Carotid ligation alters cholecystokinin-8 (CCK-8) immunoreactivity in gerbil brains

The unilateral or bilateral carotid arteries were ligated in gerbils used as a model of cerebral ischemia. The effect of different times of bilateral ischemia on the content of CCK-8 in fore regions of gerbil brain and the effect of 30 min of unilateral ischemia on the content of CCK-8 of the same regions in gerbils with or without neurological signs were observed. Our results show that the content of CCK-8 of cortex, basal ganglia, thalamus and hypothalamus decreased significantly. But, in brain stem it remained basically unchanged no matter whether the ischemia was unilateral or bilateral. This suggests that there is a close relationship between CCK-8 and cerebral ischemia, and raises the possibility that CCK-8 may be involved in cerebral ischemia through a yet unclear mechanism.     

Effect of opioids on delayed neuronal death in the gerbil hippocampus

The effect of opioids on delayed neuronal death was evaluated in the gerbil hippocampus. Male Mongolian gerbils were subjected to transient forebrain ischemia and neuronal density was evaluated in the hippocampus 7 days following ischemia. When hypothermia during and after ischemia was prevented treatment with morphine, U-50488H, or naloxone provided no significant protection. In contrast, a spontaneous drop in rectal temperature to 32°C at the end of ischemia produced near-complete protection of CA₁ pyramidal neurons. No opioids modulate the protective effect of hypothermia.     

沙鼠脑缺血模型特点及应用的研究进展

脑缺血因其高的发病率而成为近年来研究的热点。用于研究脑缺血的动物模型较多,其中沙鼠因大脑基底动脉环先天性发育不完全而成为脑缺血研究的较理想模型。沙鼠脑缺血模型在研究单侧脑缺血和全脑缺血方面都具有独特的优势,在研究脑缺血后脑区的病理变化、再灌注损伤机制及开发脑保护药方面都得到十分广泛的应用。本文针对不同脑缺血模型尤其是沙鼠模型的制作方法、优缺点及应用领域,将近年来国内外相关研究文献进行较为系统的梳理和综述。     

Naloxone or TRH fails to improve neurologic deficits in gerbil models of “stroke”

The effects of naloxone or thyrotropin releasing hormone (TRH) upon neurologic outcome were evaluated in gerbil models of cerebral ischemia. Following temporary bilateral carotid occlusion, hypotension was transiently reversed by these endorphin antagonists. However, neither drug altered time to awaken, time to death, or the severity of neurologic signs (ptosis, movement, retracted paws, circling, righting reflexes, seizures, or opisthotonus) when evaluated by a blinded rater. Hot plate escape and roto-rod performance were also unaltered by naloxone or TRH; TRH, but not naloxone, increased respiratory rates. Thus, the transient improvement of cardiorespiratory function produced by these drugs is unrelated to the morbidity and mortality associated with temporary cerebral ischemia in the gerbil. Additional studies evaluating the effects of naloxone or TRH upon neurologic outcome following permanent unilateral carotid occlusion also failed to show any therapeutic effects of these drugs. Both morphine and TRH exacerbated the effects of ischemia. Of gerbils which developed neurologic impairment, the deficit was usually ipsilateral to the occluded carotid. Collectively, these results indicate that neither naloxone nor TRH prevents ischemic deficits in the gerbil. Further studies with different cerebral ischemia models in other species are required to clarify the possible therapeutic effects of these drugs in experimental stroke.     

Neuroprotective potential of group I metabotropic glutamate receptor antagonists in two ischemic models

The neuroprotective potential of mGluR1 and mGluR5 antagonists (group I), EMQMCM and MTEP, respectively was studied using the 3 min forebrain ischemia model in Mongolian gerbils and the hypoxia-ischemia model in 7-day-old rats. Hypoxia-ischemia was induced by unilateral carotid occlusion followed by 75 min exposure to hypoxia (7.3% O(2) in N(2)), forebrain ischemia in gerbils was evoked by bilateral common carotid artery occlusion. The postischemic rectal body temperature in rat pups or brain temperature of gerbils was measured. The drugs were administered i.p. three times every 2 h after the insult, each time in equal doses of 1.25, 2.5 or 5.0 mg/kg. After 2 weeks brain damage was evaluated as weight decrease of the ipsilateral hemisphere in the rat pups or damage to CA1 pyramids in the gerbil hippocampus. The results demonstrated a dose dependent neuroprotection in both ischemic models by EMQMCM, while MTEP was neuroprotective only in the gerbil model of forebrain ischemia. EMQMCM reduced postischemic hyperthermia in gerbils. Thus, the antagonists of mGluR1 and mGluR5 show differential neuroprotective ability in two models of brain ischemia. Postischemic hypothermia may be partially involved in the mechanism of neuroprotection following EMQMCM in gerbils.     

mito KATP和κ-阿片受体介导肢体缺血后处理对抗大鼠脑缺血／复灌损伤

目的：观察肢体缺血后处理（LIPC）在大鼠局灶性脑缺血／复灌损伤中的神经保护作用及其作用机制。方法：将大鼠随机分为6组：空白对照组,单侧LIPC组,双侧LIPC组（bLIPC）,bLIPC＋mito KATP阻断剂5-lydroxydecanoate（5-HD））预处理组,bLIPC＋κ-阿片受体拮抗剂nor-binaltorphimine（nor-BNI）预处理组,bLIPC＋双侧后肢体外循环组。采用线栓法建立大鼠大脑中动脉栓塞（MCAO）模型,术后进行神经系统症状评分,血浆强啡肽和脑啡肽水平测定,大脑梗死面积测定。结果：单侧L1PC能改善大鼠局灶性脑缺血／复灌损伤后的神经系统功能评分（P〈0．05）,并减少大脑梗死面积（P〈0．01）;而双侧12PC能显著提高大鼠局灶性脑缺血／复灌损伤后的神经系统功能评分,并显著减少大脑梗死面积（P〈0．01）,比单侧LIPC的作用更为明显（P〈0．05）。双侧L／PC后5、15、30min,1和2h这五个时间点,血浆强啡肽水平显著增高（P〈0．01）,12和24h这两个时间点恢复至正常水平;而血浆脑啡肽水平的改变与双侧LIPC前比较无显著差异（P〉0．05）。nor-BNI预处理（25nmol）和5-HD预处理（10mg／kg）均消除了双侧LIPC所致的神经系统功能评分增加和大脑梗死面积减少（P〈0．01）。结论：LIPC在大鼠局灶性脑缺血／复灌损伤中具有显著的神经保护作用,其作用可能与LIPC诱导内源性阿片激动剂释放和激活mito KATP有关。     

Effects of dynorphin (1-8) on movement: non-opiate effects and structure-activity relationship

Cell bodies in the head of the caudate nucleus that synthesize prodynorphin peptides form a substantial projection to the substantia nigra pars reticulata (SNR). The discovery of this pathway suggested an involvement of prodynorphin products in motor control. The effects of unilateral nigral microinjections of prodynorphin products were tested in an in vivo circling model. Dynorphin (1-8), dynorphin (1-7), dynorphin (1-6), dynorphin (2-17) (des-Tyr-dynorphin), and Leu-enkephalin induced spontaneous contralateral circling at 20 nmol doses. The effect of dynorphin (1-8) was dose dependent and was not blocked by pretreatment with naloxone or WIN 44,441-3. These findings clearly demonstrate the dynorphinergic involvement in nigral motor control which may consist of an opioid and a non-opioid component.     

Increased dynorphin immunoreactivity in spinal cord after traumatic injury

Opiate antagonists, at high doses, have been shown to improve physiological variables and outcome after experimental spinal injury. Dynorphin appears to be unique amongst opioids in producing hindlimb paralysis after intrathecal injection. Taken together, these findings suggest a possible pathophysiological role for endogenous opioids, particularly dynorphin, in spinal injury. In the present studies we examined the relationship between changes in dynorphin immunoreactivity (Dyn-ir) in rat spinal cord after traumatic injury and the subsequent motor dysfunction. Trauma was associated with significantly increased Dyn-ir at the injury site, but not distant from the lesion. Dyn-ir was found elevated as early as 2 h and as late as 2 weeks after trauma, and was significantly correlated with the degree of injury. These data are consistent with the hypothesis that dynorphin systems may be involved in the secondary injury that follows spinal trauma.     

内源性阿片物质参与大鼠缺血预处理的心肌保护作用

实验以离体灌流的ＳＤ大鼠心脏为模型,用ｋ特异性拮抗剂的ＭＲ２２６６研究ｋ阿片受体的阻断与缺血预处理的关系,用放射免疫分析法研究ＩＰ及长时间缺血对心肌强啡肽Ａ１－１３浓度的影响,探索Ｋ阿片物质在ＩＰ过程中的作用和地位。     

Flow threshold for enhanced phorbol ester binding in the ischemic gerbil brain

The correlation between regional phorbol ester binding and cerebral blood flow (CBF) was evaluated in the gerbil brain after 2-hour unilateral common carotid artery occlusion [³H]phorbol 12, 13-dibutyrate (PDBu) was used as a specific ligand for estimating the translocation of protein kinase C (PKC), and CBF was determined by the [¹⁴C]iodoantipyrine method. A quantitative autoradiographic method permitted concurrent measurement of these two parameters in the same brain. In the ischemia group of the animals, statistically significant, inverse correlations were noted between the CBF and PDBu binding in the hippocampus (CA₁ and CA₃ regions and dentate gyrus), the caudate-putamen and lateral nuclei of the thalamus. In these regions, the PDBu binding increased progressively as CBF fell below 35–40 ml/100 g/min. On the other hand, the PDBu binding in the cerebral cortices did not show any significant changes even when CBF was decreased to below 35 ml/100 g/min. The above data suggest that (1) the translocation of PKC to the cell membrane may be regionally specific in response to ischmia and may remain in the regions particularly vulnerable to ischemia such as the hippocampus, caudate-putamen and lateral nuclei of the thalamus in the early ischemic phase; (2) the threshold of CBF below which PKC begins to translocate to the cell membrane in the above regions, may be 35–40 ml/100 g/min in 2-hour ischemia.     

Comparison of Glial Activation in the Hippocampal CA1 Region Between The Young and Adult Gerbils After Transient Cerebral Ischemia

It has been reported that young animals are less vulnerable to brain ischemia. In the present study, we compared gliosis in the hippocampal CA1 region of the young gerbil with those in the adult gerbil induced by 5?min of transient cerebral ischemia by immunohistochemistry and western blot for glial cells. We used male gerbils of postnatal month 1 (PM 1) as the young and PM 6 as the adult. Neuronal death in CA1 pyramidal neurons in the adult gerbil occurred at 4?days posti-schemia; the neuronal death in the young gerbil occurred at 7?days post-ischemia. The findings of glial changes in the young gerbil after ischemic damage were distinctively different from those in the adult gerbil. Glial fibrillary acidic protein-immunoreactive astrocytes, ionized calcium-binding adapter molecule (Iba-1), and isolectin B4-immunoreactive microglia in the ischemic CA1 region were activated much later in the young gerbil than in the adult gerbil. In brief, very less gliosis occurred in the hippocampal CA1 region of the young gerbil than in the adult gerbil after transient cerebral ischemia.     

黑龙江省齐齐哈尔医学院第三附属医院神经内科

脑卒中后运动功能恢复的机制尚未完全阐明。研究表明中风后功能的恢复与大脑可塑性有关,本文旨在阐述近年对一侧脑缺血后双侧大脑半球的活动的研究成果。     

Alteration of ryanodine receptor in the hippocampus CA1 after hemispheric cerebral ischemia

Alterations in ryanodine binding and local cerebral blood flow (LCBF) were examined at 30 minutes and 2 hours post-ischemia in the gerbil brain in order to evaluate the influence of cerebral ischemia on the intracellular channels of Ca²⁺-induced Ca²⁺ release (CICR). Severe hemispheric cerebral ischemia was induced by occluding the right common carotid artery. LCBF was measured at the end of the experiment using [¹⁴C]iodoantipyrine method, and the ryanodine binding was evaluated in vitro using [³H]ryanodine as a specific ligand for CICR channels. An autoradiographic method developed in our laboratory enabled us to determine both parameters within the same brain. A group of gerbils who underwent a sham procedure served as controls. LCBF was found to be significantly reduced in most of the cerebral regions on the occluded side at both 30 minutes as well as 2 hours post-ischemia. In contrast, a significant reduction in ryanodine binding was noted only in the hippocampus CA1 on the occluded side at 30 minutes and 2 hours after the occlusion. These findings suggest that regionally specific changes of CICR may be the cause of decreased ryanodine binding in the hippocampus CA1, and that these changes may be related to the pathophysiological mechanisms that cause this region to be particularly vulnerable to ischemia.     

Synthesis and biological evaluation of radioiodinated 2NUBTA as a cerebral ischemia marker

N-[4-(Benzothiazol-2-yl)phenyl]-11-(2-nitroimidazole-1-yl)undecanamide (2NUBTA) was synthesized and radiolabeled with iodine-131. In vitro evaluation of the [¹³¹I]2NUBTA using murine sarcoma S180 cells showed increase in radioactivity in hypoxic cells up to 4 h, while it was not in aerobic cells. Its potential as a cerebral ischemia marker was evaluated using gerbil stroke models that had been subjected to right common carotid artery ligation to produce cerebral ischemia. The uptake in the right cerebral hemisphere decreased slowly than that of the left and the right/left hemisphere uptake ratios increased with time going on. It indicated that [¹³¹I]2NUBTA might be a possible cerebral ischemia marker.     

Effects of α-Phenyl-N-tert-butyl Nitrone (PBN) on Compression Injury of Rat Spinal Cord

-Phenyl-N-tert-butyl Nitrone (PBN) is a free radical scavenger which recently has proved to be neuroprotective in experimental studies on focal cerebral ischemia and infarction. We therefore studied the effect of this drug in a model of moderate compression injury to rat spinal cord at the midthoracic level. The compound was given intraperitoneally 0.5 h before (100 mg/kg b.w) and at 1.5 h (50 mg/kg b.w) and 3.5 h (50 mg/kg b.w) after compression. Treated animals and controls (vehicle alone) were allowed to survive for 1 or 9 days following trauma. The functional outcome was tested by the inclined plane method and the motor performance score. By using MAP2 immuno-staining the number of nerve cell bodies in the ventral horn and the ratio of MAP2 immunostained area to area of whole section of the cord were assessed to detect loss of neurons and loss of dendrites in the compressed segment. pAPP and PGP9.5 immunostaining was used to demonstrate axonal lesions.

Treated and control rats showed at day 1 when tested with the inclined plane method a marked reduction of the capacity angle. This abnormality recovered gradually over the following days and was normalized at day 9. The motor performance score showed a marked reduction at day 1 which almost normalized at day 9. There was no difference regarding the functional outcome between rats given PBN and controls in none one of these functional tests.

The spinal cord of normal rats presented immunoreactivity to MAP2 in nerve cell bodies and dendrites but not in axons and other structures. Following compression there was at day 1 and 9 a marked loss of MAP2 immunoreactivity in dendrites and nerve cell bodies. We could not detect any difference between the PBN and the control rats regarding the degree of cell loss or degree of reduction of dendrite staining. No difference between the two groups was seen with the axonal immunostainings (βAPP and PGP9.5).

In conclusion, our study did not reveal any neuroprotective effect of PBN on the functional outcome and morphology (immunostaining to MAP2, pAPP and PGP9.5) in this model of moderate compression trauma to rat spinal cord.     

A Dual-Probe Microdialysis Study in Simultaneously Monitoring Extracellular Pyruvate, Lactate, and Biogenic Amines in Gerbil Striata during Unilateral Cerebral Ischemia

A dual-probe microdialysis technique coupled with liquid chromatographic assays was developed for the simultaneous monitoring of neurochemicals in gerbil striata during cerebral ischemia. Isocratic separation of lactate and pyruvate was achieved within 5 min whereas the separation of biogenic amines was completed within 30 min. An unilateral ligation was produced by occlusion of the right common carotid artery for 30 mins in anethetized gerbils to perform a typical focal cerebral ischemia. Microdialysis probes were inserted in both sides of the striata to simultaneously monitor biogenic amines, lactate and pyruvate during cerebral ischemia. Dynamic and comparative changes of these analytes in ipsilateral and contralateral sides of the brain can be simultaneously measured by the assay. The present assay can be used as a research tool to explore neurochemical substances and their relationships during cerebral ischemia.     

Repeated cerebral ischemia induced hippocampal cell death and impairments of spatial cognition in the rat

We developed a method of causing strong ischemic insult only in vulnerable nerve cells, such as hippocampal cells, without causing hemiplegia or difficulty in moving, by repeating cerebral ischemia for a brief time with a short interval periods. The rats subjected to 10 min of cerebral ischemia exhibited no impairment of spatial cognition at the test trial 7 days after final reperfusion. However, when the 10 min ischemia was repeated twice with a 1 hr interval, the rats exhibited a significant decrease in number of correct choices and increase in number of errors. Three times of repeated cerebral ischemia also induced a significant decrease in the number of correct choices and increase in the number of errors, but there were some rats showing motor difficulty. Cell death was typically observed in the CA1 layer of the hippocampus of rats subjected twice to 10 min of cerebral ischemia. Hippocampal and cortical acetylcholine (ACh) release weas transiently increased during the first and second 10 minutes of ischemia and normalized immediately after recirculation; thereafter, ACh release from these areas gradually decreased and showed a significantly low level at 7 days after recirculation. These results suggest that the repeated cerebral ischemia-induced impairment of spatial memory may be due to the dysfunction of hippocampal and cortical ACh systems and hippocampal cell death. The repeated cerebral ischemia model which produces cell death and ACh dysfunction in the hippocampus is thought to be useful for evaluating new drugs for the treatment of cerebrovascular dementia.     

Increased expression of glucose transporter 3 in gerbil brains following magnesium sulfate treatment and focal cerebral ischemic injury

Glucose is the primary energy substrate for neurons. Glucose transporter 3 (Glut3) localizes at the neuronal cellular membrane, which transports glucose from the extracelluar space into neurons. Ischemia results in an increased energy demand that is associated with profound changes in brain energy metabolism. Magnesium sulfate (MgSO₄) ameliorates ischemia‐induced neuronal death in the rat and gerbil model. We investigated the effects of MgSO₄ administration on the expression of Glut3 in cortex and hippocampus of gerbils during ischemia. The focal cerebral ischemia was produced by unilateral occlusion of the right common carotid artery and right middle cerebral artery. Following ischemia, Glut3 expression increased significantly versus non‐ischemic (contra‐lateral) cortex and hippocampus. MgSO₄ treatment significantly increased the level of Glut3 expression in the non‐ischemic and ischemic cortex and hippocampus. We found that the MgSO₄‐induced increase in Glut3 expression was not reversed by administration of U0126, a MEK kinase inhibitor. These results suggest that other factors may function to modulate the MgSO₄‐induced Glut3 response. In all, our data showed that MgSO₄ increases the expression of Glut3 in the cortex and hippocampus of gerbil brains both in non‐ischemia and ischemia status. However, the MEK signaling pathway might not be involved in MgSO₄‐induced Glut3 expression following focal ischemia. Copyright © 2010 John Wiley & Sons, Ltd.     

Different Expression Patterns of Ngb and EPOR in the Cerebral Cortex and Hippocampus Revealed Distinctive Therapeutic Effects of Intranasal Delivery of Neuro-EPO for Ischemic Insults to the Gerbil Brain

The purpose of this study was to evaluate the neuroprotective effects of intranasally delivered recombinant human neuronal erythropoietin (Neuro-EPO) on brain injury induced by unilateral permanent ischemia in the Mongolian gerbil. Expression of EPO receptor (EPOR) and neuroglobin (Ngb) over 5 weeks after intranasal treatment with Neuro-EPO was determined using immunohistochemistry. Mortality of Neuro-EPO-treated gerbils decreased after surgery, and the sensory and motor function was significantly improved. Histopathological mapping showed that Neuro-EPO significantly reduced delayed neuronal death in the brain. Expression of Ngb was upregulated in the cerebral cortex at most time points (expect for 10 min and 48 hr) and in the hippocampus at 10 min and from 48 hr to 5 weeks, whereas EPOR was almost downregulated or unchanged in the brain (expect for 48 hr). The 10 min and 48 hr seemed to be two time points for the brain to switch the expression of both Ngb and EPOR to early and late recovery phase, respectively. In addition, there were two phases, 10 min to 1 hr and 24 hr to 72 hr, respectively, closing to the “golden hour” of about 60 min and the “silver day” of 1 to 3 days, for the brain to recover from stroke onset with intranasal Neuro-EPO treatment. Therefore, the results suggest that the intranasal administration of Neuro-EPO is effective in the treatment of acute brain ischemia. The different expression patterns of Ngb and EPOR is probably due to ischemic tolerance in the cerebral cortex and ischemic sensitivity in the hippocampus.     

一种改进的小鼠局灶性脑缺血神经症状定量评价方法

本文旨在建立一种客观评价小鼠局灶性脑缺血神经症状的定量方法。在大脑中动脉阻塞诱导局灶性脑缺血后24h,采用悬挂试验分别测定转动的平均角和优势角以及转动次数,并用爬板试验测定小鼠攀爬角度;分析定量测定指标与脑梗死体积、神经元密度的相关性,并与经典的行为学评价方法比较。还以此法观察抗脑缺血药{pranlukast,4-氧-8-[对-(4-苯丁氧基)苯甲酰氨基]-2-(5-四氮基)-4H-1-苯并吡喃半水化合物}(ONO-1078)的作用。结果显示,脑缺血小鼠各项指标均有显著改变,定量评价总分与脑梗死体积、神经元密度减少密切相关,与经典行为学评分之间也密切相关。ONO-1078可显著抑制缺血损伤,并降低定量评价总分。因此,本方法可反映局灶性脑缺血神经症状变化,具有客观、定量、操作简便、无损伤的优点,并能用于评价抗脑缺血药物的作用。