Dip2a regulates stress susceptibility in the basolateral amygdala

Dysregulation of neurotransmitter metabolism in the central nervous system contributes to mood disorders such as depression, anxiety, and post–traumatic stress disorder. Monoamines and amino acids are important types of neurotransmitters. Our previous results have shown that disco-interacting protein 2 homolog A(Dip2a) knockout mice exhibit brain development disorders and abnormal amino acid metabolism in serum. This suggests that DIP2A is involved in the metabolism of amino acid–associated neurotransmitters. Therefore, we performed targeted neurotransmitter metabolomics analysis and found that Dip2a deficiency caused abnormal metabolism of tryptophan and thyroxine in the basolateral amygdala and medial prefrontal cortex. In addition, acute restraint stress induced a decrease in 5-hydroxytryptamine in the basolateral amygdala. Additionally, Dip2a was abundantly expressed in excitatory neurons of the basolateral amygdala, and deletion of Dip2a in these neurons resulted in hopelessness-like behavior in the tail suspension test. Altogether, these findings demonstrate that DIP2A in the basolateral amygdala may be involved in the regulation of stress susceptibility. This provides critical evidence implicating a role of DIP2A in affective disorders.

Correlation between changes of central neurotransmitter expression and stress response in mice A restraint time-course analysis

BACKGROUND： Changes in central neurotransmitter expression play an important role in stress response and forms the basis for stress-induced psychological and behavior changes. OBJECTIVE： To observe the effects of different restraint stress intervals on brain monoamine neurotransmitter expression, and to investigate the correlation between stress response and neurotransmitter levels. DESIGN： Randomized controlled animal study. SETTING： Chinese Herb and Natural Medicine Institute, Pharmacological College of Jinan University. MATERIALS： Sixty 7-week-old male Kunming mice of clean grade, weighing 18-22 g, were provided by the Guangdong Medical Experimental Animal Center. The experiment was in accordance with animal ethics standards. METHODS： This study was performed at the Chinese Herb and Natural Medicine Institute, Pharmacological College of Jinan University from June 2006 to May 2007. A restraint device for mice was constructed according to published reports. Experimental mice were adaptively fed for 1 week and randomly divided into a control group （n = 10） and an experimental group （n = 50）. The experimental group was sub-divided into five restraint intervals： 4, 8, 12, 18, and 24 hours （n = 10 mice per time point）. Animals in the experimental group were not allowed to eat or drink during the restraint period. Mice in the control group did not undergo restraint, but had identical food and water restrictions. Cerebral cortex and hypothalamus were separated based on observational times and protein was extracted using perchloric acid. Central monoamine neurotransmitter levels were measured using high performance liquid chromatography with electrochemical detection. MAIN OUTCOME MEASURES： Levels of norepinephrine （NE）, dopamine hydrochloride （DA）, 3,4-dihydroxyphen-ylanetic acid （DOPAC）, homovanillic acid （HVA）, 5-hydroxytryptamine （5-HT）, and 5-hydroxyindoleac-etic acid （5-HIAA） in the cerebral cortex and hypothalamus of mice. RESULTS： Sixty mice were included in the final analysis. ① NE levels in the cerebral cortex, hypothalamus, and plasma： four hours after restraint, NE levels in the cerebral cortex and hypothalamus ere significantly lower than control levels （P 〈 0.05）. After 12 hours of restraint, NE levels in the experimental group were significantly higher than in the control group （P 〈 0.05）. At 18 hours of restraint, there was no significant difference in NE levels in the cerebral cortex between the experimental group and the control group （P 〉 0.05）. In addition, NE levels in the plasma gradually increased with longer restraint time, which was significant between experimental groups and the control group （P 〈 0.05-0.01）. ② Levels of DA, DOPAC, and HVA in the cerebral cortex and hypothalamus： there were significant differences in DA levels in the cerebral cortex and hypothalamus after 18 and 24 hours of restraint compared to control animals （P 〈 0.05）. DOPAC and HVA levels in the cerebral cortex were enhanced with longer restraint time, and there was significant difference in all restraint groups compared to control levels （P 〈 0.01）, except for DOPAC levels after 4 hours of restraint. Moreover, DOPAC and HVA levels in the hypothalamus were enhanced with increasing restraint time. Levels of 5-HT and 5-HIAA in the cerebral cortex and hypothalamus： after short restraint periods and in the control group, 5-HT was not detectable. However, it was quantitatively detected at 12 hours after restraint. The 5-HT levels in the cerebral cortex and hypothalamus reached peak levels at 12 and 18 hours of restraint. 5-HIAA levels in the cerebral cortex and hypothalamus showed a similar tendency to increase with restraint time- 5-HIAA levels at 4-8 hours after restraint were significantly higher than control levels （P 〈 0.01）. The 5-HIAA levels decreased at 12 hours after restraint, but remained significantly higher than the control group （P 〈 0.05）. CONCLUSION： Restraint stress affects the hypothalamic-pituitary-adrenal （HPA） axis and causes changes in monoamine neurotransmitters in brain tissues, which suggests stress status could be improved by adjusting HPA axis and neurotransmitter levels in the brain.

Effect of restraint stress on depression-like behaviors in rats after transient focal cerebral ischemic injury

BACKGROUND： Restraint stress is a typical psychophysiological stressor. Simulating the early passion and difficulty in walking of patients after attack of stroke meets onset features.OBJECTIVE： To evaluate the effect of restraint stress on depression-like behaviors in rats after transient focal cerebral ischemic injury, and to investigate the feasibility for its being as modeling method of depression model after stroke.DESIGN： A randomized controlled animal experiment.SETTING： Department of Clinical Medicine, Faculty of Aerospace Medicine of the Fourth Military Medical University of Chinese PLA.MATERIALS： Forty-eight male Sprague-Dawley rats, weighing 240 - 270 g, provided by the Experimental Animal Center of the Fourth Military Medical University of Chinese PLA were used in the current study.METHODS： The experiments were carried out in the Faculty of Aerospace Medicine of the Fourth Military Medical University of Chinese PLA between August 2005 and August 2006. ①Experiment intervention： The rats were randomized into middle cerebral artery occlusion-reperfusion （MCAO） ＋stress group, simple MCAO group, sham-operation ＋ stress group and simple sham-operation group, with 12 rats in each group.Rats in the first two groups were developed into cerebral ischemia/reperfusion models by suture-occluded method. Rats in the MCAO＋stress group were modeled and restraint stress scheme was performed. At week 5 after modeling, the rats were placed in self-made restraining tubes, 2 hours/time, once a day, for 2 successive weeks. The common carotid artery, external and internal carotid arteries of rats in the latter two groups were exposed. The stress way of sham-operation＋ stress group was the same as that of MCAO＋ stress group. ②The neurological status grading and motor performance evaluation （screen test, rota-rod test and balance beam test） were conducted in rats with simple sham-operation group and MCAO group before, 1st and 28^th days after modeling. Depression-like behavior test was performed in the rats of each group by sucrose preference test and open field test at the end of the experiment.MAIN OUTCOME MEASURES： Changes of depression-like behaviors of rats in each group.RESULTS： Forty-eight rats were involved in the experiment. Two rats with meningeal irritation sign were excluded from simple MCAO group, and one rat in the MCAO＋stress group died of some unclear causes during the experiments. The other 45 rats entered the stage of finial analysis. ① Depression-like behavior assessment results： The rats in the MCAO＋ stress group had a significantly decreased preference for sucrose solution, crossing and rearing scores, and increased immobility duration after the 14-day restraint stress,compared with those in other three groups （all P〈0.05）. ②The neurological status grading and motor performance evaluation： There were significant differences in the two indexes of rats in the simple MCAO group before, 1^st and 28^th days after modeling （P〈0.01）, while there was no significant difference before and 28^th days after modeling （P〉0.05）. There were no significant changes in sham-operation group at each time point （P〉0.05）.CONCLUSION： After being exerted restraint stress, the rats with transient focal ischemic injury may show obvious depression-like behaviors. Therefore, restraint stress can be used as a novel animal modeling method for further studying biological mechanism in central nervous system of post-stroke depression animals.

Nervous mechanisms of restraint water-immersion stress-induced gastric mucosal lesion

Stress-induced gastric mucosal lesion(SGML)is one of the most common visceral complications after trauma.Exploring the nervous mechanisms of SGML has become a research hotspot.Restraint water-immersion stress(RWIS)can induce GML and has been widely used to elucidate the nervous mechanisms of SGML.It is believed that RWIS-induced GML is mainly caused by the enhanced activity of vagal parasympathetic nerves.Many central nuclei,such as the dorsal motor nucleus of the vagus,nucleus of the solitary tract,supraoptic nucleus and paraventricular nucleus of the hypothalamus,mediodorsal nucleus of the thalamus,central nucleus of the amygdala and medial prefrontal cortex,are involved in the formation of SGML in varying degrees.Neurotransmitters/neuromodulators,such as nitric oxide,hydrogen sulfide,vasoactive intestinal peptide,calcitonin gene-related peptide,substance P,enkephalin,5-hydroxytryptamine,acetylcholine,catecholamine,glutamate,γ-aminobutyric acid,oxytocin and arginine vasopressin,can participate in the regulation of stress.However,inconsistent and even contradictory results have been obtained regarding the actual roles of each nucleus in the nervous mechanism of RWIS-induced GML,such as the involvement of different nuclei with the time of RWIS,the different levels of involvement of the sub-regions of the same nucleus,and the diverse signalling molecules,remain to be further elucidated.

Hydrogen sulfide attenuates gastric mucosal injury induced by restraint water-immersion stress via activation of KATPchannel and NF-κB dependent pathway

AIMTo explore the effect of hydrogen sulfide (H2S) on restraint water-immersion stress (RWIS)-induced gastric lesions in rats and the influence of adenosine triphosphate (ATP)-sensitive potassium (KATP) channels and nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB) pathway on such an effect.METHODSMale Wistar rats were randomly divided into a control group, a physiological saline (PS) group, a sodium hydrosulfide (NaHS) group, a glibenclamide (Gl) group, Gl plus NaHS group, a pyrrolidine dithiocarbamate (PDTC) group, and a PDTC plus NaHS group. Gastric mucosal injury was induced by RWIS for 3 h in rats, and gastric mucosal damage was analyzed after that. The PS, NaHS (100 μmol/kg body weight), Gl (100 μmol/kg body weight), Gl (100 μmol/kg or 150 μmol/kg body weight) plus NaHS (100 μmol/kg body weight), PDTC (100 μmol/kg body weight), and PDTC (100 μmol/kg body weight) plus NaHS (100 μmol/kg body weight) were respectively injected intravenously before RWIS.RESULTSRWIS induced serious gastric lesions in the rats in the PS pretreatment group. The pretreatment of NaHS (a H2S donor) significantly reduced the damage induced by RWIS. The gastric protective effect of the NaHS during RWIS was attenuated by PDTC, an NF-κB inhibitor, and also by glibenclamide, an ATP-sensitive potassium channel blocker, in a dose-dependent manner.CONCLUSIONThese results suggest that exogenous H2S plays a protective role against RWIS injury in rats, possibly through modulation of KATP channel opening and the NF-κB dependent pathway.

Electroacupuncture pretreatment exhibits antidepressive effects by regulating hippocampal proteomics in rats with chronic restraint stress

The clinical effect of electroacupuncture on depression is widely recognized. However, the signal transduction pathways and target proteins involved remain unclear. In the present study, rat models of chronic restraint stress were used to explore the mechanism by which electroacupuncture alleviates depression. Rats were randomly divided into control, model, and electroacupuncture groups. Chronic restraint stress was induced in the model and electroacupuncture groups by restraining rats for 28 days. In the electroacupuncture group, electroacupuncture pretreatment at Baihui（GV20） and Yintang（GV29） acupoints was performed daily（1 m A, 2 Hz, discontinuous wave, 20 minutes） prior to restraint for 28 days. Open field tests and body weight measurements were carried out to evaluate the depressive symptoms at specific time points. On day 28, the crossing number, rearing number, and body weights of the model group were significantly lower than those in the control group. Behavior test results indicated that rat models of depressive-like symptoms were successfully established by chronic restraint stress combined with solitary raising. On day 28, an isobaric tag for a relative and absolute quantitation-based quantitative proteomic approach was performed to identify differentially expressed proteins in hippocampal samples obtained from the model and electroacupuncture groups. The potential function of these differential proteins was predicted through the use of the Cluster of Orthologous Groups of proteins（COG） database. Twenty-seven differential proteins（uncharacteristic proteins expected） were selected from the model and electroacupuncture groups. In addition to unknown protein functions, COG are mainly concentrated in general prediction function, mechanism of signal transduction, amino acid transport and metabolism groups. This suggests that electroacupuncture improved depressive-like symptoms by regulating differential proteins, and most of these related proteins exist in nerve cells.

Antidepressant-like Effects of Ginsenoside Rg1 in the Chronic Restraint Stress-induced Rat Model

Objective To investigate the ameliorating effect of ginsenoside Rg1 on the depression-like behaviors induced by chronic restraint stress(CRS)in rats and the underlying mechanisms.Methods Forty male Wistar rats were divided into 4 groups according to their baseline sucrose preference:control group,model group,and Rg1-treated groups(5 and 10 mg/kg).Except for control group,the groups were exposed to CRS(6 h/day)for 28 days.All drugs were intraperitoneally administered once daily to CRS rats after restraint stress for 14 days.The behavioral tests were carried out via the open field test(OFT),sucrose preference test(SPT),forced swim test(FST),and the Morris water maze(MWM)4 weeks following CRS induction.The levels of serum corticosterone(CORT)and the activities of the antioxidant defense biomarkers(SOD,MDA and GSH-x)in the prefrontal cortex(PFC)were analyzed using commercial ELISA kits.The levels of the neurotransmitter(5-HT,5-HIAA,Ach,NE,GABA and Glu)in the PFC were measured by ultra-performance liquid chromatography tandem mass spectrometry.The protein expression of BDNF,Trkb,Bax and Bcl-2 in the PFC was detected by western blotting.Results Owing to increased sucrose consumption in the SPT,decreased immobility time in the FST,and the improved cognitive performance in MWM,chronic treatment with Ginsenoside Rg1 was found to significantly attenuate depressionlike behaviors(anhedonia,behavioral despair and poor spatial memory)in rats.Moreover,CRS exposure caused evident alterations in the levels of the neurotransmitters(5-HT,5-HIAA,Ach,GABA and Glu)and the activities of the antioxidant defense biomarkers(SOD,MDA and GSH-x)in the PFC and the levels of corticosterone in serum.However,Ginsenoside Rg1 treatment could restore these levels to normal values.Additionally,Ginsenoside Rg1 treatment significantly reverted the decreased expression of BDNF,Trkb and Bcl-2 and the increased expression of Bax in the PFC of CRS rats.Conclusions Ginsenoside Rg1 could attenuate the CRS-induced depression-like behaviors,in part,by regulating neurotransmitter levels and HPA function,antagonizing oxidative stress and apoptosis,and restoring BDNF-TrkB signaling in PFC.Altogether,our results provide a novel basis regarding the potential therapeutic effects of Rg1 on depression.

Interleukin-18 levels in the hippocampus and behavior of adult rat offspring exposed to prenatal restraint stress during early and late pregnancy

Exposure to maternal stress during prenatal life is associated with an increased risk of neuropsychiatric disorders, such as depression and anxiety, in offspring. It has also been increasingly observed that prenatal stress alters the phenotype of offspring via immunological mechanisms and that immunological dysfunction, such as elevated interleukin-18 levels, has been reported in cultures of microglia. Prenatal restraint stress(PRS) in rats permits direct experimental investigation of the link between prenatal stress and adverse outcomes. However, the majority of studies have focused on the consequences of PRS delivered in the second half of pregnancy, while the effects of early prenatal stress have rarely been examined. Therefore, pregnant rats were subjected to PRS during early/middle and late gestation(days 8–14 and 15–21, respectively). PRS comprised restraint in a round plastic transparent cylinder under bright light(6500 lx) three times per day for 45 minutes. Differences in interleukin-18 expression in the hippocampus and in behavior were compared between offspring rats and control rats on postnatal day 75. We found that adult male offspring exposed to PRS during their late prenatal periods had higher levels of anxiety-related behavior and depression than control rats, and both male and female offspring exhibited higher levels of depression-related behavior, impaired recognition memory and diminished exploration of novel objects. Moreover, an elevated level of interleukin-18 was observed in the dorsal and ventral hippocampus of male and female early-and late-PRS offspring rats. The results indicate that PRS can cause anxiety and depression-related behaviors in adult offspring and affect the expression of interleukin-18 in the hippocampus. Thus, behavior and the molecular biology of the brain are affected by the timing of PRS exposure and the sex of the offspring. All experiments were approved by the Animal Experimentation Ethics Committee at Kunming Medical University, China(approval No. KMMU2019074) in January 2019.

A Case of Multiple Hemorrhagic Gastric Ulcers Developed via a Mechanism Similar to Water-Immersion Restraint Stress

In rats, water-immersion restraint stress is a model of experimental ulceration. We encountered a case in which multiple hemorrhagic gastric ulcers formed in the stomach in a setting similar to water-immersion restraint stress. The patient was a 54-year-old man who was found wet on a riverbank and transported by ambulance. Because of hypothermia and renal failure, hemodialysis was performed. Tarry stools were noted and endoscopy revealed the presence of multiple hemorrhagic gastric ulcers;thus, hemostasis was performed end oscopically. During the course, pseudo membranous colitis also developed and was ameliorated with vancomycin. Further, the renal failure and gastric ulcers improved, and the patient was discharged from hospital 25 days later. The reason why he survived more than 2 weeks was the hot summer season and he was not soaked in the river water throughout.

Inhibition of T Cell and Stimulation of B Cell Proliferation by Restraint Stress Mediated by Voltage-Gated Potassium Channel 1.3 Expression

Our previous study has showed that restraint stress inhibits T cell proliferation. Kv1.3 plays a key role in the lymphocyte activation process. Here, we investigate the effects of restraint stress on murine splenic T and B cell proliferation and the role of Kv1.3 in the process. 3H-TdR incorporation is used to determine changes in splenocyte proliferation stimulated by Con A or LPS between control and restraint stress groups. The data shows that restraint stress inhibits T cell and enhanced B cell proliferation. Data from RT-PCR and Western blotting shows that Kv1.3 gene and protein levels are downregulated in T cells and upregulated in B cells in stressed mice. To examine a possible cause-and-effect relationship between Kv1.3 and stress-affected lymphocyte proliferation, we employ various Kv1.3 specific blockers (quinine, 4-AP and TEA) to determine K+ channel function under restraint stress. The data shows that Kv1.3 blockers reverse the decreased T cell proliferation and increase B cell proliferation induced by restraint stress. These results indicate that Kv1.3 mediates restraint stress-induced modulation of T/B lymphocyte proliferation.

Retigabine alleviates chronic restraint stress -induced memory retrieval impairment in male mice

Aim To investigate whether Kv7 channels opener retigabine could alleviate memory impairment induced by chronic restraint stress （CRS） and the underlying neuroprotective mechanisms. Methods Adult male Kunming （KM） mice, weighing 20 - 25 g, were restrained in well-ventilated Plexiglass tubes for 6 h daily beginning from 10 ： 00 to 16 ： 00 for 21 consecutive days. Mice were injected with retigabine （ 10 mg · kg^-1） or vehicle （ 10% DM- SO） 30 rain before restraint stress for 21 days. After stressor cessation, the spatial learning and memory was deter- mined by Morris water maze test, the levels of p-Akt, p-GSK-3β and p-Erkl/2 of hippocampal tissues were exam- ined by western blot. Results Compared with control group, CRS mice exhibited significantly longer escape laten- cies on day 2, 3 and 4 （P 〈 0.05, P 〈 0. 01, P 〈 0.01 ） respectively, but retigabine （ 10 mg · kg^-1） treatment had no influences on escape latencies compared with CRS group. During the probe test, CRS mice spent significant less time in target quadrant than control group （P 〈 0.01 ）. Compared with CRS group, retigabine （ 10 mg · kg^-1 ） treatment increased the time spent in target quadrant （P 〈 0.01 ）. Additionally, the swimming speed showed no significant differences among groups. Western blot results showed that the levels of p-Akt, p-GSK-3β and p-Erkl/ 2 in the hippocampus of CRS mice were significantly decreased compared with control group. Compared with CRS group, retigabine （ 10 mg· kg^-1） treatment strongly prevented the reduction of p-Akt and p-GSK-3 β （P 〈 0.01 ）, but had no effect on the reduction of p-Erkl/2. Conclusion Retigabine protected against CRS-induced spatial memory retrieval impairment partly via activation of Akt/GSK-3β signaling pathway.

Restraint-Induced Expression of Endoplasmic Reticulum Stress-Related Genes in the Mouse Brain

Depression is a significant public health concern but its pathology remains unclear. Previously, increases in an endoplasmic reticulum (ER) stress-related protein were reported in the temporal cortex of subjects with major depressive disorder who had died by suicide. This finding suggests an association between depression and ER stress. The present study was designed to investigate whether acute stress could affect the ER stress response. Mice were immobilized for a period of 6 hr and then expression of ER stress response-related genes was measured by real-time PCR. We also used enzyme-linked immunosorbent assay for concomitant measurement of the plasma corticosterone levels in the mice. The effect of corticosterone on ER stress proteins was further investigated by treating mice with corticosterone for 2 weeks and then measuring ER protein expression by Western blotting. After a 6 hr restraint stress, mRNA levels of ER stress-related genes, such as the 78-kilodalton glucose regulated protein (GRP78), the 94-kilodalton glucose regulated protein (GRP94), and calreticulin, were increased in the cortex, hippocampus, and striatum of mouse brain. Blood plasma corticosterone level was also increased. In the corticosterone-treated mouse model, the expression of GRP78 and GRP94 was significantly increased in the hippocampus. These results suggest that acute stress may affect ER function and that ER stress may be involved in the pathogenesis of restraint stress, including the development of depression.

Chronic restraint stress impairs ischemia-induced neovascularization through DPP-4-dependent pathway

Background and Objective The morbidity of lower extremity atherosclerotic disease(LEAD)has increased year by year.Chronic stress attenuates the ability of angiogenesis and deteriorates the prognosis of LEAD.Chronic stress increases plasma and tissue DPP-4 activities in mice.DPP-4 plays an important role in angiogenesis.Therefore,we hypothesized that chronic stress exerted its cardiovascular effects by increasing DPP-4 activation.We investigated the role of DPP-4/GLP-1 axis in ischemiainduced neovascularization in mice under restraint stress.

Proteomics of the mediodorsal thalamic nucleus of rats with stress-induced gastric ulcer

BACKGROUND Stress-induced gastric ulcer(SGU) is one of the most common visceral complications after trauma. Restraint water-immersion stress(RWIS) can cause serious gastrointestinal dysfunction and has been widely used to study the pathogenesis of SGU to identify medications that can cure the disease. The mediodorsal thalamic nucleus(MD) is the centre integrating visceral and physical activity and contributes to SGU induced by RWIS. Hence, the role of the MD during RWIS needs to be studied.AIM To screen for differentially expressed proteins in the MD of the RWIS rats to further elucidate molecular mechanisms of SGU.METHODS Male Wistar rats were selected randomly and divided into two groups, namely, a control group and an RWIS group. Gastric mucosal lesions of the sacrificed rats were measured using the erosion index and the proteomic profiles of the MD were generated through isobaric tags for relative and absolute quantitation(iTRAQ) coupled with two-dimensional liquid chromatography and tandem mass spectrometry. Additionally, iTRAQ results were verified by Western blot analysis.RESULTS A total of 2853 proteins were identified, and these included 65 dysregulated(31 upregulated and 34 downregulated) proteins(fold change ratio ≥ 1.2). Gene Ontology(GO) analysis showed that most of the upregulated proteins are primarily related to cell division, whereas most of the downregulated proteins are related to neuron morphogenesis and neurotransmitter regulation. Ingenuity Pathway Analysis revealed that the dysregulated proteins are mainly involved in the neurological disease signalling pathways. Furthermore, our results indicated that glycogen synthase kinase-3 beta might be related to the central mechanismthrough which RWIS gives rise to SGU.CONCLUSION Quantitative proteomic analysis elucidated the molecular targets associated with the production of SGU and provides insights into the role of the MD. The underlying molecular mechanisms need to be further dissected.

Enriched environment upregulates growth-associated protein 43 expression in the hippocampus and enhances cognitive abilities in prenatally stressed rat offspring

In our previous study, we reported that prenatal restraint stress could induce cognitive deficits, which correlated with a change in expression of growth-associated protein 43 in the hippocampus. In this study, we investigated the effects of enriched environment on cognitive abilities in prenatally stressed rat offspring, as well as the underlying mechanisms. Reverse transcription-PCR and western blot assay results revealed that growth-associated protein 43 mRNA and protein levels were upregulated on postnatal day 15 in the prenatal restraint stress group. Growth-associated protein 43 expression was significantly lower in the prenatal restraint stress group compared with the negative control and prenatal restraint stress plus enriched environment groups on postnatal days 30 and 50. Morris water maze test demonstrated that cognitive abilities were noticeably increased in rats from the prenatal restraint stress plus enriched environment group on postnatal day 50. These results indicate that enriched environment can improve the spatial learning and memory ability of prenatally stressed offspring by upregulating growth-associated protein 43 expression.

Research on stress-induced apoptosis of natural killer cells and the alteration of their killing activity in mouse liver

AIM:To investigate the stress-induced apoptosis of natural killer(NK)cells and the changes in their killing activity in mouse livers.METHODS:A restraint stress model was established in mice.Flow cytometry was employed to measure the percentage of NK cells and the changes in their absolute number in mouse liver.The cytotoxicity of hepatic and splenic NK cells was assessed against YAC-1 target cells via a 4 h 51Cr-release assay.RESULTS:The restraint stress stimulation induced the apoptosis of NK cells in the liver and the spleen,which decreased the cell number.The number and percentage of NK cells in the spleen decreased.However,the number of NK cells in the liver decreased,whereas the percentage of NK cells was significantly increased.The apoptosis of NK cells increased gradually with prolonged stress time,and the macrophage-1(Mac-1)+NK cells were more susceptible to apoptosis than Mac-1-NK cells.Large numbers of Mac-1-NK cells in the liver,which are more resistant to stress-induced apoptosis,were observed than the Mac-1-NK cells in the spleen.The stress stimulation diminished the killing activity of NK cells in the spleen was significantly decreased,but the retention of numerous Mac-1-NK cells in the liver maintained the killing ability.CONCLUSION:Significant stress-induced apoptosis was observed among Mac-1+NK cells,but not Mac-1-NK cells in the mouse liver.Stress stimulation markedly decreased the killing activity of NK cells in the spleen but remained unchanged in the liver.

Effects of Saccharomyces cerevisiae or boulardii yeasts on acute stress induced intestinal dysmotility

AIM To investigate the capacity of Saccharomyces cerevisiae(S. cerevisiae) and Saccharomyces boulardii(S. boulardii) yeasts to reverse or to treat acute stress-related intestinal dysmotility.METHODS Adult Swiss Webster mice were stressed for 1 h in a wire-mesh restraint to induce symptoms of intestinal dysmotility and were subsequently killed by cervical dislocation. Jejunal and colon tissue were excised and placed within a tissue perfusion bath in which S. cerevisiae, S. boulardii, or their supernatants were administered into the lumen. Video recordings of contractility and gut diameter changes were converted to spatiotemporal maps and the velocity, frequency, and amplitude of propagating contractile clusters(PCC) were measured. Motility pre- and post-treatment was compared between stressed animals and unstressed controls. RESULTS S. boulardii and S. cerevisiae helped to mediate the effects of stress on the small and large intestine. Restraint stress reduced jejunal transit velocity(mm/s)from 2.635 ± 0.316 to 1.644 ± 0.238, P < 0.001 and jejunal transit frequency(Hz) from 0.032 ± 0.008 to 0.016 ± 0.005, P < 0.001. Restraint stress increased colonic transit velocity(mm/s) from 0.864 ± 0.183 to 1.432 ± 0.329, P < 0.001 and frequency to a lesser degree. Luminal application of S. boulardii helped to restore jejunal and colonic velocity towards the unstressed controls; 1.833 ± 0.688 to 2.627 ± 0.664, P < 0.001 and 1.516 ± 0.263 to 1.036 ± 0.21, P < 0.001, respectively. S. cerevisiae also had therapeutic effects on the stressed gut, but was most apparent in the jejunum. S. cerevisiae increased PCC velocity in the stressed jejunum from 1.763 ± 0.397 to 2.017 ± 0.48, P = 0.0031 and PCC frequency from 0.016 ± 0.009 to 0.027 ± 0.007, P < 0.001. S. cerevisiae decreased colon PCC velocity from 1.647 ± 0.187 to 1.038 ± 0.222, P < 0.001. Addition of S. boulardii or S. cerevisiae supernatants also helped to restore motility to unstressed values in similar capacity. CONCLUSION There is a potential therapeutic role for S. cerevisiae and S. boulardii yeasts and their supernatants in the treatment of acute stress-related gut dysmotility.

Pretreatment with intestinal trefoil factor alleviates stress-induced gastric mucosal damage via Akt signaling

BACKGROUND Stress-related gastric mucosal damage or ulcer remains an unsolved issue for critically ill patients.Stress ulcer prophylaxis has been part of routine intensive care,but uncertainty and controversy still exist.Co-secreted with mucins,intestinal trefoil factor(ITF)is reported to promote restitution and regeneration of intestinal mucosal epithelium,although the mechanism remains unknown.AIM To elucidate the protective effects of ITF on gastric mucosa and explore the possible mechanisms.METHODS We used a rat model of gastric mucosal damage induced by water immersion restraint stress and lipopolysaccharide-treated human gastric epithelial cell line to investigate the potential effects of ITF on damaged gastric mucosa both in vivo and in vitro.RESULTS ITF promoted the proliferation and migration and inhibited necrosis of gastric mucosal epithelia in vitro.It also preserved the integrity of gastric mucosa by upregulating expressions of occludin and zonula occludens-1.In the rat model,pretreatment with ITF ameliorated the gastric mucosal epithelial damage and facilitated mucosal repair.The protective effects of ITF were confirmed to be exerted via activation of Akt signaling,and the specific inhibitor of Akt signaling LY249002 reversed the protective effects.CONCLUSION ITF might be a promising candidate for prevention and treatment of stressinduced gastric mucosal damage,and further studies should be undertaken to verify its clinical feasibility.

Restraint Induces Sickness Responses Independent of Injection with Epstein-Barr Virus (EBV)-Encoded dUTPase

Most adult humans have been infected by Epstein-Barr virus (EBV), a putative cause of chronic fatigue syndrome, and carry latent EBV. The EBV-encoded dUTPase can induce sickness responses in mice and chronic stress exacerbates this response. Because individuals often adapt to chronic stress, we tested the hypothesis that acute restraint stress would potentiate these sickness responses elicited by EBV-encoded dUTPase. Male CD-1 mice were injected daily for one or three days with either saline or EBV-encoded dUTPase. Additionally, mice from each condition were either restrained for three hours daily or left undisturbed during the light phase when mice are inactive. Restraint decreased weight gain during the one- and three-day experiments. Restraint in saline injected mice increased anxiety-like behavior in the open field during the three-day experiment. There were no behavioral differences during the one-day experiment. Restraint stress had no effect when experienced acutely on one day, but did produce a sickness response after three days of exposure regardless of saline or dUTPase injection. In contrast to the effects of chronic stress and EBV-encoded dUTPase on the sickness response, acute stress did not affect sickness responses in association with EBV-encoded dUTPase. Thus, dUTPase does not appear to provoke the same sickness responses after acute stress as compared to chronic stress.

Consideration of Viscoelasticity in Time Step FEM-Based Restraint Analyses of Hardening Concrete

Concrete structures may suffer considerable restraint stresses during their hardening period. This is caused by several deformation impacts, especially temperature field changings due to hydration heat and volume changes due to autogenous shrinkage. Mainly affected are massive concrete members, but also the application of new concrete types or the erection of outstanding constructions requires further investigations in this context. 3D-FEM analyses of hydration heat induced temperature development in combination with the well known shrinkage give sufficient results for the deformation impact. The according elastic restraint stresses can be determined with consideration of the concrete’s rising elastic modulus and the restraint degree of the system. But due to duration of the heat flow process, the height of restraint stresses is strongly dependent from the viscoelasticity of the concrete. The viscoelastic effects consist of many components constituted by changing material properties influencing themselves. In practice, different simplified approaches are available for considering this in calculations. Their implementation in time step analyses is not generally admitted and requires expertise. In contrast, present research develops material models needing specific input parameters for every use case. This contribution focuses on a practicable approach considering the superposition of the viscoelastic behaviour of every stress increment in time step FEM analysis. The differentiation between the pure viscoelastic material behaviour (as it is given in the codes for idealistic conditions like creep or relaxation) and the according viscoelastic system response (addicted to the systems variable restraint degree) allows the transfer of this model into practice. As one application example of this approach, the compatibility check and the FEM-based recalculation of the monitoring program of a massive power plant slab will be presented.