Dopamine D1 Receptor in the Nucleus Accumbens Modulates the Emergence from Propofol Anesthesia in Rat

Neurochemical Research - It has been reported that systemic activation of D1 receptors promotes emergence from isoflurane-induced unconsciousness, suggesting that the central dopaminergic system is...     

深度麻醉至脑死亡期间大鼠海马神经元活动的突变

全身麻醉若操作不当可能造成致命的中枢神经系统损伤,因此其安全性受到广泛关注.为了揭示麻醉不断加深的过程中神经元活动的变化规律,本文研究了大鼠在乌拉坦(urethane)深度麻醉至脑死亡期间海马区神经元兴奋性和信号传导功能的变化.利用微电极阵列记录和电刺激技术,在海马CA1区胞体层分别记录Schaffer侧支上正向刺激和海马白质上反向刺激诱发的群峰电位(population spike,PS).以PS的幅值和潜伏期为指标,分析海马神经元活动的变化.结果表明,随着乌拉坦血药浓度的增加,PS幅值逐渐减小,潜伏期逐渐延长,意味着乌拉坦抑制了神经元的兴奋性以及轴突传导和突触传递.特别是这些变化存在明显的转折点(即突变),将整个衰减过程分成慢变和快变2个阶段.快变期的剧烈衰减迅速导致脑死亡.而且,引起突变的决定性因素可能是乌拉坦的血药浓度,而非麻醉时间的长短.但是,当乌拉坦注射速率较慢时,延长的慢变期仍然会使神经元功能的受损加重.这些研究结果为动物实验的麻醉操作和临床麻醉的安全应用提供了重要的信息.     

Inhibition of Propofol Anesthesia on Functional Connectivity between LFPs in PFC during Rat Working Memory Task

Working memory (WM) refers to the temporary storage and manipulation of information necessary for performance of complex cognitive tasks. There is a growing interest in whether and how propofol anesthesia inhibits WM function. The aim of this study is to investigate the possible inhibition mechanism of propofol anesthesia based on the functional connections of multi-local field potentials (LFPs) and behavior during WM tasks. Adult SD rats were randomly divided into 3 groups: pro group (0.5 mg·kg⁻¹·min⁻¹,2 h), PRO group (0.9 mg·kg⁻¹·min⁻¹, 2 h) and control group. The experimental data were 16-channel LFPs obtained at prefrontal cortex with implanted microelectrode array in SD rats during WM tasks in Y-maze at 24, 48, 72, 96, 120 hours (day 1-day 5) after propofol anesthesia, and the behavior results of WM were recoded at the same time. Directed transfer function (DTF) method was applied to analyze the connections among LFPs directly. Furthermore, the causal networks were identified by DTF. The clustering coefficient (C), network density (D) and global efficiency (E_global) were selected to describe the functional connectivity quantitatively. The results show that: comparing with the control group, the LFPs functional connectivity in pro group were no significantly difference (p>0.05); the connectivity in PRO group were significantly decreased (p<0.05 at 24 hours, p<0.05 at 48 hours), while no significant difference at 72, 96 and 120 hours for rats (p>0.05), which were consistent with the behavior results. These findings could lead to improved understanding the mechanism of inhibition of anesthesia on WM functions from the view of connections among LFPs.     

丙泊酚静脉麻醉与异氟醚吸入麻醉在巴马小型猪实验中的比较

目的比较丙泊酚静脉麻醉与异氟醚吸入麻醉在巴马小型猪实验中的麻醉效果。方法巴马小型猪10头,平均分成2组,分别进行丙泊酚静脉麻醉和异氟醚吸入麻醉,并于术前、术中及术后对其进行麻醉监测。结果两组实验猪的数量、体重、手术时间和麻醉时间无显著性差异（P〉0.05）;异氟醚组恢复自主呼吸的时间短于丙泊酚组（P〈0.05）;与基础值相比,各组实验猪在麻醉后HR值均明显升高（P〉0.01）,MAP值降低明显（P〉0.01）;但各组间及组内SPO2和PH值差异不显著（P〉0.05）。结论丙泊酚静脉麻醉应根据手术过程中实验动物的反应情况适当调整丙泊酚泵入量;而异氟醚吸入麻醉的麻醉过程平稳,麻醉效果好,术后苏醒快,适合情况复杂且时间较长的手术。     

Genome-Wide microRNA Profiling of Rat Hippocampus after Status Epilepticus Induced by Amygdala Stimulation Identifies Modulators of Neuronal Apoptosis

MicroRNAs (miRNAs) are small and endogenously expressed non-coding RNAs that negatively regulate the expression of protein-coding genes at the translational level. Emerging evidence suggests that miRNAs play critical roles in central nervous system under physiological and pathological conditions. However, their expression and functions in status epilepticus (SE) have not been well characterized thus far. Here, by using high-throughput sequencing, we characterized miRNA expression profile in rat hippocampus at 24 hours following SE induced by amygdala stimulation. After confirmation by qRT-PCR, six miRNAs were found to be differentially expressed in brain after SE. Subsequent Kyoto Encyclopedia of Genes and Genomes pathway analysis indicated that most of the predicted target genes for these six miRNAs were related to neuronal apoptosis. We then investigated the dynamic changes of these six miRNAs at different time-point (4 hours, 24 hours, 1 week and 3 weeks) after SE. Meanwhile, neuronal survival and apoptosis in the hippocampus after SE were evaluated by Nissl staining and terminal deoxynucleotidyl transferase-mediated dUTP end-labeling assay. We found that the expression of miR-874-3p, miR-20a-5p, miR-345-3p, miR-365-5p, and miR-764-3p were significantly increased from 24 hours to 1 week, whereas miR-99b-3p level was markedly decreased from 24 hours to 3 weeks after SE. Further analysis revealed that the levels of miR-365-5p and miR-99b-3p were significantly correlated with neuronal apoptosis after SE. Taken together, our data suggest that miRNAs are important modulators of SE-induced neuronal apoptosis. These findings also open new avenues for future studies aimed at developing strategies against neuronal apoptosis after SE.     

Effects of Acute Perinatal Asphyxia in the Rat Hippocampus

In the present work, we have used a rat animal model to study the early effects of intrauterine asphyxia occurring no later than 60 min following the cesarean-delivery procedure. Transitory hypertonia accompanied by altered posture was observed in asphyxiated pups, which also showed appreciably increased lactate values in plasma and hippocampal tissues. Despite this, there was no difference in terms of either cell viability or metabolic activities such as oxidation of lactate, glucose, and glycine in the hippocampus of those fetuses submitted to perinatal asphyxia with respect to normoxic animals. Moreover, a significant decrease in glutamate, but not GABA uptake was observed in the hippocampus of asphyctic pups. Since intense ATP signaling especially through P2X₇ purinergic receptors can lead to excitotoxicity, a feature which initiates neurotransmission failure in experimental paradigms relevant to ischemia, here we assessed the expression level of the P2X₇ receptor in the paradigm of perinatal asphyxia. A three-fold increase in P2X₇ protein was transiently observed in hippocampus immediately following asphyxia. Nevertheless, further studies are needed to delineate whether the P2X₇ receptor subtype is involved in the pathogenesis, contributing to ongoing brain injury after intrapartum asphyxia. In that case, new pharmacologic intervention strategies providing neuroprotection during the reperfusion phase of injury might be identified.     

Presence of Two Benzodiazepine Binding Sites in the Rat Hippocampus

Abstract: Characteristics of receptor binding of diazepam and flunitrazepam in three brain areas were compared. It was found that in the cerebral cortex and cerebellum the number of sites was similar for both ligands and that the affinity of diazepam was four times lower than the affinity of flunitrazepam. In contrast, when binding in the hippocampus was analyzed (assuming the presence of homogenous binding sites), it was found that the number of binding sites was higher and that the affinity was 17 times lower for diazepam than for flunitrazepam. This difference is due to the presence of two diazepam binding sites in this brain area, as demonstrated by a Scatchard analysis.     

Antibody Profiling of Bipolar Disorder Using Escherichia coli Proteome Microarrays

To profile plasma antibodies of patients with bipolar disorder (BD), an E. coli proteome microarray comprising ca. 4200 proteins was used to analyze antibody differences between BD patients and mentally healthy controls (HCs). The plasmas of HCs and patients aged 18–45 years with bipolar I disorder (DSM-IV) in acute mania (BD-A) along with remission (BD-R) were collected. The initial samples consisting of 19 BD-A, 20 BD-R, and 20 HCs were probed with the microarrays. After selecting protein hits that recognized the antibody differences between BD and HC, the proteins were purified to construct BD focus arrays for training diagnosis committees and validation. Additional six BD-A, six BD-R, six HCs, and nine schizophrenic disorder (SZ, as another psychiatric control) samples were individually probed with the BD focus arrays. The trained diagnosis committee in BD-A versus HC combined top six proteins, including rpoA, thrA, flhB, yfcI, ycdU, and ydjL. However, the optimized committees in BD-R versus HC and BD-A versus BD-R were of low accuracy (< 0.6). In the single blind test using another four BD-A, four HC, and four SZ samples, the committee of BD-A versus HC was able to classify BD-A versus HC and SZ with 75% sensitivity and 80% specificity that both HC and SZ were regarded as negative controls. The consensus motif of the six proteins, which form the committee of BD-A versus HC, is [KE]DIL[AG]L[LV]I[NL][IC][SVKH]G[LV][VN][LV] by Gapped Local Alignment of Motifs. We demonstrated that the E. coli proteome microarray is capable of screening BD plasma antibody differences and the selected proteins committee was successfully used for BD diagnosis with 79% accuracy.The etiology and genetic contributions of bipolar disorder (BD)¹ largely remain unknown (1). Because of the presumed high level of etiologic heterogeneity and the overlap of dimensions across mood disorders and schizophrenia (2), the main difficulty in making an exact diagnosis for psychiatric disorder is the lack of pathological biochemical index (3). However, several lines of evidence support that various immunomodulatory factors, such as cytokine and soluble cytokine receptor, play an integral role in the pathophysiology of bipolar disorder (4–7). For example, several studies have reported that cell-mediated immunity cytokine abundance is correlated with mood state (8, 9). Our early works also found that higher levels of soluble interleukin-2 receptor (sIL-2R) (5, 10) and interleukin 1 receptor antagonist (IL-1Ra) (5, 11) are accompanied with bipolar mania. Furthermore, the abnormalities of total immunoglobulins levels in body fluid are observed in BD patients (12, 13).The possibility of biomarkers for assisting BD diagnosis has been recently highlighted (14–16). Tumor necrosis factor alpha (TNF-α), 3-nytrotrosine, interleukin-6, interleukin-10, and brain-derived neurotrophic factor in body fluids are potentially useful for classifying stages of BD (15). Nevertheless, they are not specific for distinguishing from other psychiatric diseases (17). Chronic inflammation exists in medicated bipolar patients displaying varied correlations with leptin, insulin, soluble TNF receptor-1 (sTNF-R1), and IL-1Ra (11). Notwithstanding, controversy exists as to whether these phenomena are state-dependent (5), normalize in remission (18), or represent trait markers exacerbated by the affective episodes (19). These discrepancies may be explained by heterogeneity in mood state, methodological differences, and not controlling for known confounds, such as obesity (6). In addition to inflammatory markers, increasing production of antibodies (20–22) and immunoglobulins (23, 24) may be implicated with BD.In recent years, proteomic technologies based on mass spectrometry have been increasingly used, especially in the search for diagnostic and prognostic biomarkers in neuropsychiatric disorders (25). Protein microarrays have been demonstrated as an effective high throughput platform for analysis of aberrant immune responses in diseases (26–29). It is hypothesized that the trait or state-dependent biomarkers of bipolar disorder may exist. We attempted to identify a committee of proteins for the diagnosis of BD through employing the ca. 4200 E. coli proteins in a microarray format. The two-phase strategy for identification and validation protein hits (30) was used in this study. Although the antigens on the microarray may not be directly associated with BD, this microarray provided hundreds of thousands of epitopes for analyzing antibody profiles of plasma samples in a high throughput fashion.     

快通道麻醉在内镜粘膜下剥离术中的应用

目的:探讨快通道麻醉用于内镜粘膜下剥离术的可行性.方法:对99例上消化道异型增生、早癌、良性病变需要行经口粘膜下剥离术患者,行气管插管全麻,静脉复合应用异丙酚、瑞芬太尼、维库溴铵.记录检查前、中、后血压、心率、血氧饱和度的数值,以及患者复苏情况和不良反应.结果:99例接受治疗的患者血压、心率、血氧饱和度在检查前、中、后均无明显变化,生命体征均处于安全范围,安全的完成治疗.结论:快通麻醉下行内镜粘膜下剥离是一种安全有效的方法.     

Involvement of Ventral Periaqueductal Gray Dopaminergic Neurons in Propofol Anesthesia

It has been reported that central dopaminergic system is implicated in the mechanism underlying general anesthesia. Whether dopamine (DA) neurons in midbrain ventral periaqueductal gray (vPAG) are involved in general anesthesia and how general anesthetics affect these neurons remain sparsely documented. To determine the role of vPAG DA neurons in propofol-induced anesthesia, we performed microinjection of 6-hydroxydopamine (6-OHDA) into vPAG to damage DA neurons and investigated the alteration in somatosensory electroencephalogram (EEG), as well as the induction and recovery time of propofol anesthesia. Subsequently, we examined the effect of propofol on the electrophysiological activity of DA neurons in vPAG using whole-cell patch clamp. Two weeks after 6-OHDA microinfusion, DA neurons in the vPAG were markedly reduced by 63.6% in the 6-OHDA-treated rats compared with vehicle rats. This lesion significantly shortened the induction time (7.15?±?3.97 s vs. 11.18?±?2.83 s, P?<?0.05) and prolonged the recovery time of propofol anesthesia (780.26?±?150.86 s vs. 590.68?±?107.97 s, P?<?0.05). Meanwhile, EEG in somatosensory cortex revealed that delta power (0–4 Hz) was significantly higher in 6-OHDA-treated rats than vehicle rats. In the electrophysiological experiment, propofol decreased the frequency of spontaneous excitatory postsynaptic currents rather than the amplitude and decay time. In addition, propofol preferentially increased the frequency and prolonged the decay time of spontaneous inhibitory postsynaptic currents without affecting the amplitude. Significance: Propofol can promote presynaptic GABA release, inhibit presynaptic glutamate release and increase postsynaptic GABA_A receptor sensitivity, which eventually inhibits the activity of vPAG DA neurons and thereby influences the state of consciousness.     

Extracellular Glucose Concentrations in the Rat Hippocampus Measured by Zero-Net-Flux

Abstract : The concentration of glucose in the brain's extracellular fluid remains controversial, with recent estimates and measurements ranging from 0.35 to 3.3 m M . In the present experiments, we used the method of zero-net-flux microdialysis to determine glucose concentration in the hippocampal extracellular fluid of awake, freely moving rats. In addition, the point of zero-net-flux was measured across variations in flow rate to confirm that the results for glucose measurement were robust to such variations. In 3-month-old male Sprague-Dawley rats, the concentration of glucose in the hippocampal extracellular fluid was found to be 1.00 ± 0.05 m M , which did not vary with changes in flow rate. Three-month-old and 24-month-old Fischer-344 rats both showed a significantly higher hippocampal extracellular fluid glucose concentration, at 1.24 ± 0.07 and 1.21 ± 0.04 m M , respectively ; there was no significant difference between the two age groups. The present data demonstrate variation in extracellular brain glucose concentration between rat strains. When taken together with previous data showing a striatal extracellular glucose concentration on the order of 0.5 m M , the data also demonstrate variation in extracellular glucose between brain regions. Traditional models of brain glucose transport and distribution, in which extracellular concentration is assumed to be constant, may require revision.     

Arginine-Vasopressin Stimulates Inositol Phospholipid Metabolism in Rat Hippocampus

The hippocampal vasopressin receptors have been characterised by measuring the stimulated accumulation of inositol monophosphate in the presence of 10 mM LiCl after hippocampal slices were prelabelled with [3H]inositol. Arginine-vasopressin caused a dose-dependent increase in inositol monophosphate accumulation (ED50 = 7.1 nM). The response was unchanged in the absence of Ca2+ and significantly reduced in the presence of a V1-receptor antagonist. Equimolar oxytocin was ineffective as a stimulus. This suggests that the hippocampal receptors are of the V1 type.