Carnitine pretreatment can partially change the excitability of the immature nervous tissue

The possible protective action of L-carnitine on neuronal excitability was studied in 21-day-old male Wistar rats with implanted electrodes. Administration of L-carnitine did not change the elicitation and duration of the epileptic seizures (cortical afterdischarges, ADs) in rats under normobaric oxygen atmosphere conditions. However, in animals exposed to 30 min hypobaric hypoxia the duration of the ADs was shortened after the second, fourth and sixth stimulation (in comparison with the first evoked ADs) while carnitine-treated rats retained their neuronal excitability and the duration of ADs was shortened only after the third stimulation.     

Dizocilpine pretreatment suppresses the action of hypoxia on hippocampal epileptic afterdischarges in immature rats

Effect of dizocilpine (0.5 mg/kg i.p.) on epileptic afterdischarges elicited by low-frequency electrical stimulation of the dorsal hippocampus was studied in rat pups aged 12 and 18 days. Repeated elicitation of afterdischarges (ADs) in control animals resulted in a progressive increase of the duration of ADs in both age groups. Dizocilpine (MK-801) injected after the first afterdischarge suppressed this prolongation in 12-day-old rats only. Hypobaric hypoxia (simulated altitude of 9000 m for one hour) led to a marked prolongation of the first afterdischarge in both age groups with a tendency to shorter ADs after repeated stimulations. Dizocilpine potentiated this tendency in 12-day-old rat pups so that it became statistically significant. Administration of dizocilpine before hypoxia prevented the increase in duration of the first afterdischarge in both age groups.     

Influence of magnesium sulphate on evoked activity of rat brain after exposure to short-term hypoxia

Young Wistar rats (aged 12, 25 and 35 days) were exposed to short-term (60 min) hypobaric hypoxia of 41 kPa. Cortical afterdischarges (ADs) were evoked by repeated direct stimulation of the sensorimotor cortex and the duration of ADs was monitored to examine the influence of magnesium sulphate injection (0.3 g/kg b.w.). In 12-day-old hypoxia-exposed rats, an increase of the mean duration of ADs after the repeated stimulation appeared. This effect was prevented by magnesium administration. In 25- and 35-day-old rats exposed to hypoxia a shortening of ADs was registered but no specific effect of magnesium sulphate pretreatment was observed. The brain susceptibility and ability to terminate evoked seizures is discussed.     

Effect of short-term or intermittent hypobaric hypoxia on plasma lipids in young rats

Changes in the level of plasma lipids (cholesterol, fatty acids and lipoproteins) were followed in young rats exposed once or repeatedly to hypobaric hypoxia. A single exposure to hypoxia increased the level of LDL lipoproteins but did not influence the concentration of cholesterol and fatty acids in 18-day-old rats. Repeated exposure to hypobaric hypoxia caused a statistically significant increase in the concentration of cholesterol, fatty acids, chylomicra, low density beta-lipoproteins (LDL) and very-low-density beta-lipoproteins (VLDL) in 18-day-old rats, while the level of high-density alpha-lipoproteins (HDL) decreased. In animals that had been repeatedly exposed to hypoxia in their youth, a significant decrease of the LDL lipoprotein fraction was observed at the age of 108 days.     

丹参酮ⅡA 预防慢性缺氧大鼠认知功能障碍的电生理机制

目的:探讨丹参酮ⅡA(TⅡA)预防慢性缺氧大鼠认知功能障碍的电生理机制。方法:将18只雄性SD大鼠(200-250 g)随机分为对照组、模型组(Model组)、TⅡA(10mg/kg.d)治疗组(TⅡA组)。复制慢性缺氧大鼠认知功能障碍模型,并给予相应治疗,在脑片水平运用膜片钳技术检测海马CA1区的LTP变化,并检测海马CA1区锥体细胞的兴奋性变化。结果:(1)给予高频强直刺激(HFS)后各组兴奋性突出后电位(fEPSP)斜率均显著增加,即均可诱发LTP并持续1h以上,但模型组LTP较对照组显著减弱(P<0.05),TⅡA治疗组LTP较模型组明显增强(P<0.05);(2)慢性缺氧使海马CA1锥体细胞放电所需的刺激电流幅度显著增加、阈电位升高、兴奋性降低,同样刺激强度条件下动作电位数量减少,TⅡA干预可明显减轻慢性缺氧对海马CA1锥体细胞的上述抑制。结论:TⅡA可能是通过维持海马CA1锥体细胞的兴奋性、维持海马的突出可塑性减轻慢性缺氧对认知功能的损害。     

姜黄素预防高原缺氧大鼠认知功能障碍的电生理机制

目的：探讨姜黄素（curcumin）预防高原缺氧大鼠认知功能障碍的电生理机制。方法：将30只成年雄性SD大鼠随机分为健康对照组、模型组（Model组）、姜黄索[按体重60rag／（kg·d）】治疗纽（curcumin组）。造模后,检测脑片水平的海马的LTP变化,并运用膜片钳技术检测海马CA1区神经元的电生理变化。结果（1）给予HFS刺激后各组均可诱发LTP并持续1h以上,与对照组比较模型组组HFS刺激后LTP明显被抑制（P〈0．05）,姜黄素可减轻缺氧所致的LTP抑制（P〈0．05）;（2）高原缺氧使海马CA1神经元阈电位升高,动作电位（AP）数量减少,兴奋性降低,姜黄素干预可明显减轻高原缺氧对细胞神经元的抑制。结论：姜黄素可显著改善高原缺氧大鼠认知功能障碍,其可能机制是通过维持海马CA1细胞的兴奋性减轻高原缺氧对认知功能的损伤。     

Nicotine reduces mortality of developing rats exposed to high-altitude hypoxia and partially suppresses the duration of cortical epileptic afterdischarges

Nicotine has been repeatedly reported as substance possessing neuroprotective properties. This study focused on the possible beneficial effects of nicotine against the high-altitude hypoxia (9000 m for one hour). 15 min prior to hypoxia exposition rats (12- and 35-day-old) were treated with nicotine. Next day electrodes have been implanted and the effects of nicotine and hypoxia (or both factors) on duration of afterdischarges (ADs) were tested. Administration of nicotine declined the hypoxia-induced mortality in 35-day-old animals. Nicotine pretreatment had no effect on ADs duration in 12-day-old pups, therefore brought about suppression of ADs in 35-day-old animals. Taken together, our data show that nicotine exhibits an anticonvulsant effect that is age-dependent. The mechanisms of nicotine neuroprotective properties include probably the influence of calcium homeostasis, increase synthesis of variety of growth factors, inhibition of the caspase cascades and antioxidant capability of nicotine.     

Different degrees of lipid peroxidation in the CNS of young and adult rats exposed to short-term hypobaric hypoxia.

The authors studied the effect of short-term (20 min) hypobaric hypoxia at simulated altitudes of 7000 and 9000 m on the peroxidation of lipids in the cerebral cortex, subcortical formations, medulla oblongata and cerebellum of the laboratory rat. In 5- and 21-day-old rats, increased lipoperoxidation was recorded in all the studied regions of the brain. Differences were observed in sensitivity to the degree of hypoxia. In 5-day-old rats the response to both exposures was the same, but in 21-day-old animals exposure at 7000 m stimulated peroxidation in the cerebral cortex only (at 9000 m in all the parts of the CNS examined). In 35-day-old and adult rats, changes in the malondialdehyde concentration were likewise found after exposure at 9000 m, but not in every compartment (in 35-day-old rats in the cerebral cortex and subcortical formations and in adult rats in the cerebral cortex). In young rats, 30 and 60 min after exposure to hypoxia the malondialdehyde concentration was still higher than in older animals.     

Changes in the number of nitrergic neurons following kainic acid administration and repeated long-term hypoxia

Using histochemical analysis (NADPH-diaphorase) we have been investigating the influence of intraperitoneal administration of kainic acid (KA), hypoxia and combination of both these factors on neurons of the hippocampus and on the primary auditory cortex (PAC) in male rats of the Wistar strain. Kainic acid was administered to 18-day-old animals, which were exposed to long-lasting repeated hypoxia from the 2nd till the 17th day of age in a hypobaric chamber (for 8 h a day). At the age of 22 or 90 days, the animals were transcardially perfused with 4 % paraformaldehyde under deep thiopental anesthesia. Cryostate sections were stained to identify NADPH-diaphorase positive neurons that were then quantified in the hippocampus, in the dentate gyrus and in the PAC. In 22-day-old animals both hypoxia and KA increased the number of NADPH-diaphorase positive neurons in the hilus, CA1, CA3 areas of the hippocampus and in the PAC. On the contrary, KA given to hypoxic animals lowered the number of NADPH-diaphorase positive neurons in the dentate gyrus. In 90-day-old animals, hypoxia and KA given to both normoxic and hypoxic animals lowered the number of NADPH-diaphorase positive neurons in some areas of the central nervous system.     

Conduction velocity and spike duration during afterdischarge in neuroendocrine bag cells of Aplysia

Changes in conduction velocity and spike duration during electrically triggered afterdischarges were determined with extracellular recordings from bag-cell neurites of Aplysia. Spikes with high conduction velocity and short duration occurred at the onset of the afterdischarge during the period of high-frequency firing and regular interspike intervals. Later in the afterdischarge, spike frequency and conduction velocity decreased, while spike duration increased. During the short bursts within the later part of the afterdischarge, conduction velocity was highest for the first spike and decreased for successive spikes in the burst. That conduction velocity and spike frequency were both maximal during the first minute of the afterdischarge and lower during the later periods of the spike train supports the hypothesis that changes in the excitability of the bag-cell neurites occur during this firing pattern. Furthermore, the slower conduction velocity and longer duration of spikes from the bag-cell neurites late in the afterdischarge, and late in the individual bursts within the afterdischarge, suggest the hypothesis of enhanced hormone release per action potential during these periods.     

Hippocampal afterdischarges and localization of the stimulating electrodes

Electrically evoked hippocampal afterdischarges are used as a model of partial epileptic seizures with a complex symptomatology and for testing anticonvulsants and toxic substances. Stimulating electrodes were implanted in the dorsal hippocampus of 16 laboratory rats and when the animals had recovered they were stimulated (15-s series, 8 Hz, pulse length 1 ms) with a voltage double the threshold value for a tissue response. The following features of the evoked afterdischarge were evaluated: the duration of the first phase of the afterdischarge, the duration of the non-active interphase, the duration of the second phase and the number of "wet dog shakes" (a constant accompaniment of hippocampal afterdischarges). Localization of the electrodes in the CA1 (n = 7) and CA3 (n = 7) region of the hippocampus made no difference to these parameters and in both cases the measured and evaluated data were the same. The afterdischarges were always accompanied by a marked orientation reaction. The study showed that when using macroelectrodes to stimulate the dorsal hippocampus, their localization in the CA1/CA3 is not of critical importance.     

新生大鼠下丘脑CRF和AVP神经元对急性低氧的应答

目的:观察肾上腺摘除新生大鼠下丘脑促肾上腺皮质激素释放激素(CRF)和精氨酸加压素(AVP)神经元对急性低氧的应答.方法:在低压氧舱中模拟高海拔低氧,用放免法测定AVP和CRP含量.结果:新生大鼠暴露于急性低氧环境下(模拟5 000 m和7 000 m海拔高度,24 h),其下丘脑CRP在3 d和7 d龄大鼠中无明显变化,但14d、21 d和28 d时低于对照;下丘脑AVP在3 d大鼠中亦无变化,但14 d时低于对照,7 d、21 d及28 d时高于对照.两者对低氧的应答模式随日龄而变化.摘除肾上腺后,14 d、21 d及28 d大鼠下丘脑CRF和AVP含量均显著低于同龄完整大鼠,此时暴露于急性低氧环境下,CRF和AVP无进一步的变化.结论:摘除肾上腺抑制下丘脑CRF和AVP的发育,影响它们对低氧应激的正常应答.     

Activity of Lactate Dehydrogenase in Serum and Cerebral Cortex of Immature and Mature Rats after Hypobaric Hypoxia

In our previous studies we have found both an increase of lipid peroxidation damage (expressed as levels of thiobarbituric acid-reactive substances) in brain and plasma lactate concentration in 21-day-old rats after a 30-min exposure to hypobaric hypoxia. Pretreatment of rats with l-carnitine decreased both parameters. The aim of our present study was to determine if the l-carnitine-dependent decrease of plasma lactate could be due to a modification of lactate dehydrogenase (LDH) activity. We followed brain and blood serum LDH activity of 14-, 21- and 90-day-old Wistar rats. We found an increase of brain LDH activity with age. However, we did not observe any significant differences in LDH activity after exposure to hypobaric hypoxia or l-carnitine pretreatment. In contrast to brain, serum LDH activity did not show any clear age-dependence. The hypoxia exposure increased LDH activity of 21-day-old rats only. Pretreatment of rats with l-carnitine decreased serum LDH activity of 21- and 90-day-old rats probably due to membrane stabilizing role of l-carnitine. In conclusions, acute hypobaric hypoxia and/or l-carnitine pretreatment modified serum but not brain LDH activity.     

Significance of ATP-sensitive K(+)-channel in the mechanism of antiarrhythmic and cardioprotective effect of adaptation to intermittent hypobaric hypoxia

Adult male Wistar rats were exposed to intermittent hypobaric hypoxia (5000 m, 6 h/day, 6 weeks). It has been found that such mode of adaptation increased cardiac tolerance to arrhythmogenic action of a 45-min coronary artery occlusion but did not change an infarct size/area at risk (IS/AAR) ratio. In a separate series, rats were exposed to stronger intermittent hypobaric hypoxia (7000 m, 8 h/day, 6 weeks) and subjected to 20-min coronary artery occlusion and 3-h reperfusion on the day after the last hypoxic exposure. It has been established that in this case adaptation decreased the IS/AAR ratio, increased cardiac tolerance to arrhythmogenic action of reperfusion but had no effect on the incidence of ventricular arrhythmias occurred during ischemic period. We found that cardioprotective and antiarrhythmic effect of adaptation to the "altitudes" of 7000 m and antiarrhythmic effect of adaptation to the "altitude" of 5000 m is mediated via K(ATP)-channel activation.     

Impact of chronic ethanol intake of rat mothers on the seizure susceptibility of their immature male offspring

The aim of present study was to examine the impact of prenatal ethanol exposure on seizure susceptibility of the offspring. Pregnant Wistar rats were compelled to drink either 10% or 20% ethanol solution, as the only drinking fluid since conception up to the weaning of their offspring at the age of 28 days. Pregnant and nursing rats of the control group drank water. Electrophysiological experiments (repeated electrical stimulation and analysis of cortical afterdischarges duration) were than performed on their immature offspring. Rat pups were tested on postnatal day 18, 25, and 35. Shortening of afterdischarges duration was observed in 18-day-old animals (mothers drank 20% ethanol) when compared with age matched controls and failure of post-ictal depression phenomenon was found in 25- and 35-day-old animals. Our findings signalize that ethanol exposure during pregnancy influences seizure susceptibility by acting on excitatory/inhibitory brain systems and this effect is dose- and age-dependent.     

Transient hypobaric hypoxia improves spatial orientation in young rats

To achieve a better understanding of learning and declarative memory under mild transient stress, we investigated the effect of brief hypobaric hypoxia on spatial orientation in rats. Young male Wistar rats aged 30 days were exposed for 60 min to hypobaric hypoxia, simulating an altitude of 7,000 m (23,000 ft) either shortly prior to attempting or after mastering an allothetic navigation task in the Morris water maze with a submerged platform. The post-hypoxic group performed significantly better in the navigation task than the control animals (the mean difference in escape latencies was 11 seconds; P=0.0033, two-way ANOVA with repeated measures, group x session). The experimental group also achieved a remarkably higher search efficiency (calculated as a percentage of successful trials per session), especially during the first four days following hypoxic stress (P=0.0018). During the subsequent training, the post-hypoxic group performed better than the control animals, whilst the efficiency levels of both groups progressively converged. Spatial memory retention and recall of well-trained rats were not affected by the transient hypobaric hypoxia. These results indicate that brief hypobaric hypoxia enhances rats' spatial orientation. Our findings are consistent with several studies, which also suggested that mild transient stress improves learning.     

Long-lasting changes in the density of nitrergic neurons following kainic acid administration and chronic hypoxia

Using histochemical analysis (NADPH-diaphorase) we have investigated the influence of intraperitoneal administration of kainic acid (KA), hypoxia and combination of both these factors on neurons of the hippocampus and on the primary auditory cortex (PAC) in male rats of the Wistar strain. Kainic acid was administered to 18-day-old animals, which were exposed to long-lasting repeated hypoxia from the 2nd till the 17th day of age in a hypobaric chamber (for 8 hours a day). At the age of 1 year, the animals were transcardially perfused with 4 % paraformaldehyde under deep thiopental anesthesia. Cryostate sections were stained to identify NADPH-diaphorase positive neurons that were then quantified in CA1 and CA3 areas of the hippocampus, in the dentate gyrus and in the PAC. Both, hypoxia and KA lowered the number of NADPH-diaphorase positive neurons in the hilus, dorsal and ventral blades of the dentate gyrus, CA1 and CA3 areas of the hippocampus. On the contrary, KA given to the hypoxic animals increased the number of NADPH-diaphorase positive neurons in the dorsal blade of the dentate gyrus and PAC.     

The effect of preceding mild hypoxia on the alteration of acquisition and retention of the conditioned passive avoidance behavior caused by severe hypobaric hypoxia in rats

The purpose of this study was to determine whether mild hypobaric hypoxic preconditioning provides protection against learning deficit caused by subsequent more severe hypoxia insult. Learning was examined using a passive avoidance task. Three groups of Wistar male rats: the intact and exposed to either severe hypoxia (160 Torr, exposition 3 h) or mild hypobaric hypoxic preconditioning (360 Torr, exposition 2 h, repeated three or six times daily) followed by severe hypoxia, were included in this study. In experiment 1 a passive avoidance response was acquired in 15 min immediately after hypoxia. In experiment 2 rats were exposed to hypoxia in 60 min after the acquisition of passive avoidance response. The mild hypobaric hypoxic preconditioning significantly attenuated the hypoxia-induced learning deficit in rats in Experiments 1 and 2. In experiment 1 the mild hypobaric hypoxic preconditioning repeated six times was more effective in protection against learning deficit in hypoxia exposed rats than in the case of triple mild hypobaric hypoxic preconditioning. The amount of rats suffered irreversible respiratory arrest was also assessed in this study. It was found that 50% of rats exposed to severe hypoxia died in consequence of this pathology, whereas in rats preconditioned before the severe hypoxia only 15% died for this reason. The overall results indicate that the mild hypobaric hypoxic preconditioning significantly increases CNS resistance to severe hypoxia in rats.     

慢性间歇性低压低氧对大鼠动脉血管收缩功能的影响

本研究旨在探讨慢性间歇性低压低氧(chronicintermittent hypobaric hypoxia,CIHH)对大鼠胸主动脉和肺动脉收缩功能的影响及其机制.雄性Sprague-Dawley大鼠随机分为4组:CIHH处理14天组(CIHH 14)、28天组(CIHH 28)、42天组(CIHH 42)和对照组(...     

Optogenetically Induced Seizure and the Longitudinal Hippocampal Network Dynamics

Epileptic seizure is a paroxysmal and self-limited phenomenon characterized by abnormal hypersynchrony of a large population of neurons. However, our current understanding of seizure dynamics is still limited. Here we propose a novel in vivo model of seizure-like afterdischarges using optogenetics, and report on investigation of directional network dynamics during seizure along the septo-temporal (ST) axis of hippocampus. Repetitive pulse photostimulation was applied to the rodent hippocampus, in which channelrhodopsin-2 (ChR2) was expressed, under simultaneous recording of local field potentials (LFPs). Seizure-like afterdischarges were successfully induced after the stimulation in both W-TChR2V4 transgenic (ChR2V-TG) rats and in wild type rats transfected with adeno-associated virus (AAV) vectors carrying ChR2. Pulse frequency at 10 and 20 Hz, and a 0.05 duty ratio were optimal for afterdischarge induction. Immunohistochemical c-Fos staining after a single induced afterdischarge confirmed neuronal activation of the entire hippocampus. LFPs were recorded during seizure-like afterdischarges with a multi-contact array electrode inserted along the ST axis of hippocampus. Granger causality analysis of the LFPs showed a bidirectional but asymmetric increase in signal flow along the ST direction. State space presentation of the causality and coherence revealed three discrete states of the seizure-like afterdischarge phenomenon: 1) resting state; 2) afterdischarge initiation with moderate coherence and dominant septal-to-temporal causality; and 3) afterdischarge termination with increased coherence and dominant temporal-to-septal causality. A novel in vivo model of seizure-like afterdischarge was developed using optogenetics, which was advantageous in its reproducibility and artifact-free electrophysiological observations. Our results provide additional evidence for the potential role of hippocampal septo-temporal interactions in seizure dynamics in vivo. Bidirectional networks work hierarchically along the ST hippocampus in the genesis and termination of epileptic seizures.