Behavioral and Cardiorespiratory Responses to Bilateral Microinjections of Oxytocin into the Central Nucleus of Amygdala of Wistar Rats,an Experimental Model of Compulsion

Introduction

The central nucleus of amygdala plays an important role mediating fear and anxiety responses. It is known that oxytocin microinjections into the central nucleus of amygdala induce hypergrooming, an experimental model of compulsive behavior. We evaluated the behavioral and cardiorespiratory responses of conscious rats microinjected with oxytocin into the central nucleus of amygdala.

Methods

Male Wistar rats were implanted with guide cannulae into the central nucleus of amygdala and microinjected with oxytocin (0.5 µg, 1 µg) or saline. After 24 h, rats had a catheter implanted into the femoral artery for pulsatile arterial pressure measurement. The pulsatile arterial pressure was recorded at baseline conditions and data used for cardiovascular variability and baroreflex sensitivity analysis. Respiratory and behavioral parameters were assessed during this data collection session.

Results

Microinjections of oxytocin (0.5 µg) into the central nucleus of amygdala produced hypergrooming behavior but did not change cardiorespiratory parameters. However, hypergrooming evoked by microinjections of oxytocin (1 µg) into the central nucleus of amygdala was accompanied by increase in arterial pressure, heart rate and ventilation and augmented the power of low and high (respiratory-related) frequency bands of the systolic arterial pressure spectrum. No changes were observed in power of the low and high frequency bands of the pulse interval spectrum. Baroreflex sensitivity was found lower after oxytocin microinjections, demonstrating that the oxytocin-induced pressor response may involve an inhibition of baroreflex pathways and a consequent facilitation of sympathetic outflow to the cardiovascular system.

Conclusions

The microinjection of oxytocin (1 µg) into the central nucleus of amygdala not only induces hypergrooming but also changes cardiorespiratory parameters. Moreover, specific oxytocin receptor antagonism attenuated hypergrooming but did not affect pressor, tachycardic and ventilatory responses to oxytocin, suggesting the involvement of distinct neural pathways.     

Respiratory Reactions in Rats to Microinjections of Bombesin into the Region of the Nucleus Tractus Solitarius

In experiments on 35 mongrel albino rats, we studied the effects of a neuropeptide, bombesin (0.2 l, concentrations from 10^-13 to 10^-4), which was injected into the nucleus tractus solitarius, on the pattern of respiration and on the electrical activity of the main inspiratory muscles. The local influence of bombesin on this region of the respiratory center led to the expressed intensification of respiration. The respiratory volume and the amplitude of respiratory EMG bursts (oscillatory volleys in the diaphragmatic and external intercostal muscles), as well as the integral intensity of pulmonary ventilation, increased. The maximum deviations of these indices developed under the influence of the peptide in the intermediate concentrations (10^-10 to 10^-7 M). The observed reactions were characterized by short latencies, rapid development (2 to 5 min long), and relatively short duration. The data obtained are indicative of the possibility of direct involvement of the tested neuropeptide (bombesin) in the control of respiration and confirm concepts on the important role of the dorsal structures of the respiratory center in realization of respiratory effects of neuropeptides.     

Integrated Control of Predatory Hunting by the Central Nucleus of the Amygdala

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Long-Term Behavioral Programming Induced by Peripuberty Stress in Rats Is Accompanied by GABAergic-Related Alterations in the Amygdala

Stress during childhood and adolescence is a risk factor for psychopathology. Alterations in γ-aminobutyric acid (GABA), the main inhibitory neurotransmitter in the brain, have been found following stress exposure and fear experiences and are often implicated in anxiety and mood disorders. Abnormal amygdala functioning has also been detected following stress exposure and is also implicated in anxiety and social disorders. However, the amygdala is not a unitary structure; it includes several nuclei with different functions and little is known on the potential differences the impact of early life stress may have on this system within different amygdaloid nuclei. We aimed here to evaluate potential regional differences in the expression of GABAergic-related markers across several amygdaloid nuclei in adult rats subjected to a peripuberty stress protocol that leads to enhanced basal amygdala activity and psychopathological behaviors. More specifically, we investigated the protein expression levels of glutamic acid decarboxylase (GAD; the principal synthesizing enzyme of GABA) and of GABA-A receptor subunits α2 and α3. We found reduced GAD and GABA-A α3, but not α2, subunit protein levels throughout all the amygdala nuclei examined (lateral, basolateral, basomedial, medial and central) and increased anxiety-like behaviors and reduced sociability in peripubertally stressed animals. Our results identify an enduring inhibition of the GABAergic system across the amygdala following exposure to early adversity. They also highlight the suitability of the peripuberty stress model to investigate the link between treatments targeting the dysfunctional GABAergic system in specific amygdala nuclei and recovery of specific stress-induced behavioral dysfunctions.     

大麻素Ⅰ型受体参与异氟醚预处理诱导的大鼠脑缺血耐受

目的:探讨大麻素Ⅰ型受体(CB1受体)是否参与异氟醚预处理诱导的大鼠脑缺血耐受.方法:48只雄性SD大鼠随机分为6组(n=8):假手术组SHAM:仅暴露颈总动脉,不结扎血管;对照组MCAO:阻塞大鼠大脑中动脉2h;异氟醚预处理组ISO:大鼠吸入异氟醚(1.5％)1 h/d,连续5d;溶剂+异氟醚预处理组(Vehicle+ISO)和CB1受体拮抗剂+异氟醚预处理组(AM251 +ISO):每日在吸入异氟醚前30 min分别给予溶剂(二甲基亚砜:Tween-80:生理盐水=1∶1∶18)3 mL/kg (ip)和AM251(i.p),连续5d;CB1受体拮抗剂组(AM251):每日腹腔注射(i.p.)AM251)1 mg/kg,连续5d.除SHAM组外其余各组均在最后一次预处理24h后行颈内动脉线栓法致大脑中动脉栓塞(2 h)模型,观察再灌注后24 h神经行为学评分,然后取大脑行2,3,5-氯化三苯四唑(TTC)染色以计算脑梗死容积百分比.结果:SHAM组神经行为学正常且未见梗死灶;ISO组和Vehicle+ISO组脑梗死体积百分比分别(29.3±4.2％)和(31.5±3.4)％,明显小于MCAO组、AM251组和AM251 +ISO组(P＜0.05);神经行为学评分ISO组(12.1±0.6)和Vehicle+ISO组(11.1±0.8)明显高于MCAO组(7.4±1.2)、AM251组(7.6±1.1)和AM251 +ISO组(8.6±1.2)(P＜0.05);而AM251组、AM251 +ISO组与MCAO组之间神经行为学评分和脑梗死体积百分比均无统计学意义.结论:CB1受体可能参与了异氟醚预处理诱导的大鼠脑缺血耐受.     

The Role of the Subthalamic Nucleus in L-DOPA Induced Dyskinesia in 6-Hydroxydopamine Lesioned Rats

L-DOPA is the most effective treatment for Parkinson's disease (PD), but prolonged use leads to disabling motor complications including dyskinesia. Strong evidence supports a role of the subthalamic nucleus (STN) in the pathophysiology of PD whereas its role in dyskinesia is a matter of controversy. Here, we investigated the involvement of STN in dyskinesia, using single-unit extracellular recording, behavioural and molecular approaches in hemi-parkinsonian rats rendered dyskinetic by chronic L-DOPA administration. Our results show that chronic L-DOPA treatment does not modify the abnormal STN activity induced by the 6-hydroxydopamine lesion of the nigrostriatal pathway in this model. Likewise, we observed a loss of STN responsiveness to a single L-DOPA dose both in lesioned and sham animals that received daily L-DOPA treatment. We did not find any correlation between the abnormal involuntary movement (AIM) scores and the electrophysiological parameters of STN neurons recorded 24 h or 20-120 min after the last L-DOPA injection, except for the axial subscores. Nonetheless, unilateral chemical ablation of the STN with ibotenic acid resulted in a reduction in global AIM scores and peak-severity of dyskinesia. In addition, STN lesion decreased the anti-dyskinetogenic effect of buspirone in a reciprocal manner. Striatal protein expression was altered in dyskinetic animals with increases in ΔFosB, phosphoDARPP-32, dopamine receptor (DR) D3 and DRD2/DRD1 ratio. The STN lesion attenuated the striatal molecular changes and normalized the DRD2/DRD1 ratio. Taken together, our results show that the STN plays a role, if modest, in the physiopathology of dyskinesias.     

Norepinephrine Microinjections in the Hypothalamic Paraventricular Nucleus Increase Extracellular Dopamine and Decrease Acetylcholine in the Nucleus Accumbens: Relevance to Feeding Reinforcement

Abstract: Norepinephrine (NE) was microinjected into the paraventricular nucleus (PVN), while microdialysis was used to monitor extracellular dopamine (DA) and acetylcholine (ACh) in the nucleus accumbens (NAc). The PVN is a site where exogenously administered NE can act through α₂ receptors to elicit eating behavior and preference for carbohydrates. It was hypothesized that NE in the PVN acts on a behavior reinforcement system by altering the DA/ACh balance in the NAc. NE microinjections (80 nmol in 0.3 µl), which effectively elicited feeding in satiated rats in a separate test, caused a significant increase in extracellular DA (109%) and decrease in ACh (−27%) when the same animals were tested in the absence of food. In contrast when the food was available and ingested, ACh increased (51%) instead of decreasing. These results support the hypothesis that a functional link exists between the PVN and the NAc in which DA helps initiate and ACh helps stop appetitive behavior involved in the reinforcement of eating.     

State of the NPY-ergic System of the Hypothalamic Arcuate Nucleus in Rats with Experimentally Induced Diabetes Mellitus

We have carried out a quantitative study of the state of a neuropeptide Y (NPY)-ergic system of the hypothalamic arcuate nucleus (AN) in rats in the norm and in streptozotocin (STZ)-induced diabetes mellitus. The NPY-containing objects were identified using an indirect immunofluorescent technique; a system of digital analysis of images and a special software were used. Analysis of the morphometric parameters of the NPY-immunopositive objects within the AN sections allowed us to classify in an automatic mode such objects as neurons of various sizes, fibers, and terminals, as well as to count the number of objects of each class. In addition, the fluorescent intensity of the objects under study (directly proportional to the concentration and amounts of NPY in these objects) was determined. On the basis of these parameters, criteria of the state of synthesis and secretion of NPY and NPY-ergic innervation in the AN subnuclei were proposed. In control animals, the greatest number of NPY-immunopositive neurons and total content of NPY in the neurons and terminals were observed in the ventrolateral and dorsomedial subnuclei of the AN (vl- and dmAN, respectively); this fact points to the high intensities of NPY synthesis and secretion in these structures. The greatest content of NPY in the nerve terminals within the vlAN zone is indicative of the highest intensity of NPY-ergic afferent influences on this subnucleus. It is concluded that the approach we proposed is adequate enough for integral quantitative estimation of the state of peptidergic systems. The development of STZ-induced diabetes mellitus caused changes in the NPY-ergic system in different AN subnuclei; such changes demonstrated certain specificity. In particular, an increase in the number of immunopositive neurons and the total content of NPY in the neurons of vlAN and the ventromedial AN subnucleus (vmAN), which is evidence in favor of intensification of synthesis of the neuropeptide, was not accompanied by an adequate rise in the NPY content in the terminals located in the subnucleus under study. The content of NPY in the eminentia medianus also decreased. The above data allow us to hypothesize that the NPY-ergic system of the AN under conditions of diabetes mellitus is functionally insufficient.     

依托咪酯对大鼠杏仁核点燃模型的抑制作用

目的:研究依托咪(Etomidate,ET)对大鼠杏仁核点燃发作的抑制及其抗癫痫作用.方法:测定ET对大鼠杏仁核点燃发作的脑电活动及行为变化指标的影响,测定ET对GABAA受体拮抗剂印防己毒素诱发小鼠惊厥的影响.结果:依托咪酯(6～9mg·kg-1)可抑制杏仁核点燃发作,缩短后放电时程,降低Racine's分级(P＜0.01);ET对GABAA受体拮抗剂印防己毒素致惊小鼠有抑制作用.结论:依托咪酯对大鼠杏仁核点燃模型和印防己毒素致惊小鼠均具有抑制作用,可能与GABA神经系统抑制作用有关.     

Impairment of Central Chemoreception in Neonatal Rats Induced by Maternal Cigarette Smoke Exposure during Pregnancy

It has been postulated that prenatal cigarette smoke exposure (CSE) increases the risk for sudden infant death syndrome. The victims of infant death syndrome suffer from respiratory abnormalities, such as central apnea, diminished chemoreflex and alteration in respiratory pattern during sleep. However, no experimental evidence on CSE model exists to confirm whether prenatal CSE gives rise to reduction of neonatal central chemoreception in in vitro preparations in absence of peripheral sensory feedback. The aim of the present study was to test the hypothesis that maternal CSE during pregnancy depresses central chemoreception of the neonatal rats. The pregnant rats were divided into two groups, control (n = 8) and CSE (n = 8). Experiments were performed on neonatal (0–3days) rat pups. Fictive respiratory activity was monitored by recording the rhythmic discharge from the hypoglossal rootlets of the medullary slices obtained from the neonatal rats. The burst frequency (BF) and integrated amplitude (IA) of the discharge were analyzed. Their responses to acidified artificial cerebrospinal fluid (aCSF) were tested to indicate the change of the central chemosensitivity. Under condition of perfusing with standard aCSF (pH 7.4), no significant difference was detected between the two groups in either BF or IA (P>0.05). Under condition of perfusing with acidified aCSF (pH 7.0), BF was increased and IA was decreased in both groups (P<0.01). However, their change rates in the CSE group were obviously smaller than that in the control group, 66.98 ± 10.11% vs. 143.75 ± 15.41% for BF and −22.38 ± 2.51% vs. −44.90 ± 3.92% for IA (P<0.01). In conclusion, these observations, in a prenatal CSE model, provide important evidence that maternal smoking during pregnancy exerts adverse effects on central chemoreception of neonates.     

Intermittent Hypobaric Hypoxia Preconditioning Induced Brain Ischemic Tolerance by Up-Regulating Glial Glutamate Transporter-1 in Rats

Several studies showed that the up-regulation of glial glutamate transporter-1 (GLT-1) participates in the acquisition of brain ischemic tolerance induced by cerebral ischemic preconditioning or ceftriaxone pretreatment in rats. To explore whether GLT-1 plays a role in the acquisition of brain ischemic tolerance induced by intermittent hypobaric hypoxia (IH) preconditioning (mimicking 5,000?m high-altitude, 6?h per day, once daily for 28?days), immunohistochemistry and western blot were used to observe the changes in the expression of GLT-1 protein in hippocampal CA1 subfield during the induction of brain ischemic tolerance by IH preconditioning, and the effect of dihydrokainate (DHK), an inhibitor of GLT-1, on the acquisition of brain ischemic tolerance in rats. The basal expression of GLT-1 protein in hippocampal CA1 subfield was significantly up-regulated by IH preconditioning, and at the same time astrocytes were activated by IH preconditioning, which appeared normal soma and aplenty slender processes. The GLT-1 expression was decreased at 7?days after 8-min global brain ischemia. When the rats were pretreated with the IH preconditioning before the global brain ischemia, the down-regulation of GLT-1 protein was prevented clearly. Neuropathological evaluation by thionin staining showed that 200?nmol DHK blocked the protective role of IH preconditioning against delayed neuronal death induced normally by 8-min global brain ischemia. Taken together, the up-regulation of GLT-1 protein participates in the acquisition of brain ischemic tolerance induced by IH preconditioning in rats.     

Deregulation of Hepatic Insulin Sensitivity Induced by Central Lipid Infusion in Rats Is Mediated by Nitric Oxide

Background

Deregulation of hypothalamic fatty acid sensing lead to hepatic insulin-resistance which may partly contribute to further impairment of glucose homeostasis.

Methodology

We investigated here whether hypothalamic nitric oxide (NO) could mediate deleterious peripheral effect of central lipid overload. Thus we infused rats for 24 hours into carotid artery towards brain, either with heparinized triglyceride emulsion (Intralipid, IL) or heparinized saline (control rats).

Principal Findings

Lipids infusion led to hepatic insulin-resistance partly related to a decreased parasympathetic activity in the liver assessed by an increased acetylcholinesterase activity. Hypothalamic nitric oxide synthases (NOS) activities were significantly increased in IL rats, as the catalytically active neuronal NOS (nNOS) dimers compared to controls. This was related to a decrease in expression of protein inhibitor of nNOS (PIN). Effect of IL infusion on deregulated hepatic insulin-sensitivity was reversed by carotid injection of non selective NOS inhibitor NG-monomethyl-L-arginine (L-NMMA) and also by a selective inhibitor of the nNOS isoform, 7-Nitro-Indazole (7-Ni). In addition, NO donor injection (L-arginine and SNP) within carotid in control rats mimicked lipid effects onto impaired hepatic insulin sensitivity. In parallel we showed that cultured VMH neurons produce NO in response to fatty acid (oleic acid).

Conclusions/Significance

We conclude that cerebral fatty acid overload induces an enhancement of nNOS activity within hypothalamus which is, at least in part, responsible fatty acid increased hepatic glucose production.     

大鼠室旁核注射orexin-A对体重的影响

目的:探讨大鼠室旁核(PVN)注射orexin-A对体重的影响。方法:大鼠室旁核(PVN)微量注射orexin-A,用大脑置管埋管、组织化学染色等方法探讨PVN注射orexin-A对其体重的影响。结果:与安慰剂组大鼠相比,PVN注射orexin-A组大鼠体重明显减轻(P0.05),而orexin-A组和安慰剂组摄食量无明显差异(P0.05)。注射结束后6天,orexin-A处理大鼠的体重仍显著低于注射前(P0.05),而安慰剂组大鼠则比注射前显著增重(P0.05)。药物注射可显著降低机体脂肪,但并不特异存在于注射orexin-A或安慰剂的大鼠身上。Orexin-A组和安慰剂组大鼠的肌肉量和脂肪量均显著降低(P0.05),但注射orexin-A的大鼠降低更明显。与安慰剂组相比,orexin-A处理后的摄食转化率显著降低(P0.05)。结论:大鼠室旁核(PVN)注射orexin-A可通过增加活动量产生负能量平衡,引起体重减轻。     

茶多酚对大鼠慢性缺氧损伤保护的实验研究

大鼠在高原环境模拟舱内间断缺氧及注射CoCl2溶液以建立红细胞增多症模型,实验分4组：平原组、慢性缺氧组、高剂量TP＋慢性缺氧组、低剂量TP＋慢性缺氧组,研究茶多酚对慢性缺氧诱导的大鼠红细胞增多症及心肌缺氧损伤的影响．结果显示,茶多酚能够显著抑制缺氧大鼠的红细胞数、血红蛋白和红细胞压积的增加,降低骨髓增生程度,减小缺氧大鼠心室重量指数,增加缺氧大鼠Hermannnwillson指数,同时经茶多酚处萼的缺氧大鼠心肌损伤程度较单纯缺氧组轻．提示,茶多酚对大鼠红细胞增多症有一定的预防作用,同时茶多酚还能减轻慢性缺氧对大鼠的心肌损伤程度．     

Maternal Obesity Induced by Diet in Rats Permanently Influences Central Processes Regulating Food Intake in Offspring

Hypothalamic systems which regulate appetite may be permanently modified during early development. We have previously reported hyperphagia and increased adiposity in the adult offspring of rodents fed an obesogenic diet prior to and throughout pregnancy and lactation. We now report that offspring of obese (OffOb) rats display an amplified and prolonged neonatal leptin surge, which is accompanied by elevated leptin mRNA expression in their abdominal white adipose tissue. At postnatal Day 30, before the onset of hyperphagia in these animals, serum leptin is normal, but leptin-induced appetite suppression and phosphorylation of STAT3 in the arcuate nucleus (ARC) are attenuated; the level of AgRP-immunoreactivity in the hypothalamic paraventricular nucleus (PVH), which derives from neurones in the ARC and is developmentally dependent on leptin, is also diminished. We hypothesise that prolonged release of abnormally high levels of leptin by neonatal OffOb rats leads to leptin resistance and permanently affects hypothalamic functions involving the ARC and PVH. Such effects may underlie the developmental programming of hyperphagia and obesity in these rats.     

Nitric Oxide Participates in the Brain Ischemic Tolerance Induced by Intermittent Hypobaric Hypoxia in the Hippocampal CA1 Subfield in Rats

Previous studies have shown that intermittent hypobaric hypoxia (IH) preconditioning protected neurons survival from brain ischemia. However, the mechanism remains to be elucidated. The present study explored the role of nitric oxide (NO) in the process by measuring the expression of NO synthase (NOS) and NO levels. Male Wistar rats (100) were randomly assigned into four groups: sham group, IH?+?sham group, ischemia group and IH?+?ischemia group. Rats for IH preconditioning were exposed to hypobaric hypoxia mimicking 5000 m high-altitude (P_B?=?404 mmHg, PO₂?=?84 mmHg) 6 h/day, once daily for 28 days. Global brain ischemia was established by four-vessel occlusion that has been created by Pulsinelli. Rats were sacrificed at 7th day after the ischemia for neuropathological evaluation by thionin stain. In addition, the expression of neuronal NOS (nNOS), inducible NOS (iNOS), and NO content in the hippocampal CA1 subfield were measured at 2nd day and 7th day after the ischemia. Results revealed that global brain ischemia engendered delayed neuronal death (DND), both nNOS and iNOS expression up-regulated, and NO content increased in the hippocampal CA1 subfield. IH preconditioning reduced neuronal injury induced by the ischemia, and prevented the up-regulation of NOS expression and NO production. In addition, l-NAME?+?ischemia group was designed to detect whether depressing NO production could alleviate the DND. Pre-administration of l-NAME alleviated DND induced by the ischemia. These results suggest that IH preconditioning plays a protective role by inhibiting the over expression of NOS and NO content after brain ischemia.     

Differential Modulation of Arcuate Nucleus and Mesolimbic Gene Expression Levels by Central Leptin in Rats on Short-Term High-Fat High-Sugar Diet

Objective

Leptin resistance is a common hallmark of obesity. Rats on a free-choice high-fat high-sugar (fcHFHS) diet are resistant to peripherally administered leptin. The aim of this study was to investigate feeding responses to central leptin as well as the associated changes in mRNA levels in hypothalamic and mesolimbic brain areas.

Design and Methods

Rats on a CHOW or fcHFHS diet for 8 days received leptin or vehicle intracerebro(lateral)ventricularly (ICV) and food intake was measured 5 h and 24 h later. Four days later, rats were sacrificed after ICV leptin or vehicle and mRNA levels were quantified for hypothalamic pro-opiomelanocortin (POMC) and neuropeptide Y (NPY) and for preproenkephalin (ppENK) in nucleus accumbens and tyrosine hydroxylase (TH) in ventral tegmental area (VTA).

Results

ICV leptin decreased caloric intake both in CHOW and fcHFHS rats. In fcHFHS, leptin preferentially decreased chow and fat intake. Leptin increased POMC and decreased NPY mRNA in CHOW, but not in fcHFHS rats. In CHOW rats, leptin had no effect on ppENK mRNA and decreased TH mRNA. In fcHFHS, leptin decreased ppENK mRNA and increased TH mRNA.

Conclusion

Despite peripheral and arcuate leptin resistance, central leptin suppresses feeding in fcHFHS rats. As the VTA and nucleus accumbens are still responsive to leptin, these brain areas may therefore, at least partly, account for the leptin-induced feeding suppression in rats on a fcHFHS diet.     

Effects of Lycopene and Proanthocyanidins on Hepatotoxicity Induced by Mercuric Chloride in Rats

To evaluate the protective potential of lycopene (Lyc) and proanthocyanidins (PCs) against mercuric chloride (HgCl₂)-induced hepatotoxicity, the study focused on the mechanism of oxidative stress. Firstly, the rats were subcutaneously (s.c.) injected with 0, 2.2, 4.4, and 8.8 μmol/kg HgCl₂. Additionally, 40 mg/kg Lyc and 450 mg/kg PCs were given to the rats intragastrically (i.g.) before exposure to 8.8 μmol/kg HgCl₂. Then, body weight, liver weight coefficient, mercury (Hg) contents, histological feature, ultrastructure, apoptosis, reactive oxygen species (ROS), glutathione (GSH), glutathione peroxidase (GSH-Px), superoxide dismutase (SOD), and malondialdehyde (MDA) in the liver were measured. Lactate dehydrogenase (LDH) and alanine transaminase (ALT) in serum were determined. After exposure to different concentrations of HgCl₂,it was found that Hg contents, pathological and ultrastructure injury, activities of LDH and ALT, apoptosis, and levels of ROS, GSH, and MDA increased and the activities of SOD and GSH-Px decreased in a concentration-dependent manner. Further investigation found that pretreatment with Lyc and PCs inhibited ROS production, protected antioxidant enzymes, and reversed hepatotoxicity. We concluded that Lyc and PCs had hepatoprotective effects on HgCl₂-induced toxicity by antagonizing oxidative stress in rat liver.     

Oxytocin Signaling in the Central Amygdala Modulates Emotion Discrimination in Mice

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