinction retention compared to women with low estradiol levels (women in the early follicular cycle or using oral contraceptives). Stress has also been demonstrated to affect both the learning and retention of extinction. Despite documented interactions between stress and sex hormones, their combined effects have not been thoroughly studied. This study aims to examine the impact of stress as a function of sex hormone status on extinction learning and retention.A total of 168 non-clinical participants were studied, including men (n = 46), women using oral contraceptives (n = 38), women in the early follicular phase (n = 40), and women in mid-cycle (n = 44). On Day 1, fear acquisition training was performed. On day 2, prior to extinction training, half of the participants were exposed to a psychosocial stressor, while the other half performed a non-stressful control task. On day 3, extinction retention was tested. Fear was quantified using skin conductance responses, while stress hormones were quantified through saliva samples.Exposure to stress prior to extinction training did not affect extinction learning, regardless of sex hormone status. In contrast, pre-extinction stress exposure had different effects on extinction retention depending on hormone status. Stressed men showed impairment in extinction retention compared to controls, while the experimental condition had no effect on naturally cycling women. Regardless of stress exposure, early follicular women exhibited a deficit in fear regulation, while mid-cycle women showed effective fear regulation. Among women using oral contraceptives, the stress group demonstrated better extinction retention compared to the control group.These results demonstrate the importance of considering sex hormone status and stress exposure during extinction learning, as both components may modulate extinction retention. These results could help identifying hormonal conditions that may enhance the effectiveness of extinction-based psychological therapies used in the treatment of fear-related disorders.

Nitrite and sulfide stress affects physiological and metabolic functions of gills in crab Eriocheir sinensis

Nitrite and sulfide are environmental factors that affect crabs survival and immunity. Gills are important respiratory and immune organs of Chinese mitten crabs Eriocheir sinensis, and both nitrite and sulfide can affect the physiological function stability of gill tissues. The present study investigated the acute toxicity of 10 mg/L nitrite and 5 mg/L sulfide, single and in combination, on the morphological, immune, osmoregulatory, and metabolic functions of the gill tissues of Chinese mitten crab. Both single and combined stressors were observed to disrupt the structural integrity of gill tissues. Oxidative stress-related indicators, including MDA, H2O2, and ·O2− content, exhibited an increase in all stress groups. The activities of antioxidant enzymes such as CAT and SOD and the expression levels of antioxidant genes fluctuated to varying degrees in all stress groups. The expression levels of osmotic regulating genes such as aqp, vatp, and nhe increased, as did the expression levels of lipid metabolism-related genes such as pparγ, rxr, fabp1, gyk, and dgat1. Furthermore, nitrite and sulfide stress affected the functions of metabolic pathways related to arachidonic acid, linoleic acid, D-amino acids, phenylalanine, and other substances in Chinese mitten crabs gill tissues. Additionally, the study identified 18 potential biomarkers related to stress responses. The nitrite and sulfide stressors disrupt the structure of crab gill tissues, cause osmoregulation disturbances, immune dysfunction, induce amino acid and lipid metabolic changes in gill tissue.