构建大脑中动脉阻塞脑缺血模型大鼠的类型分析

背景：线栓法造成短暂性大脑中动脉阻塞是研究大鼠局灶性脑缺血普遍使用的模型制作方法。但制作大鼠脑缺血模型的类型存在一定差异,可能导致实验结果的偏差。 目的：分析大脑中动脉阻塞线栓法制作大鼠脑缺血模型的类型及其影响因素。 方法：雄性SD大鼠166只,参照Longa线栓法造模,术后24 h行MRI扫描,根据扫描结果将大鼠分成皮质梗死组、皮质下梗死组及无梗死组,分析造模时线栓插入的深度。 结果与结论：皮质梗死组、皮质下梗死组和无梗死组大鼠的线栓插入深度分别为(19.9±0.9),(19.0±1.1)和(17.7±1.3) mm,皮质梗死组大鼠的线栓插入最深,而无梗死组的线栓插入最浅(P < 0.01)。提示插入深度不同导致的大鼠脑梗死的类型也不同,线栓插入越深,皮质梗死的概率可能越大。     

Neuroprotective effects of progesterone after transient middle cerebral artery occlusion in rat

Treatment of focal cerebral ischemia in the rat with intraperitoneal administration of progesterone dissolved in dimethyl sulfoxide (DMSO) has demonstrated therapeutic efficacy. In the present study we test whether iv administration of water soluble progesterone 2 h after the onset of middle cerebral artery occlusion provides therapeutic benefit for the treatment of stroke. In addition, we perform a battery of functional tests: rotarod, adhesive-backed somatosensory, and neurological score, as well as a dose-response study. The data indicate that iv administration of progesterone at a dose of 8 mg/kg significantly reduces the volume of cerebral infarction and significantly improves outcome on the array of functional measures employed. Treatment with 4 mg/kg or 32 mg/kg of progesterone failed to provide any therapeutic benefit. Progesterone, a non toxic, clinically employed, pluripotent therapeutic agent which targets both neuroprotective as well as neuroregenerative strategies, may have important therapeutic benefits for the treatment of stroke.     

Expression of neurocan after transient middle cerebral artery occlusion in adult rat brain

Neurocan is one of the major chondroitin sulfate proteoglycans in the nervous tissues. The expression and proteolytic cleavage of neurocan are developmentally regulated in the normal rat brain, and the full-length neurocan is detected in juvenile brains but not in normal adult brains. Recently, some studies showed that the full-length neurocan was detectable even in the adult brain when it was exposed to mechanical incision or epileptic stimulation. In the present study, we demonstrated by Western blot analysis that the full-length neurocan transiently appeared in the peri-ischemic region of transient middle cerebral artery occlusion (tMCAO) in adult rat with a peak level at 4 days after tMCAO. Immunohistochemical analysis showed that a clear positive signal of neurocan was observed 4 days after tMCAO in the peri-ischemic region of cerebral cortex and caudate, where cells strongly positive in GFAP expression were also distributed. These results indicate that accumulation of the full-length neurocan produced by reactive astrocytes may be one of the processes for tissue repair and reconstruction of neural networks after focal brain ischemia as well.     

Enhanced phosphorylation of PTEN in rat brain after transient middle cerebral artery occlusion

A phosphatase PTEN (phosphatase and tensin homologue deleted on chromosome 10) is a tumor suppressor gene that suppresses cell growth, inhibits cell migration, and induces apoptosis. Phosphorylated form of PTEN (p-PTEN) is a key survival factor relating PI3K-Akt pathway and their downstream effectors. A spatiotemporal profiles of PTEN and p-PTEN expression were immunohistochemically examined after 90 min of transient middle cerebral artery occlusion in rats. In the ischemic core, PTEN progressively decreased by 3 days, whereas a rapid but transient increase of p-PTEN was found with a peak at 1 h after the reperfusion. In contrast, in the ischemic penumbra, PTEN showed a minor change and a gradual but sustained p-PTEN expression was observed in the ischemic penumbra with a peak at 12 h. In addition, the balance of population among strongly, moderately, and weakly stained cells was different between the ischemic core and penumbra at their peak time points. These results suggest an important role of p-PTEN for cell survival after ischemia as an upstream regulator for PI3K-Akt.     

大鼠脑缺血后IL-17mRNA的表达

目的：通过对SD大鼠脑缺血后白细胞介素-17(IL-17)mRNA表达的研究，探讨IL-17在脑缺血中的作用。方法：采用原位杂交和组织化学方法检测实验性大鼠脑缺血后IL-17在大脑组织中的表达。结果：（1）脑缺血侧IL-17mRNA表达较对照组明显增高；（2）IL-17mRNA表达数量随时间延长和损伤面积扩大而增加；（3）脑缺血后随时间延长，T细胞在脑内数量增加。结论：IL-17mRNA表达主要参与大脑损伤后期 反应过程。     

Induction of PML immunoreactivity in rat brain neurons after transient middle cerebral artery occlusion

Abstract

Promyelocytic leukemia (PML) protein is involved in apoptotic death of cultured neuronal cells, but its role in ischemic brain damage remains uncertain. In this study, we investigated change of immunoreactivity for PML protein in rat brain after transient middle cerebral artery occlusion, and compared the results with that of terminal deoxynucleotidyl transferase-mediated dUTP-biotin in situ nick end labeling (TUNEL). Western blotting analysis revealed that PML immunoreactivity was only scant in the sham-control brain, but it increased at 1 h and 1 day after reperfusion, and decreased in density thereafter. Immunohistochemical analysis revealed that nuclei of neurons were most densely stained. TUNEL positive cells appeared at 1 day and peaked at 3 days of reperfusion, indicating that PML protein induction preceded DNA fragmentation in neurons. The present results suggest that PML protein may be one of the key molecules in ischemic neuronal cell death. [Neurol Res 2001; 23: 772-776]     

Loss of bag-1 immunoreactivity in rat brain after transient middle cerebral artery occlusion

Although bag-1 is a strong apoptosis repressor protein, its functions in normal or injured brains are not fully understood. In the present study, we investigated expression of bag-1 protein in rat brain after transient middle cerebral artery (MCA) occlusion, and compared the results with that of terminal deoxynucleotidyl transferase-mediated dUTP-biotin end labeling (TUNEL). Immunohistochemical analysis revealed that neuronal, choroid plexus, and ependymal cells were positively stained in the sham control brain. After 90 min of transient MCA occlusion, immunoreactivity for bag-1 progressively decreased from 3 to 48 h in the nuclei of neurons. Western blot analysis revealed that immunoreactive bag-1 was markedly decreased in the nuclear fraction. In contrast, cytosolic and mitochondrial fractions showed no or only slight change after the ischemia. TUNEL positive cells appeared at 48 h after the reperfusion, which was preceded by loss of bag-1 immunoreactivity. The present results suggest that bag-1 plays some roles in normal neuronal function, and its loss may be involved in neuronal cell death after ischemia.     

Association between glycogen synthase kinase-3beta genetic polymorphism and late-onset Alzheimer's disease

Aberrant phosphorylated tau is the major component of the neurofibrillary tangles in Alzheimer's disease (AD) brains. Glycogen synthase kinase-3beta (GSK-3beta) phosphorylates tau protein, and increased GSK-3beta expression has been associated with neurofibrillary tangles. Saitohin (STH) is a recently identified protein that shares tissue expression pattern with tau, and previous evidence in the Spanish population indicated that a polymorphism at codon 7 (Q7R) of the STH gene was associated with late-onset AD. Since both GSK-3beta and STH are related to tau, we examined the association between a polymorphism in the promoter region (-50) of the GSK-3beta gene and AD, either through an independent effect or through interaction with the STH (Q7R) polymorphism, in a well-defined group of 333 sporadic AD patients and 307 control subjects from Spain. The current study reveals that GSK-3beta (-50) TT genotype is associated with an increased risk (OR 1.99, p = 0.003) for late-onset (after the age of 72 years) AD. Our results indicate that both the GSK-3beta (-50) and STH (Q7R) polymorphisms increase the risk of late-onset (subjects >72 years) AD, although they appear to be independent and thus not to interact synergistically.     

Different expression of low density lipoprotein receptor and ApoE between young adult and old rat brains after ischemia

OBJECTIVES: Reduction of brain plasticity underlies the poor outcome of aged stroke patients. The molecular mechanism of plasticity reduction by aging is uncertain, but disturbed lipid metabolism may be implicated. METHODS: We investigated the expression of low density lipoprotein receptors (LDL-R) and apolipoprotein E (ApoE), both of which play active roles in lipid metabolism in young adult and old rat brains after ischemia. RESULTS: LDL-R, trivially expressed in the sham-operated brain neurons, was increased from day 1 and became prominent at days 7 and 21 at the peri-ischemic cortex. The magnitude was smaller in the old than in the young adult rats. ApoE was increased in the astrocytes and neurons of the peri-ischemic cortex at day 1, which became further pronounced in the neurons but not in the astrocytes at days 7 and 21. ApoE expression was again less prominent in the old animals at days 7 and 21. DISCUSSION: As ApoE-containing lipoprotein is recruited via LDL-R, the present results suggest that old brains had less capability to induce LDL-R, which resulted in impaired recruitment of lipoprotein after the ischemic injury. Impaired lipid recruitment causes disturbance of synaptogenesis and thus brain plasticity reduction. This molecular mechanism may result in poor functional recovery of aged stroke patients.     

Induction of PML immunoreactivity in rat brain neurons after transient middle cerebral artery occlusion.

Promyelocytic leukemia (PML) protein is involved in apoptotic death of cultured neuronal cells, but its role in ischemic brain damage remains uncertain. In this study, we investigated change of immunoreactivity for PML protein in rat brain after transient middle cerebral artery occlusion, and compared the results with that of terminal deoxynucleotidyl transferase-mediated dUTP-biotin in situ nick end labeling (TUNEL). Western blotting analysis revealed that PML immunoreactivity was only scant in the sham-control brain, but it increased at 1 h and 1 day after reperfusion, and decreased in density thereafter. Immunohistochemical analysis revealed that nuclei of neurons were most densely stained. TUNEL positive cells appeared at 1 day and peaked at 3 days of reperfusion, indicating that PML protein induction preceded DNA fragmentation in neurons. The present results suggest that PML protein may be one of the key molecules in ischemic neuronal cell death.     

A change of P-selectin immunoreactivity in rat brain after transient and permanent middle cerebral artery occlusion

Abstract

Although the role of an adhesion molecule such as P-selectin may be important in the pathogenesis of stroke, temporal, spacial, and cellular profiles of the expression ofsuch a protein has not been fully studied in the case ofthe middle cerebral artery (MCA) occlusion and reperfusion in rat brain. Change in expression of immunoreactive P-selectin was examined in rat brain after transient MCA occlusion (MCAO) in comparison to that of permanent occlusion with an anti-P-selectin monoclonal antibody. Western blot analyses were performed to ensure the selective detection of immunoreactive P-selectin protein with the monoclonal antibody using brain homogenates before and after MCAO. Temporal, spacial, and cellular changes of P-selectin expressions were evaluated with rat brain sections at 2, 8 h, 1 and 3 days of permanent MCAO, and at 2, 8 h, 1, 3 and 7 days of reperfusion after 1 h of transient MCAO. Western blot showed a single band with a molecular weight of 140 kOa for both cases with permanent occlusion and reperfusion. P-selectin immunoreactivity was not normally present in rat brain sections. However, it was expressed mainly in the post-capillary venules of the cerebral cortex and caudate in the MCA territory with a peak at 2-8 h after permanent occlusion and at 8 h to 1 day after the reperfusion. The expression was diminished by 1 day ofpermanent occlusion and 3 days of reperfusion. The maximum staining in the case of permanent MCAO was stronger than the case with reperfusion. However, spacial distribution of the staining was similar in the cerebral cortex and caudate between the cases with permanent or transient MCAO. These results suggest a different temporal but similar spacial and cellular expression of P-selectin immunoreactivity between permanent occlusion and reperfusion of MCA in rat brain. [Neural Res 1998; 20: 463–469]     

Effects of dexmedetomidine after transient and permanent occlusion of the middle cerebral artery in the rat

Summary. Increased sympathetic tone is a consequence of cerebral ischemia. Although the role of catecholamines in ischemic damage is still unclear, in some experimental ischemia models α₂-adrenergic agonism has proved to be neuroprotective. In the present work we have compared the effects of transient and permanent middle cerebral artery occlusion (MCAO) on the infarct volume, and, also, examined whether a selective α₂-adrenergic receptor agonist, dexmedetomidine (9 μg/kg or 15 μg/kg i.v.), is able to reduce ischemic damage after transient or permanent MCAO in rats. Permanent MCAO led to a significantly larger infarct volume than transient occlusion (p < 0.05). The rats receiving the higher dose of dexmedetomidine were detectected to have smaller (statistically non-significant) infarct volume in the cortex (30.9%) and in the striatum (20.3%) after transient occlusion. Additionally, dexmedetomidine caused significant variations in the physiological parameters. Received December 22, 1999; accepted September 20, 2000     

Periinfarct and remote excitability changes after transient middle cerebral artery occlusion.

Transient middle cerebral artery (MCA) occlusion results in substantially smaller cortical infarcts than permanent MCA occlusion if reperfusion is initiated within the first few hours. Only little information is available on the long-term functional outcome of the cortical regions "salvaged" by early reperfusion. To address this issue we examined basic electrophysiologic parameters in vitro using standard extracellular recording techniques at 7 and 28 days after transient MCA occlusion (1- and 2-hour ischemia) in rats. Both neocortical areas ipsi- and contralateral to MCA occlusion were systematically mapped to delineate the extent of periinfarct and remote alterations. In the periinfarct region we found a significant reduction of field potential amplitudes up to 3 mm when measuring from the infarct border at 7 days and up to 7 mm at 28 days. Paired-pulse inhibition, an indicator of GABAergic transmission, was only moderately impaired in this region at 7 days and not significantly different from control at 28 days. Remote effects were observed both ipsi- and contralaterally. Ipsilaterally they were restricted to a region close to the midline (presumably motor cortex) and were most likely attributable to the degeneration of corticostriatal connections. The extent of the contralateral excitability changes was clearly related to the size of the neocortical infarcts with large infarcts resulting in the widespread reduction of field potential amplitudes and an impairment of paired-pulse inhibition. The results show that there is a relatively large periinfarct region with decreased overall excitability after transient MCA occlusion which is likely to have a profound effect on perilesional processes involved in functional recovery. Remote excitability changes may contribute to the functional deficit and are probably related to deafferentation.     

Spatiotemporal changes of apolipoprotein E immunoreactivity and apolipoprotein E mRNA expression after transient middle cerebral artery occlusion in rat brain

Apolipoprotein E (ApoE) is a constituent of lipoprotein and plays an important role in the maintenance of neural networks. However, spatiotemporal differences in ApoE expression and its long-term role in neural process after brain ischemia have not been studied. We investigated changes of ApoE immunoreactivity and ApoE mRNA expression both in the core and in the periischemic area at 1, 7, 21, or 56 days after 90 min of transient middle cerebral artery occlusion. Double stainings for ApoE plus NeuN or plus ED1 were performed in order to identify cell type of ApoE-positive stainings. The maximal increase of ApoE expression was observed at 7 days in the core and at 7 and 21 days in the periischemic area. In the core, ApoE plus NeuN double-positive cells increased at 1 and 7 days, without ApoE mRNA expression, whereas they increased in the periischemic area, with a peak at 21 days, with ApoE mRNA expression in glial cells but not in neurons. On the other hand, ApoE plus ED1 double-positive cells increased only in the core, with a peak in number at 7 and 21 days and marked ApoE mRNA expression in macrophages. The present study suggests that ApoE plays various important roles in different type of cells, reflecting spatiotemporal dissociation between degenerative and regenerative processes after brain ischemia, and that ApoE is profoundly involved in pathological conditions, such as brain ischemia.     

Expression of polysialylated neural cell adhesion molecule in rat brain after transient middle cerebral artery occlusion

The highly polysialylated form of neural cell adhesion molecule (PSA-NCAM) is important for neurite outgrowth. With this molecule as a marker of plastic change in neurons, we investigated its temporal expression in rat brain after transient middle cerebral artery (MCA) occlusion. In sham-control brain, only subependymal neurons showed a positive immunoreactivity for PSA-NCAM. After 90 min of transient MCA occlusion, neurons in the piriform cortex began to be positively stained at 1 h, while neurons in the cortex and caudate of the MCA territory became positive after 8 h. The stainings persisted for 1 and 3 days after reperfusion. The present results indicate that neurons in the cerebral cortex and caudate have the capability of plastic change in the adult brain, and that those in the piriform cortex rapidly undergo plastic change probably in response to transneuronal injury.     

Glycerol attenuates the adherence of leukocytes in rat pial venules after transient middle cerebral artery occlusion

Abstract

Intravenous infusion of glycerol has been used in patients with a cerebral infarction, expecting improvement in brain edema and cerebral blood flow (CBF). However, the mechanism of the improvement of CBF has not been clearly demonstrated. The aim of this study in the rat pial microvasculature after transient middle cerebral artery occlusion (MCAO) is to examine the effects of glycerol on leukocyte- endothelium interaction, which plays a critical role in the pathogenesis of brain injury by ischemia/ reperfusion and concerns induction of secondary brain damage. Rhodamine 6G-labeled leukocytes at the brain surface were visualized with intra-vital fluorescence videomicroscopy through a closed cranial window and an analysis was made of the number of adherent leukocytes and the centerline leukocyte velocity in the venule before MCAO, after reperfusion of MCAO and after infusion of glycerol (Croup 1) or saline (Croup 2). The number of adherent leukocytes decreased and the centerline leukocyte velocity increased statistically significantly immediately after the infusion of glycerol in Croup I, but there was no significant change in Croup 2. The infusion of glycerol washes away the adherent leukocytes and prevents them from interfering with the blood cell and plasma flow. Furthermore, secondary brain damage may be relieved by decreasing the adherence of leukocytes. In conclusion, modulating the adherence of leukocytes is one of the important factors in the neuroprotective effect of glycerol. [Neurol Res 1999; 21: 785-790]