Dexmedetomidine suppresses serum syndecan-1 elevation and improves survival in a rat hemorrhagic shock model

Hemorrhagic shock causes vascular endothelial glycocalyx (EGCX) damage and systemic inflammation. Dexmedetomidine (DEX) has anti-inflammatory and EGCX-protective effects, but its effect on hemorrhagic shock has not been investigated. Therefore, we investigated whether DEX reduces inflammation and protects EGCX during hemorrhagic shock. Anesthetized Sprague-Dawley rats were randomly assigned to five groups (n=7 per group): no shock (SHAM), hemorrhagic shock (HS), hemorrhagic shock with DEX (HS+DEX), hemorrhagic shock with DEX and the α7 nicotinic type acetylcholine receptor antagonist methyllycaconitine citrate (HS+DEX/MLA), and hemorrhagic shock with MLA (HS+MLA). HS was induced by shedding blood to a mean blood pressure of 25–30 mmHg, which was maintained for 30 min, after which rats were resuscitated with Ringer’s lactate solution at three times the bleeding volume. The survival rate was assessed up to 3 h after the start of fluid resuscitation. Serum tumor necrosis factor-alpha (TNF-α) and syndecan-1 concentrations, and wet-to-dry ratio of the heart were measured 90 min after the start of fluid resuscitation. The survival rate after 3 h was significantly higher in the HS+DEX group than in the HS group. Serum TNF-α and syndecan-1 concentrations, and the wet-to-dry ratio of heart were elevated by HS, but significantly decreased by DEX. These effects were antagonized by MLA. DEX suppressed the inflammatory response and serum syndecan-1 elevation, and prolonged survival in rats with HS.     

Resuscitative Effect of Hyperoxia Fluid on High-Altitude Hemorrhagic Shock in Rats and Antishock Mechanisms

Pathophysiological characteristics of hemorrhagic shock at high altitude are different from that at plain which involve severe injury, high mortality, difficult treatment and compromised liquid tolerance. High-altitude pulmonary/cerebral edema and multiple-organ dysfunction render the conventional treatment ineffective. Herein, we evaluated the resuscitation effects of hyperoxia solution on high-altitude hemorrhagic shock in rats. For this purpose, a rat model of high-altitude (3,658 m) hemorrhagic shock was established on the plateau and hyperoxia solution (4 ml/kg) was infused through external jugular vein for resuscitation at 60 min post-hemorrhage. Blood pressure, blood gas, left and right ventricular pressure, lung and brain water content, survival time, survival rate at 2 h, levels of inflammatory cytokines and free oxygen radicals in blood and tissue were determined. After resuscitation with hyperoxia solution, blood pressure, arterial oxygen partial pressure, left and right ventricular systolic pressure, ±dp/dt max, survival time and rate were significantly increased. Lung and brain water content were unchanged, malondialdehyde activity in lung, brain and plasma and levels of TNF-α, IL-1, IL-6, and endothelin were significantly decreased. Besides, CGRP was elevated with reduced injury and improved lung and kidney functions. Concludingly, resuscitation with hyperoxia solution is feasible and more effective than other classical liquids, making it the first choice of treatment for high-altitude hemorrhagic shock.     

低压复苏对非控制出血性休克抢救效果的探讨

目的建立非控制性脾大部损伤出血性休克模型,比较低压复苏与常压复苏抢救的效果。方法脾部分切除模拟人失血低压状态下,建立类似人休克的模型后,将动物随机分成4组。1组,假手术组;2组,休克未处理组;3组,正常血压复苏组;4组,低压复苏组。观察其成活率及对内脏的损伤程度。结果动物失血低压抢救比常压抢救存活时间长。结论低压可改善组织代谢,提高生存时间,是更为理想的复苏方法。低压复苏非控制性脾大部损伤出血性休克模型的建立,为临床急性大出血提供新的抢救方法。     

微量失血对左肝外叶切除＋定容失血性休克大鼠生存率的影响

目的：观察在大鼠左肝外叶切除＋定容失血性休克模型制作过程中微量失血对最终大鼠生存率的影响。方法：45只SD大鼠按不同的放血比例分为三组,以Wigger改良法建立左肝外叶切除＋定容失血性休克模型,严格标化放血前的各项手术操作和观测指标,比较三组大鼠最终生存率的差异。结果：在分别按2．4ml／100g（A组）、2．5ml／100g（B组）、2．6ml／100g（C组）比例定容失血的大鼠模型中,各组大鼠生存率分别为：A组66．67％,B组42．86％,C组7．69％,A、B两组与C组大鼠的生存率相比较存在明显差异（P〈0．05）。结论：即使是0．1ml／100g的微量失血对于该模型大鼠的生存率也是有显著影响的,这一点在大鼠的定容失血性休克模型实验中是不应被忽视的。     

The effects of a ketogenic diet on ATP concentrations and the number of hippocampal mitochondria in Aldh5a1 mice

Background

Succinic semialdehyde dehydrogenase (SSADH) deficiency is an inborn error of GABA metabolism characterized clinically by ataxia, psychomotor retardation and seizures. A mouse model of SSADH deficiency, the Aldh5a1^−/− mouse, has been used to study the pathophysiology and treatment of this disorder. Recent work from our group has shown that the ketogenic diet (KD) is effective in normalizing the Aldh5a1^−/− phenotype, although the mechanism of the effect remains unclear.

Methods

Here, we examine the effects of a KD on the number of hippocampal mitochondria as well as on ATP levels in hippocampus. Electron microscopy was performed to determine the number of mitochondria in the hippocampus of Aldh5a1^−/− mice. Adenosine triphosphate (ATP) levels were measured in hippocampal extracts.

Results

Our results show that the KD increases the number of mitochondria in Aldh5a1^−/− mice. We also show that Aldh5a1^−/− mice have significant reductions in hippocampal ATP levels as compared to controls, and that the KD restores ATP in mutant mice to normal levels.

General significance

Taken together, our data suggest that the KD's actions on brain mitochondria may play a role in the diet's ability to treat murine SSADH deficiency.     

Genetic toolkits of the red alga Pyropia tenera against the three most common diseases in Pyropia farms

Disease outbreaks devastate Pyropia aquaculture farms every year. The three most common and serious diseases are Olpidiopsis‐blight and red‐rot disease caused by oomycete pathogens and green‐spot disease caused by the PyroV1 virus. We hypothesized that a basic genetic profile of molecular defenses will be revealed by comparing and analyzing the genetic response of Pyropia tenera against the above three pathogens. RNAs isolated from infected thalli were hybridized onto an oligochip containing 15,115 primers designed from P. tenera expressed sequence tags (EST)s. Microarray profiles of the three diseases were compared and interpreted together with histochemical observation. Massive amounts of reactive oxygen species accumulated in P. tenera cells exposed to oomycete pathogens. Heat shock genes and serine proteases were the most highly up‐regulated genes in all infection experiments. Genes involved in RNA metabolism, ribosomal proteins and antioxidant metabolism were also highly up‐regulated. Genetic profiles of P. tenera in response to pathogens were most similar between the two biotrophic pathogens, Olpidiopsis pyropiae and PyroV1 virus. A group of plant resistance genes were specifically regulated against each pathogen. Our results suggested that disease response in P. tenera consists of a general constitutive defense and a genetic toolkit against specific pathogens.     

Neurotransmitter alterations in embryonic succinate semialdehyde dehydrogenase (SSADH) deficiency suggest a heightened excitatory state during development

Background  

SSADH (aldehyde dehydrogenase 5a1 (Aldh5a1); γ-hydroxybutyric (GHB) aciduria) deficiency is a defect of GABA degradation in which the neuromodulators GABA and GHB accumulate. The human phenotype is that of nonprogressive encephalopathy with prominent bilateral discoloration of the globi pallidi and variable seizures, the latter displayed prominently in Aldh5a1^-/- mice with lethal convulsions. Metabolic studies in murine neural tissue have revealed elevated GABA [and its derivatives succinate semialdehyde (SSA), homocarnosine (HC), 4,5-dihydroxyhexanoic acid (DHHA) and guanidinobutyrate (GB)] and GHB [and its analogue D-2-hydroxyglutarate (D-2-HG)] at birth. Because of early onset seizures and the neurostructural anomalies observed in patients, we examined metabolite features during Aldh5a1^-/- embryo development.     

Effects of inspiratory oxygen concentration and ventilation method on a model of hemorrhagic shock in rats.

The effect of inspiratory oxygen concentration and the ventilation method on hemorrhagic shock was investigated. Twenty-eight rats were divided into four groups: mechanical ventilation with pure oxygen (M100); mechanical ventilation with air (M21); spontaneous respiration with pure oxygen (S100); and spontaneous respiration with air (S21). Under intravenous pentobarbital anesthesia, hemorrhagic shock (HS) was induced by withdrawal of blood from the femoral artery. Mean arterial blood pressure (MAP) was maintained at 40-50 mmHg for 2 h. After HS, the blood remaining in the reservoir was reinfused. Then survival rate and MAP were monitored for 2 h. Blood samples were withdrawn and vascular reactivity to norepinephrine (NE; 3.0 micrograms/kg) was tested before and after HS. Results were shown by changes in MAP in response to NE. During HS, the survival rate of the S21 group was lower than that of the M100 and S100 groups (p < .05). Before HS, MAPs of M100 and S100 groups were significantly higher than those of M21 and S21 groups (p < .05). In the M100 and M21 groups, MAPs at 2 h after reinfusion were significantly lower than the baseline value (p < .05). Before HS, reactivity to NE of the M21 group was significantly higher than that of the other groups (p < .05). In the M21 group, reactivity to NE after HS was significantly lower than it was before HS (p < .05). Inspiratory oxygen concentration and the ventilation method affect the survival rate and vascular reactivity of the rat hemorrhagic shock model. Selection of the inspiratory oxygen concentration and the ventilation method should be made according to the purpose of the individual experiment.     

Deficiency of metabolite sensing receptor HCA2 impairs the salutary effect of niacin in hemorrhagic shock

Inflammation and cellular energetics play critical roles in organ dysfunction following hemorrhagic shock. Recent studies suggest a putative role for sirtuin 1 (SIRT1) in potentiating mitochondrial function and improving organ function following hemorrhagic shock in animal models. SIRT1 is an NAD⁺ dependent protein deacetylase and increased availability of NAD⁺ has been shown to augment SIRT1 activity. As niacin is a precursor of NAD⁺, in this study, we tested whether niacin can improve survival following hemorrhagic shock. However niacin also mediates its biological action by binding to its receptor, hydroxyl-carboxylic acid receptor 2 (HCA2 or Gpr109a); so we examined whether the effect of niacin is mediated by binding to Gpr109a or by increasing NAD⁺ availability. We found that niacin administered intravenously to rats subjected to hemorrhagic injury (HI) in the absence of fluid resuscitation resulted in a significantly prolonged duration of survival. However, treatment of rats with similar doses of nicotinamide mononucleotide (NMN), a precursor to NAD⁺ that does not bind Gpr109a, did not extend survival following HI. The duration of survival due to niacin treatment was significantly reduced in Gpr109a^?/? mice subjected to HI. These experiments demonstrated that the Gpr109a receptor-mediated pathway contributed significantly to niacin mediated salutary effect. Further studies showed improvement in markers of cellular energetics and attenuation of inflammatory response with niacin treatment. In conclusion, we report that Gpr109a-dependent signalling is important in restoring cellular energetics and immunometabolism following hemorrhagic shock.     

不同液体复苏方式对失血性休克大鼠血流动力学的影响

目的:探讨不同液体复苏对失血性休克大鼠血流动力学的影响及机制。方法:Wistar大鼠40只,随机分为5组:假手术组、休克组、乳酸林格液(RL)复苏组、羟乙基淀粉(HES)复苏组、自身血液(BL)复苏组,每组8只,建立失血性休克大鼠模型。在失血性休克大鼠模型复制成功后1h给予对应液体复苏2h。观察并记录各组大鼠的血流动力学变化:收缩压(SBP)、舒张压(DBP)、平均动脉压(MAP)、呼吸频率(RR)和心率(HR)。结果:三组液体复苏组休克时的SBP、DBP、MAP均较休克前低,HR、RR较休克前明显加快(P<0.05)。RL复苏组各时间点SBP、DBP、MAP明显低于休克前(P<0.05)。HES组、BL组复苏各时间点SBP、DBP、MAP与休克前相近(P>0.05),但明显高于RL组。RL组各时间点RR明显快于休克前(P<0.05),HES组、BL组复苏各时间点RR与休克前相近(P>0.05),但明显低于RL组。RL组复苏60min、90min、120min的HR明显快于休克前(P<0.05),HES组、BL组苏各时间点HR同休克前相近(P>0.05),但60min、90min、120min的HR明显低于R...     

Genome-wide association reveals genetic effects on human Aβ <Subscript>42</Subscript> and τ protein levels in cerebrospinal fluids: a case control study

Background  

Alzheimer's disease (AD) is common and highly heritable with many genes and gene variants associated with AD in one or more studies, including APOE ε2/ε3/ε4. However, the genetic backgrounds for normal cognition, mild cognitive impairment (MCI) and AD in terms of changes in cerebrospinal fluid (CSF) levels of Aβ_1-42, T-tau, and P-tau_181P, have not been clearly delineated. We carried out a genome-wide association study (GWAS) in order to better define the genetic backgrounds to these three states in relation to CSF levels.     

IL-10 deficiency augments acute lung but not liver injury in hemorrhagic shock

In hemorrhagic shock and trauma, patients are prone to develop systemic inflammation with remote organ dysfunction, which is thought to be caused by pro-inflammatory mediators. This study investigates the role of the immuno-modulatory cytokine IL-10 in the development of organ dysfunction following hemorrhagic shock. Male C57/BL6 and IL-10 KO mice were subjected to volume controlled hemorrhagic shock for 3 h followed by resuscitation. Animals were either sacrificed 3 or 24 h after resuscitation. To assess systemic inflammation, serum IL-6, IL-10, KC, and MCP-1 concentrations were measured with the Luminex? multiplexing platform; acute lung injury (ALI) was assessed by pulmonary myeloperoxidase (MPO) activity and lung histology and acute liver injury was assessed by hepatic MPO activity, hepatic IL-6 levels, and serum ALT levels. There was a trend towards increased IL-6 and KC serum levels 3 h after resuscitation in IL-10 KO as compared to C57/BL6 mice; however this did not reach statistical significance. Serum MCP-1 levels were significantly increased in IL-10 KO mice 3 and 24 h following resuscitation as compared to C57/BL6 mice. In IL-10 KO mice, pulmonary MPO activity was significantly increased 3 h following resuscitation and after 24 h histological signs of acute lung injury were more apparent than in C57/BL6 mice. In contrast, no significant differences in any liver parameters were detected between IL-10 KO and C57/BL6 mice. Our data indicate that an endogenous IL-10 deficiency augments acute lung but not liver injury following hemorrhagic shock.     

Sequential interactions of silver–silica nanocomposite (Ag–SiO2NC) with cell wall,metabolism and genetic stability of Pseudomonas aeruginosa,a multiple antibiotic‐resistant bacterium

The study was carried out to understand the effect of silver–silica nanocomposite (Ag–SiO₂NC) on the cell wall integrity, metabolism and genetic stability of Pseudomonas aeruginosa, a multiple drug‐resistant bacterium. Bacterial sensitivity towards antibiotics and Ag–SiO₂NC was studied using standard disc diffusion and death rate assay, respectively. The effect of Ag–SiO₂NC on cell wall integrity was monitored using SDS assay and fatty acid profile analysis, while the effect on metabolism and genetic stability was assayed microscopically, using CTC viability staining and comet assay, respectively. Pseudomonas aeruginosa was found to be resistant to β‐lactamase, glycopeptidase, sulfonamide, quinolones, nitrofurantoin and macrolides classes of antibiotics. Complete mortality of the bacterium was achieved with 80 μg ml^?1 concentration of Ag–SiO₂NC. The cell wall integrity reduced with increasing time and reached a plateau of 70% in 110 min. Changes were also noticed in the proportion of fatty acids after the treatment. Inside the cytoplasm, a complete inhibition of electron transport system was achieved with 100 μg ml^?1 Ag–SiO₂NC, followed by DNA breakage. The study thus demonstrates that Ag–SiO₂NC invades the cytoplasm of the multiple drug‐resistant P. aeruginosa by impinging upon the cell wall integrity and kills the cells by interfering with electron transport chain and the genetic stability.

Significance and Impact of Study

Although the synthesis, structural characteristics and biofunction of silver nanoparticles are well understood, their application in antimicrobial therapy is still at its infancy as only a small number of microorganisms are tested to be sensitive to nanoparticles. A thorough knowledge of the mode of interaction of nanoparticles with bacteria at subcellular level is mandatory for any clinical application. The present study deals with the interactions of Ag–SiO2NC with the cell wall integrity, metabolism and genetic stability of Pseudomonas aeruginosa, which would contribute substantially in strengthening the therapeutic applications of silver nanoparticles.     

The postprandial use of dietary amino acids as an energy substrate is delayed after the deamination process in rats adapted for 2 weeks to a high protein diet

The aim of this study was to determine the contribution of dietary amino acids (AA) to energy metabolism under high protein (HP) diets, using a double tracer method to follow simultaneously the metabolic fate of α-amino groups and carbon skeletons. Sixty-seven male Wistar rats were fed a normal (NP) or HP diet for 14 days. Fifteen of them were equipped with a permanent catheter. On day 15, after fasting overnight, they received a 4-g meal extrinsically labeled with a mixture of 20 U-[¹⁵N]-[¹³C] AA. Energy metabolism, dietary AA deamination and oxidation and their transfer to plasma glucose were measured kinetically for 4 h in the catheterized rats. The transfer of dietary AA to liver glycogen was determined at 4 h. The digestive kinetics of dietary AA, their transfer into liver AA and proteins and the liver glycogen content were measured in the 52 other rats that were killed sequentially hourly over a 4-h period. [¹⁵N] and [¹³C] kinetics in the splanchnic protein pools were perfectly similar. Deamination increased fivefold in HP rats compared to NP rats. In the latter, all deaminated AA were oxidized. In HP rats, the oxidation rate was slower than deamination, so that half of the deaminated AA was non-oxidized within 4 h. Non-oxidized carbon skeletons were poorly sequestrated in glycogen, although there was a significant postprandial production of hepatic glycogen. Our results strongly suggest that excess dietary AA-derived carbon skeletons above the ATP production capacity, are temporarily retained in intermediate metabolic pools until the oxidative capacities of the liver are no longer overwhelmed by an excess of substrates.     

Survival and metabolism of <Emphasis Type="Italic">Rana arvali</Emphasis>s during freezing

Freeze tolerance and changes in metabolism during freezing were investigated in the moor frog (Rana arvalis) under laboratory conditions. The data show for the first time a well-developed freeze tolerance in juveniles of a European frog capable of surviving a freezing exposure of about 72 h with a final body temperature of −3°C. A biochemical analysis showed an increase in liver and muscle glucose in response to freezing (respectively, 14-fold and 4-fold between 4 and −1°C). Lactate accumulation was only observed in the liver (4.1 ± 0.8 against 16.6 ± 2.4 μmol g⁻¹ fresh weight (FW) between 4 and −1°C). The quantification of the respiratory metabolism of frozen frogs showed that the aerobic metabolism persists under freezing conditions (1.4 ± 0.7 μl O₂ g⁻¹ FW h⁻¹ at −4°C) and decreases with body temperature. After thawing, the oxygen consumption rose rapidly during the first hour (6-fold to 16-fold) and continued to increase for 24 h, but at a lower rate. In early winter, juvenile R. arvalis held in an outdoor enclosure were observed to emerge from ponds and hibernate in the upper soil and litter layers. Temperature recordings in the substratum of the enclosure suggested that the hibernacula of these juvenile frogs provided sheltering from sub-zero air temperatures and reduced the time spent in a frozen state corresponding well with the observed freeze tolerance of the juveniles. This study strongly suggests that freeze tolerance of R. arvalis is an adaptive trait necessary for winter survival.     

淋巴液的抗休克作用

目的和方法：应用显微电视录象设备和活体大鼠肠系膜微循环观察技术,观察胸导管淋巴液对重症失血性休克大鼠血压和微循环障碍的影响,以探讨淋巴液的抗休克作用及其机制。结果：淋巴液治疗组大鼠存活时间（７０３ｈ）显著高于白蛋白对照组（２０５ｈ）。治疗组输入胸导管淋巴液后血压显著回升,血液流态改善,有效地解除肠系膜细动、静脉和微淋巴管（ＭＬ）静态口径的病理性收缩,ＭＬ收缩分数、总收缩活性指数及淋巴管动力学指数恢复正常,而白蛋白对照组的微血管口径及三个ＭＬ收缩性指数仍处于休克时水平,且明显低于治疗组（Ｐ＜０．０１）。结论：淋巴液具有良好的抗休克作用,其机制可能与显著改善休克时的微循环障碍和提升血压有关     

沙漠干热环境创伤失血性休克猪模型的氧代谢特点

目的:探讨沙漠干热环境创伤失血性休克猪的氧代谢特点。方法:选择长白仔猪40头,随机分为四组:常温假手术组(NS)、常温创伤失血性休克组(NTHS)、干热假手术组(DS)、干热创伤失血性休克组(DTHS),分别置于相应的环境暴露3小时后,进行麻醉,动静脉置管,NTHS组和DTHS组分别自剖腹术后,行左下叶1/4肝脏切除及脾切除术后,再快速放血至平均动脉压(MAP)降至45±5mmHg;NS组和DS组仅行腹中线剖腹术。持续检测计算动脉、混合静脉氧饱和度、氧含量及氧输送(DO_2)、氧耗(VO_2)、氧摄取率(O_2ER)和动脉血乳酸(Lac)。结果:整个病程中,各组动脉氧饱和度均无显著变化。DTHS组混合静脉氧饱和度和氧含量均较相同时间点的其他各组低,DO_2、VO_2、O_2ER均显著高于常温环境组(P0.05)。模型成功后,NTHS组和DTHS组DO_2均经历"下降-代偿-稳定"的过程,但DTHS组短暂稳定后立即呈进行性快速下降至到动物死亡。在实验过程中,DTHS组各时间点氧摄取率(O_2ER)均高于相同时间点的其他组,差异具有统计学意义(P0.05)。NTHS组和DTHS组氧O_2ER均在休克后0 h出现明显变化,而动脉血乳酸(Lac)在休克后1.5 h才出现明显变化,但DTHS组动脉Lac增高较NTHS组升高更加明显(P0.05),且进展迅速。结论:(1)沙漠干热环境创伤失血性休克较高的氧代谢,是机体代偿能力弱、病程变化快的重要原因之一;(2)VO_2、O_2ER等直接氧代谢指标可作为早期评估监测机体氧代谢的敏感指标;(3)血Lac浓度可能是反映干热环境创伤失血性休克严重程度的重要指标。