Selective Inhibition of Matrix Metalloproteinase-9 Attenuates Secondary Damage Resulting from Severe Traumatic Brain Injury

Traumatic brain injury (TBI) is a leading cause of death and long-term disability. Following the initial insult, severe TBI progresses to a secondary injury phase associated with biochemical and cellular changes. The secondary injury is thought to be responsible for the development of many of the neurological deficits observed after TBI and also provides a window of opportunity for therapeutic intervention. Matrix metalloproteinase-9 (MMP-9 or gelatinase B) expression is elevated in neurological diseases and its activation is an important factor in detrimental outcomes including excitotoxicity, mitochondrial dysfunction and apoptosis, and increases in inflammatory responses and astrogliosis. In this study, we used an experimental mouse model of TBI to examine the role of MMP-9 and the therapeutic potential of SB-3CT, a mechanism-based gelatinase selective inhibitor, in ameliorating the secondary injury. We observed that activation of MMP-9 occurred within one day following TBI, and remained elevated for 7 days after the initial insult. SB-3CT effectively attenuated MMP-9 activity, reduced brain lesion volumes and prevented neuronal loss and dendritic degeneration. Pharmacokinetic studies revealed that SB-3CT and its active metabolite, p-OH SB-3CT, were rapidly absorbed and distributed to the brain. Moreover, SB-3CT treatment mitigated microglial activation and astrogliosis after TBI. Importantly, SB-3CT treatment improved long-term neurobehavioral outcomes, including sensorimotor function, and hippocampus-associated spatial learning and memory. These results demonstrate that MMP-9 is a key target for therapy to attenuate secondary injury cascades and that this class of mechanism-based gelatinase inhibitor–with such desirable pharmacokinetic properties–holds considerable promise as a potential pharmacological treatment of TBI.     

Protective effect of melatonin against transient global cerebral ischemia-induced neuronal cell damage via inhibition of matrix metalloproteinase-9

Aims

Melatonin possesses various pharmacological effects including neuroprotective effects against brain ischemia. Post-ischemic increases in matrix metalloproteinase-9 (MMP-9) expression and activity mainly contribute to neuronal damage by degradation of the extracellular matrix. This study was designed to examine whether melatonin has a neuroprotective effect and an influence on MMP-9 in transient global brain ischemia.

Main methods

Mice were subjected to 20 min of global brain ischemia and sacrificed 72 h later. Melatonin (30 mg/kg) was administered 30 min before and 2 h after ischemia as well as once daily until sacrifice.

Key findings

Hippocampal pyramidal cell damage after ischemia was significantly decreased by melatonin. As observed by zymography, melatonin inhibited the increase of MMP-9 activity after ischemia. In the brain sections, the increased gelatinase activity was mainly observed in the hippocampus after ischemia and melatonin also reduced gelatinase activity. The laminin and NeuN expression levels were reduced in the hippocampal CA1 and CA2 regions after ischemia, and melatonin reduced laminin degradation and neuronal loss. A TUNEL assay demonstrated that there were TUNEL-positive cells in the hippocampus and the number of TUNEL-positive cells was significantly decreased by melatonin. There was no difference in the ischemia-induced hippocampal neuronal damage between the vehicle- and melatonin-treated groups of MMP-9 knock-out mice.

Significance

These data demonstrate that melatonin suppressed the occurrence of neuronal injury, which might be partly due to its inhibitory effects on MMP-9 in addition to its anti-oxidative effects. MMP-9 may be an important key target of melatonin in neuroprotection against global ischemia.     

Green tea polyphenol (−)-epigallocatechin gallate reduces matrix metalloproteinase-9 activity following transient focal cerebral ischemia

Green tea polyphenol (?)-epigallocatechin gallate (EGCG) has been reported to reduce neuronal damage after cerebral ischemic insult. EGCG is known to reduce matrix metalloproteinase (MMP) activity. MMP can play an important role in the pathophysiology of neurological disorders including cerebral ischemia. The purpose of the current study was to investigate whether EGCG shows an inhibitory effect on MMP activity and neural tissue damage following transient focal cerebral ischemia. In the present study, C57BL/6 mice were subjected to 80 min of focal ischemia induced by middle cerebral artery occlusion (MCAO). Animals were killed 24 h after ischemia. EGCG (50 mg/kg) was administered intraperitoneally immediately after ischemia. Gelatin gel zymography showed an increase in the active form of MMP-9 after ischemia. EGCG reduced ischemia-induced up-regulation of the active form of MMP-9. In in situ zymography, EGCG reduced up-regulation of gelatinase activity induced by cerebral ischemia. Co-incubation with EGCG reduced gelatinase activity directly in postischemic brain section. In 2,3,5-triphenyltetrazolium chloride (TTC) assay, brain infarction was remarkable in the middle cerebral artery territory after focal cerebral ischemia. In EGCG-treated mice, infarct volume was significantly reduced compared with vehicle-treated mice. These results demonstrate that EGCG, a green tea polyphenol, may reduce up-regulation of MMP-9 activity and neuronal damage following transient focal cerebral ischemia. In addition to its antioxidant effect, MMP-9 inhibition might be a possible mechanism potentially involved in the neuroprotective effect of a green tea polyphenol, EGCG.     

厄贝沙坦对局灶脑缺血作用的实验研究

目的：研究1型血管紧张素Ⅱ受体阻滞剂厄贝沙坦对局灶性脑缺血的神经保护作用及其可能的细胞机制。方法：在激光多谱勒脑血流监测仪对局部脑血流的监测下,应用线栓法建立大鼠大脑中动脉阻塞模型。药物经侧脑室内微泵持续灌注雄性正常血压大鼠,术后行神经功能评分,测定梗死体积,并运用免疫组化染色观察活性Caspase-3及其下游多聚ADP-核糖聚合酶（PARP）p85裂解片断的改变,结合TUNEL,比较各组细胞凋亡情况。结果：厄贝沙坦明显改善大鼠的神经功能评分,第7d的梗死体积较对照组减少了42％,用药后缺血区的TUNEL阳性细胞数．荧光标记的活性Caspase-3以及PARP p85裂解片断表达均明显减少。结论：厄贝沙坦可改善局灶脑缺血的神经功能,抑制细胞凋亡可能是其神经保护机制之一。     

白藜芦醇对大鼠局灶性脑缺血再灌注的治疗作用

目的:观察白藜芦醇对大鼠局灶性脑缺血再灌注损伤的治疗作用及可能的机制。方法:将SD大鼠随机分为2组:对照组(n=16),白藜芦醇组(n=16)。对照组再灌注即刻腹腔给予0.5 ml生理盐水,白藜芦醇组再灌注即刻腹腔给予20 mg/kg白藜芦醇。再灌注22小时后,进行神经功能学评分、脑梗死容积测定,用分光光度仪测定脑组织溶浆中SOD、MDA和MPO的含量。结果:再灌注22小时后,白藜芦醇治疗组可以改善大鼠神经功能学评分和降低脑梗死面积(P<0.05),同时可以增加脑组织溶浆中SOD的活性,降低MDA和MPO的含量。结论:白藜芦醇通过减轻白细胞的浸润、提高自由基的清除率对大鼠局灶性脑缺血再灌注损伤发挥治疗作用。     

缺血后处理对大鼠局灶性脑缺血再灌注损伤时TLR4 信号通路表达的影响

目的:观察缺血后处理对大鼠局灶性脑缺血再灌注损伤后TLR4通路表达的影响。方法:成年健康雄性SD大鼠110只,随机分为假手术组(sham组)(n=10)、缺血再灌注组(I/R组)和后处理组(IP组),后两组又依据缺血再灌注6h、12h、24h、48h、72h不同的时间点再分五个亚组。对各组行神经行为学评分,脑组织梗死体积测量,TUNEL技术检测神经细胞凋亡的情况,免疫组织化学技术观察各组大鼠脑组织TLR4、NF-κB和TNF-α蛋白的表达,原位杂交方法检测各组大鼠脑组织TLR4mRNA、NF-κBmRNA的表达。结果:缺血后处理可下调TLR4、NF-κB、TNF-α细胞炎性因子的表达,抑制细胞凋亡、减少脑梗死体积,改善神经行为。结论:后处理可通过抑制TLR4信号通路表达,减少脑梗死体积,改善神经功能。     

Gadd45b is a Novel Mediator of Neuronal Apoptosis in Ischemic Stroke

Apoptosis plays an essential role in ischemic stroke pathogenesis. Research on the process of neuronal apoptosis in models of ischemic brain injury seems promising. The role of growth arrest and DNA-damage-inducible protein 45 beta (Gadd45b) in brain ischemia has not been fully examined to date. This study aims to investigate the function of Gadd45b in ischemia-induced apoptosis. Adult male Sprague-Dawley rats were subjected to brain ischemia by middle cerebral artery occlusion (MCAO). RNA interference (RNAi) system, which is mediated by a lentiviral vector (LV), was stereotaxically injected into the ipsilateral lateral ventricle to knockdown Gadd45b expression. Neurologic scores and infarct volumes were assessed 24 h after reperfusion. Apoptosis-related molecules were studied using immunohistochemistry and Western blot analysis. We found that Gadd45b-RNAi significantly increased infarct volumes and worsened the outcome of transient focal cerebral ischemia. Gadd45b-RNAi also significantly increased neuronal apoptosis as indicated by increased levels of Bax and active caspase-3, and decreased levels of Bcl-2. These results indicate that Gadd45b is a beneficial mediator of neuronal apoptosis.     

Reliability of Visual Assessment of Non-Contrast CT,CT Angiography Source Images and CT Perfusion in Patients with Suspected Ischemic Stroke

Background and Purpose

Good reliability of methods to assess the extent of ischemia in acute stroke is important for implementation in clinical practice, especially between observers with varying experience. Our aim was to determine inter- and intra-observer reliability of the 1/3 middle cerebral artery (MCA) rule and the Alberta Stroke Program Early CT Score (ASPECTS) for different CT modalities in patients suspected of acute ischemic stroke.

Methods

We prospectively included 105 patients with acute neurological deficit due to suspected acute ischemic stroke within 9 hours after symptom onset. All patients underwent non-contrast CT, CT perfusion and CT angiography on admission. All images were evaluated twice for presence of ischemia, ischemia with >1/3 MCA involvement, and ASPECTS. Four observers evaluated twenty scans twice for intra-observer agreement. We used kappa statistics and intraclass correlation coefficient to calculate agreement.

Results

Inter-observer agreement for the 1/3 MCA rule and ASPECTS was fair to good for non-contrast CT, poor to good for CT angiography source images, but excellent for all CT perfusion maps (cerebral blood volume, mean transit time, and predicted penumbra and infarct maps). Intra-observer agreement for the 1/3 MCA rule and ASPECTS was poor to good for non-contrast CT, fair to moderate for CT angiography source images, and good to excellent for all CT perfusion maps.

Conclusion

Between observers with a different level of experience, agreement on the radiological diagnosis of cerebral ischemia is much better for CT perfusion than for non-contrast CT and CT angiography source images, and therefore CT perfusion is a very reliable addition to standard stroke imaging.     

头孢曲松神经保护作用的研究

目的：探讨头孢曲松通过抑炎通路发挥神经保护作用的机制。方法：45只雄性sD大鼠,随机分为3组（n=15）,预处理组在大鼠大脑中动脉阻断（MCAo）前5d每日给予腹腔注射头孢曲松缓冲液（200mg／kg）,观察局灶性脑缺血2h再灌注24h后,各组间大鼠神经行为学评分、脑梗死容积变化、小胶质细胞和IL-1β的数量变化。结果：再灌注24h后,头孢曲松预处理组可改善大鼠神经行为学评分和脑梗死面积（P〈0．05）,小胶质细胞活化数量减少（P〈0．05）,ELISA检测IL-1β分泌数量有显著下降趋势,但无统计学差异（P=0．18）。结论：头孢曲松可以部分抑制小胶质细胞活化,减少IL-1β释放发挥神经保护作用。     

Early ischemic preconditioning against focal transient and permanent brain ischemia in rats: role of collateral circulation

We hypothesize that early ischemic preconditioning (IPC) can afford protection against focal brief and prolonged cerebral ischemia with subsequent reperfusion as well as permanent brain ischemia in rats by amelioration of regional cerebral blood flow. Adult male Wistar rats (n=97) were subjected to transient (30 and 60 minutes) and permanent middle cerebral artery (MCA) occlusion. IPC protocol consisted of two episodes of 5-min common carotid artery occlusion + 5-min reperfusion prior to test ischemia either followed by 48 hours of reperfusion or not. Triphenyltetrazolium chloride and Evans blue were used for delineation of infarct size and anatomical area at risk (comprises ischemic penumbra and ischemic core), respectively. Blood flow in the MCA vascular bed was measured with use of Doppler ultrasound. The IPC resulted in significant infarct size limitation in both transient and permanent MCA occlusion. Importantly, IPC caused significant reduction of area at risk after 30 min of focal ischemia as compared to controls [med(min-max) 11.4% (3.59-2 0.35%) vs. 2.47% (0.8-9.31%), p = 0.018] but it failed to influence area at risk after 5 min of ischemia [med(min-max) 7.61% (6.32-10.87%) vs. 8.2% (4.87-9.65%), p > 0.05]. No differences in blood flow were found between IPC and control groups using Doppler ultrasound. This is suggestive of the fact that IPC does not really influence blood flow in the large cerebral arteries such as MCA but it might have some effect on smaller arteries. It seems that, along with well established cytoprotective effects of IPC, IPC-mediated reduction of area at risk by means of improvement in local cerebral blood flow may contribute to infarct size limitation after focal transient and permanent brain ischemia in rats.     

Cinnamophilin reduces oxidative damage and protects against transient focal cerebral ischemia in mice

Acute neuroprotective effects of cinnamophilin (CINN; (8R, 8'S)-4, 4'-dihydroxy-3, 3'-dimethoxy-7-oxo-8, 8'-neolignan), a novel antioxidant and free radical scavenger, were studied in a mouse model of transient middle cerebral artery (MCA) occlusion. CINN was administered intraperitoneally either 15 min before (pretreatment) or 2 h after the onset of MCA occlusion (postischemic treatment). Relative to vehicle-treated controls, animals pretreated with CINN, at 20-80 mg/kg, had significant reductions in brain infarction by 33-46% and improvements in neurobehavioral outcome. Postischemic administration with CINN (80 mg/kg) also significantly reduced brain infarction by 43% and ameliorated neurobehavioral deficits. Additionally, CINN administration significantly attenuated in situ accumulation of superoxide anions (O2-) in the boundary zones of infarct at 4 h after reperfusion. Consequently, CINN-treated animals exhibited significantly decreased levels of oxidative damage, as assessed by immunopositive reactions for 8-hydroxy-2'-deoxyguanosine (8-OHdG) and 4-hydroxynonenal (4-HNE), and the resultant inflammatory reactions at 24 h post-insult. It is concluded that CINN effectively reduced brain infarction and improved neurobehavioral outcome following a short-term recovery period after severe transient focal cerebral ischemia in mice. The finding of a decreased extent of reactive oxygen species and oxidative damage observed with CINN treatment highlights that its antioxidant and radical scavenging ability is contributory.     

Protective effect of a caspase inhibitor in models for cerebral ischemia in vitro and in vivo.

In primary neuronal-astrocyte cultures from mouse brain, ischemic conditions were simulated by combined oxygen-glucose deprival (OGD) for 2 hrs. This treatment resulted in near complete neuronal damage 24 hrs. later and was accompanied by DNA degradation and apoptotic nuclear morphology. Since caspases are key enzymes in the propagation and execution of programmed cell death, we evaluated the effect of the caspase inhibitor z-VAD-fmk. Damage following 2 hrs. OGD could be reduced by up to 56% with z-VAD-fmk (p<0.05). DNA-fragmentation and caspase activation has been also reported in an in vivo model of cerebral ischemia imitating human stroke. In this model the middle cerebral artery (MCA) is permanently occluded resulting in focal cerebral ischemia and subsequent infarction. Since z-VAD.fmk does not penetrate the blood-brain barrier it was applied intraventricularly as a bolus injection given 30 min. before MCA occlusion which was followed by 24 hrs. of infusion. Infarct volume was determined 48 hrs. after MCA occlusion by means of in vivo magnetic resonance imaging. Z-VAD.fmk dose dependently reduced infarct volume reaching a significant decrease of the cortical infarct by 45% when given as a 120 ng bolus followed by 40 ng/hr. infusion (p<0.05). In summary, our study supports the concept that caspase inhibitors are beneficial in brain ischemia.     

Elevated Intracranial Pressure and Cerebral Edema following Permanent MCA Occlusion in an Ovine Model

Introduction

Malignant middle cerebral artery (MCA) stroke has a disproportionately high mortality due to the rapid development of refractory space-occupying cerebral edema. Animal models are essential in developing successful anti-edema therapies; however to date poor clinical translation has been associated with the predominately used rodent models. As such, large animal gyrencephalic models of stroke are urgently needed. The aim of the study was to characterize the intracranial pressure (ICP) response to MCA occlusion in our recently developed ovine stroke model.

Materials and Methods

30 adult female Merino sheep (n = 8–12/gp) were randomized to sham surgery, temporary or permanent proximal MCA occlusion. ICP and brain tissue oxygen were monitored for 24 hours under general anesthesia. MRI, infarct volume with triphenyltetrazolium chloride (TTC) staining and histology were performed.

Results

No increase in ICP, radiological evidence of ischemia within the MCA territory but without space-occupying edema, and TTC infarct volumes of 7.9+/-5.1% were seen with temporary MCAO. Permanent MCAO resulted in significantly elevated ICP, accompanied by 30% mortality, radiological evidence of space-occupying cerebral edema and TTC infarct volumes of 27.4+/-6.4%.

Conclusions

Permanent proximal MCAO in the sheep results in space-occupying cerebral edema, raised ICP and mortality similar to human malignant MCA stroke. This animal model may prove useful for pre-clinical testing of anti-edema therapies that have shown promise in rodent studies.     

Pronounced diversity in electronic and chemical properties between the catalytic zinc sites of tumor necrosis factor-alpha-converting enzyme and matrix metalloproteinases despite their high structural similarity

The metalloproteinase tumor necrosis factor-alpha-converting enzyme (TACE) is involved in the regulation of several key physiological and pathological processes. Therefore, potent and selective synthetic inhibitors are highly sought for the study of the physiological roles of TACE as well as for therapeutic purposes. Because of the high structural similarities between the active site of TACE and those of other related zinc endopeptidases such as disintegrin (ADAMs) and matrix metalloproteinases (MMPs), the design of such tailor-made inhibitors is not trivial. To obtain new insights into this problem, we have used a selective MMP inhibitor as a probe to examine the structural and kinetic effects occurring at the active site of TACE upon inhibition. Specifically, we used the selective MMP mechanism-based inhibitor SB-3CT to characterize the fine structural and electronic differences between the catalytic zinc ions within the active sites of TACE and MMP-2. We show that SB-3CT directly binds the metal ion of TACE as observed before with MMP-2. However, in contrast to MMP-2, the binding mode of SB-3CT to the catalytic zinc ion of TACE is different in the length of the Zn-S(SB-3CT) bond distance and the total effective charge of the catalytic zinc ion. In addition, SB-3CT inhibits TACE in a non-competitive fashion by inducing significant conformational changes in the structure. For MMP-2, SB-3CT behaved as a competitive inhibitor and no significant conformational changes were observed. An examination of the second shell amino acids surrounding the catalytic zinc ion of these enzymes indicated that the active site of TACE is more polar than that of MMP-2 and of other MMPs. On the basis of these results, we propose that although there is a seemingly high structural similarity between TACE and MMP-2, these enzymes are significantly diverse in the electronic and chemical properties within their active sites.     

Effect of Baicalin on Matrix Metalloproteinase-9 Expression and Blood–Brain Barrier Permeability Following Focal Cerebral Ischemia in Rats

Focal cerebral ischemia results in an increased expression of matrix metalloproteinase-9 (MMP-9), which induces vasogenic brain edema via disrupting the blood–brain barrier (BBB) integrity. Recent studies from our laboratory showed that baicalin reduces ischemic brain damage by inhibiting inflammatory reaction and neuronal apoptosis in a rat model of focal cerebral ischemia. In the present study, we first explored the effect of baicalin on the neuronal damage, brain edema and BBB permeability, then further investigated its potential mechanisms. Sprague–Dawley rats underwent permanent middle cerebral artery occlusion (MCAO). Baicalin was administrated by intraperitoneally injected twice at 2 and 12 h after the onset of MCAO. Neuronal damage, brain edema and BBB permeability were measured 24 h following MCAO. Expression of MMP-9 protein and mRNA were determined by western blot and RT–PCR, respectively. Expression of tight junction protein (TJP) occludin was detected by western blot. Neuronal damage, brain edema and BBB permeability were significantly reduced by baicalin administration following focal cerebral ischemia. Elevated expression of MMP-9 protein and mRNA were significantly down-regulated by baicalin administration. In addition, MCAO caused the decreased expression of occludin, which was significantly up-regulated by baicalin administration. Our study suggested that baicalin reduces MCAO-induced neuronal damage, brain edema and BBB permeability, which might be associated with the inhibition of MMP-9 expression and MMP-9-mediated occludin degradation.     

缺血后处理对大鼠局灶性脑缺血再灌注损伤时TLR4信号通路表达的影响

目的：观察缺血后处理对大鼠局灶性脑缺血再灌注损伤后TLR4通路表达的影响。方法：成年健康雄性SD大鼠110只,随机分为假手术组（sham组）（n=10）、缺血再灌注组（I／R组）和后处理组（IP组）,后两组又依据缺血再灌注6h、12h、24h、48h、72h不同的时间点再分五个亚组。对各组行神经行为学评分,脑组织梗死体积测量,TUNEL技术检测神经细胞凋亡的情况,免疫组织化学技术观察各组大鼠脑组织TLR4、NF—KB和TNF—a蛋白的表达,原位杂交方法检测各组大鼠脑组织TLR4mRNA、NF-KBmRNA的表达。结果：缺血后处理可下调TLR4、NF-KB、TNF-a细胞炎性因子的表达,抑制细胞凋亡、减少脑梗死体积,改善神经行为。结论：后处理可通过抑制TLR4信号通路表达,减少脑梗死体积,改善神经功能。     

Edaravone ameliorates oxidative stress associated cholinergic dysfunction and limits apoptotic response following focal cerebral ischemia in rat

Stroke is a life-threatening disease with major cause of mortality and morbidity worldwide. The neuronal damage following cerebral ischemia is a serious risk to stroke patients. Oxidative stress and apoptotic damage play an important role in cerebral ischemic pathogenesis and may represent a target for treatment. The objective of this study was to test the hypothesis that administration of edaravone (Edv) maintains antioxidant status in brain, improves the cholinergic dysfunction and suppresses the progression of apoptosis response in rat. To test this hypothesis, male Wistar rats were subjected to middle cerebral artery occlusion (MCAO) of 2 h followed by reperfusion for 22 h. Edv was administered (10 mg/kg bwt) intraperitoneally 30 min before the onset of ischemia and 1 h after reperfusion. After reperfusion, rats were tested for neurobehavioral activities and were sacrificed for the infarct volume, estimation of oxidative damage markers. Edv treatment significantly reduced ischemic lesion volume, improved neurological deficits, contended oxidative loads, and suppressed apoptotic damage. In conclusion, treatment with Edv ameliorated the neurological and histological outcomes with elevated endogenous anti-oxidants status as well as reduced induction of apoptotic responses in MCA occluded rat. We theorized that Edv is among the pharmacological agents that reduce free radicals and its associated cholinergic dysfunction and apoptotic damage and have been found to limit the extent of brain damage following stroke.     

星形胶质细胞糖原动员改善大脑缺血再灌注损伤的研究

摘要 目的：探讨星形胶质细胞糖原动员是否对大脑缺血再灌注损伤有神经保护作用。方法：研究构建了星形胶质细胞特异性糖原分解代谢关键酶糖原磷酸化酶（Glycogen phosphorylase, GP）过表达转基因小鼠（GFAP-GP）,并通过免疫荧光染色对GP的含量进行验证。在小鼠大脑中动脉梗死/再通模型中,利用GFAP-GP小鼠促进再灌注后累积糖原的分解（糖原动员）,通过三苯基氯化四氮唑（Triphenyl tetrazolium chloride, TTC）染色分析再灌注后GFAP-GP小鼠的脑梗死面积,Corner test和Grid-walking test检测再灌注后GFAP-GP小鼠的神经行为学功能。结果：GFAP-GP小鼠中GP的含量发生了明显的增加,再灌注后GFAP-GP小鼠与野生型小鼠相比,脑糖原含量明显降低,梗死明显减少,肢体感觉与运动功能明显改善。结论：星形胶质细胞糖原动员可改善大脑缺血再灌注损伤。     

Aminoguanidine Administration Ameliorates Hippocampal Damage After Middle Cerebral Artery Occlusion in Rat

The effects of a selective inducible nitric oxide synthase inhibitor aminoguanidine (AG) on neuronal cells survival in hippocampal CA1 region after middle cerebral artery occlusion (MCAO) were examined. Transient focal cerebral ischemia was induced in rats by 60 or 90 min of MCAO, followed by 7 days of reperfusion. AG treatment (150 mg/kg i.p.) significantly reduced total infarct volumes: by 70% after 90 min MCAO and by 95% after 60 min MCAO, compared with saline-treated ischemic group. The number of degenerating neurons in hippocampal CA1 region was also markedly lower in aminoguanidine-treated ischemic groups compared to ischemic groups without AG-treatment. The number of iNOS-positive cells significantly increased in the hippocampal CA1 region of ischemic animals, whereas it was reduced in AG-treated rats. Our findings demonstrate that aminoguanidine decreases ischemic brain damage and improves neurological recovery after transient focal ischemia induced by MCAO.     

Nicotinamide Attenuates Focal Ischemic Brain Injury in Rats: With Special Reference to Changes in Nicotinamide and NAD+ Levels in Ischemic Core and Penumbra

We investigated the neuroprotective action of nicotinamide in focal ischemia. Male spontaneously hypertensive rats (5–7 months old) were subjected to photothrombotic occlusion of the right distal middle cerebral artery (MCA). Either nicotinamide (125 or 250 mg/kg) or vehicle was injected IV before MCA occlusion. Changes in the cerebral blood flow (CBF) were monitored using laser-Doppler flowmetry, and infarct volumes were determined with TTC staining 3 days after MCA occlusion. In another set of experiments, the brain nicotinamide and nicotinamide adenine dinucleotide (NAD⁺) levels were analyzed by HPLC using the frozen samples dissected from the regions corresponding to the ischemic core and penumbra. In the 250-mg/kg nicotinamide group, the ischemic CBF was significantly increased compared to that the untreated group, and the infarct volumes were substantially attenuated (–36%). On the other hand, the ischemic CBF in the 125 mg/kg nicotinamide group was not significantly different from the untreated CBF, however, the infarct volumes were substantially attenuated (–38%). Cerebral ischemia per se did not affect the concentrations of nicotinamide and NAD⁺ both in the penumbra and ischemic core. In the nicotinamide groups, the brain nicotinamide levels increased significantly in all areas examined, and brain NAD⁺ levels increased in the penumbra but not in the ischemic core. Increased brain levels of nicotinamide are considered to be primarily important for neuroprotection against ischemia, and the protective action may be partly mediated through the increased NAD⁺ in the penumbra.