突触素、神经肽Y(NPY)在糖尿病模型大鼠脑组织细胞中的表达研究

对突触素(synaptophysin)、神经肽Y(NPY)在链尿佐菌素诱导的糖尿病模型大鼠额叶皮质和海马组织细胞中的表达进行研究,并利用UTHSCSA Image Tools 3.0进行图象分析,同时对其与学习记忆的关系进行探讨.选取成年Sprague-Dawley雄性大鼠20只,体重200-300g,随机分为两组.实验组用链尿佐菌素诱导产生糖尿病模型,并以血糖测定和尿糖水平测定进行筛选,另一组为空白对照组.继续饲养4周后,各组大鼠先进行Y型迷宫测试其学习记忆能力,然后取出脑组织,制做连续冰冻切片,对大脑额叶皮质和海马组织进行突触素、神经肽Y酶标免疫组织化学染色,观察这些蛋白在糖尿病大鼠和正常大鼠脑中表达的差异.结果发现糖尿病大鼠在Y型迷宫测试中,错误次数明显增多,糖尿病大鼠额叶皮质和海马神经元数目较正常对照组明显减少,神经细胞内突触素和神经肽Y的表达均较正常对照组明显下降.我们的研究显示突触素和神经肽Y在糖尿病大鼠大脑额叶皮质和海马组织内表达的减少可能与糖尿病组神经细胞突触数目及突触的可塑性下降、学习和记忆能力障碍有关.这可能是造成糖尿病性痴呆的一个因素.     

在大鼠创伤性脑损伤模型中神经干细胞移植对突触素表达的影响

目的探讨神经干细胞（NSCs）移植对创伤性脑损伤（TBI）模型大鼠感觉运动功能的恢复作用及其对损伤脑组织中突触素（SYP）表达的影响。方法体外培养大鼠胚胎皮质NSCs;采用Feeney法制备TBI模型,于造模后72h,移植组采用PKH26荧光示踪剂标记的NSCs直接移植于脑损伤区,对照组以等量生理盐水代替NSCs;分别于移植后不同时间点,采用Gridwalk和Latency试验检测TBI大鼠的感觉运动功能;荧光显微镜下计数移植细胞的存活数量;采用免疫印迹和RT-PCR技术检测脑损伤区及周围组织中SYP的表达。结果 NSCs移植大鼠前、后肢功能分别在移植后第2w和4w恢复至手术前水平,而直到第8w,对照组大鼠后肢功能和通过平板移动时间与NSCs移植组和基线比较仍有显著性差异（P〈0.05）。移植的NSCs随移植时间延长存活数量减少,移植后第4w和8w的存活数分别为6.3%±1.0%和4.1%±0.9%。在移植后的8w期间,移植组脑损伤区及周围组织中SYP的表达均明显高于对照组（P〈0.05）。结论移植的NSCs在TBI脑内能够存活,并明显改善了TBI大鼠对侧肢体的感觉运动功能;NSCs移植促进了脑损伤区及周围组织中SYP的表达,这可能是NSCs移植促进功能恢复的机理之一。     

APPswe/PS1dE9转基因小鼠小脑内突触素及BDNF/Trk-B蛋白表达的变化

目的：观察APP/PS1转基因小鼠小脑突触素及BDNF/Trk-B蛋白表达变化。方法：选用9月龄APP/PS1雄鼠（n1）和同窝对照野生型WT雄鼠（n2）。采用Western blot （n1=6;n2=6）、免疫组化（n1=4;n2=4）两种方式定量、定位测定小脑组织功能活性依赖蛋白突触素、脑源性神经营养因子（BDNF）和其高亲和力受体（Trk-B）的蛋白表达。用透射电镜观察小脑皮质突触超微结构变化（n1=2;n2=2）。结果：与WT组相比,APP/PS1组小脑皮质内突触素、BDNF/Trk-B表达明显减少;突触间隙增宽,突触后致密区变薄,密度降低。结论：APP/PS1小鼠小脑皮质中突触素、BDNF/Trk-B蛋白含量均明显降低,突触超微结构也发生明显改变,提示AD小脑突触数量及形态变化可能与BDNF合成及释放减少有关。     

永久性局灶性中动脉阻断脑缺血（pMCAO）模型大鼠脑内突触相关蛋白表达的免疫组织化学观察

目的观察永久性局灶性中动脉阻断脑缺血（pMCAO）模型大鼠脑缺血发作后2 d、7 d脑内突触相关蛋白表达的变化。方法制作大鼠永久性局灶性中动脉阻断脑缺血（pMCAO）模型。缺血动物术后随机分为缺血2 d组、缺血7 d组,另设假手术组。在术后2 d、7 d 2个时间点采用HE染色观察动物神经病理学改变,同时采用免疫组织化学法观察动物的缺血侧脑组织突触素-I（synapsin-I）、突触后致密蛋白95（PSD-95）、α-突触核蛋白（α-synuclein）表达情况。结果与假手术组相比,缺血后,模型动物神经元大量变性坏死,数目减少,排列散乱。缺血后2 d,synapsin-I在CA1区、CA3区、皮层表达显著减少（P〈0.05或P〈0.01）,PSD-95在CA1区、皮层表达显著减少（P〈0.05或P〈0.01）,α-synuclein在CA1区神经元产生显著积聚（P〈0.01）;缺血后7 d,synapsin-I在CA1区、皮层表达仍显著降低（P〈0.01）,PSD-95在CA1区、皮层表达显著减少（P〈0.05或P〈0.01）,α-synuclein在CA1、CA3、皮层表达显著增加（P〈0.05或P〈0.01）。结论 pMCAO模型大鼠在脑缺血发生后,神经突触有关蛋白的表达显著改变,并随缺血后不同时间点表达情况不同,这可能与神经元突触重塑有关。突触相关蛋白的表达与缺血损伤程度密切相关。     

突触素、神经肽Y（NPY）在糖尿病模型大鼠脑组织细胞中的表达研究

对突触素(synaptophysin)、神经肽Y(NPY)在链尿佐菌素诱导的糖尿病模型大鼠额叶皮质和海马组织细胞中的表达进行研究,并利用UTHSCSA Image Tools3．0进行图象分析,同时对其与学习记忆的关系进行探讨。选取成年Sprague—Dawley雄性大鼠20只,体重200—300g,随机分为两组。实验组用链尿佐菌素诱导产生糖尿病模型,并以血糖测定和尿糖水平测定进行筛选,另一组为空白对照组。继续饲养4周后,各组大鼠先进行Y型迷宫测试其学习记忆能力,然后取出脑组织,制做连续冰冻切片,对大脑额叶皮质和海马组织进行突触素、神经肽Y酶标免疫组织化学染色,观察这些蛋白在糖尿病大鼠和正常大鼠脑中表达的差异。结果发现糖尿病大鼠在Y型迷宫测试中,错误次数明显增多,糖尿病大鼠额叶皮质和海马神经元数目较正常对照组明显减少,神经细胞内突触素和神经肽Y的表达均较正常对照组明显下降。我们的研究显示突触素和神经肽Y在糖尿病大鼠大脑额叶皮质和海马组织内表达的减少可能与糖尿病组神经细胞突触数目及突触的可塑性下降、学习和记忆能力障碍有关。这可能是造成糖尿病性痴呆的一个因素。     

突触素在人胎儿海马的表达与发育的研究

目的探讨突触素在不同周龄阶段人胎儿海马中的表达与胎儿海马发育的关系。方法采用免疫组织化学方法(S-P法),观察突触素在不同周龄的人胎儿海马中的表达水平,利用计算机图像分析技术测量不同周龄阶段海马突触素表达的平均光密度。结果光镜下突触素免疫反应产物主要以颗粒状、点状形式存在于海马各层,在各层中分布不均匀;16-20W胎儿海马中已出现了阳性产物,21-25W阳性产物表达增多明显(P<0.05),25-29W阳性产物表达有下降趋势(P<0.05),30-39W阳性产物表达又显著升高(P<0.05)。结论突触素的数量可以反映突触发育的程度,在人胎儿海马中突触素的数量随神经细胞的发育成熟而增加,其间突触素表达的波动可能与突触形成需经历的过度生长及重塑有关。     

藏红花素对小鼠创伤性脑损伤保护作用的研究

目的:研究藏红花素对小鼠创伤性脑损伤的保护作用和可能的机制.方法:采用控制性皮层撞击法建立小鼠创伤性脑损伤模型,通过脑含水量测定和运动功能评分评价藏红花素对小鼠创伤性脑损伤的保护作用.结果:①藏红花素显著减轻创伤性脑损伤后脑水肿程度.②藏红花素显著减轻创伤性脑损伤造成的运动功能损伤.③藏红花素显著提高了脑组织SOD和GPX的活性,降低了MDA水平.结论:藏红花素通过抗氧化活性对小鼠创伤性脑损伤发挥保护作用.     

慢性复合应激性增强空间学习与记忆时突触素Ⅰ在大鼠海马中的表达

目的观察突触素Ⅰ在慢性复合应激性空间学习与记忆增强大鼠海马各亚区表达的变化及其意义.方法成年雄性Wistar大鼠随机分成应激组和对照组.采用垂直旋转、剥夺睡眠、噪音刺激和夜间光照4种应激原无规律交替应激动物6周,每天6 h,制作慢性复合应激动物模型.采用Morris水迷宫和Y-迷宫测试大鼠空间学习与记忆成绩,并用免疫组织化学技术显示突触素Ⅰ在慢性复合应激性空间学习与记忆增强大鼠海马中的表达变化.结果结果显示,应激组动物慢性复合应激后在Morris水迷宫内寻找隐蔽平台所需时间(潜伏期)比对照组的明显地短(P<0.05),在Y-迷宫内寻找安全区的正确率比对照组的明显地高(P<0.05);应激组动物慢性复合应激后,其海马齿状回(dentate gyrus,DG)和CA3区突触素I的免疫反应性明显地强于对照组(P<0.05), 两组CA1区突触素I的免疫反应性无明显差别(P>0.05).结论这些结果提示,慢性复合应激可增强大鼠空间学习与记忆能力,突触素Ⅰ在大鼠海马内表达的变化可能参与了大鼠空间学习与记忆增强的机制.     

丁苯酞对脑梗死模型大鼠血清及脑组织突触素及突触后致密物-95表达的影响

摘要 目的：探讨丁苯酞对脑梗死模型大鼠血清及脑组织突触素及突触后致密物（postsynaptic density,PSD）-95表达的影响。方法：将建模成功的大鼠随机平分为三组-丁苯酞组、阿司匹林组与模型组各18只。三组分别给予腹腔注射丁苯酞注射液20 mg/kg+阿司匹林20 mg/kg、阿司匹林20 mg/kg与等体积的生理盐水,1次/d,检测血清及脑组织突触素及PSD-95表达变化情况。结果：（1）治疗第7 d与治疗第14 d后,丁苯酞组和阿司匹林组大鼠改良神经功能评分（Modified neurological severity scores,mNSS）均显著低于模型组（P<0.05）,丁苯酞组低于阿司匹林组（P<0.05）;（2）治疗第7 d与治疗第14 d,丁苯酞组、阿司匹林组大鼠的脑梗死体积百分比均显著低于模型组（P<0.05）,丁苯酞组低于阿司匹林组（P<0.05）;（3）治疗第7 d与治疗第14 d,丁苯酞组、阿司匹林组大鼠血清突触素及PSD-95表达水平均显著高于模型组（P<0.05）,丁苯酞组高于阿司匹林组（P<0.05）;（4）治疗第7 d与治疗第14 d后,丁苯酞组、阿司匹林组大鼠大脑组织突触素及PSD-95蛋白相对表达水平均显著高于模型组（P<0.05）,丁苯酞组高于阿司匹林组（P<0.05）。结论：丁苯酞在脑梗死模型大鼠的应用可促进大鼠血清及脑组织突触素及PSD-95的表达,并减小脑梗死面积,因而有利于大鼠的神经功能的恢复。     

钴- 原卟啉对大鼠脑损伤区域血红素氧合酶-1 及损伤周边区脑含水量的影响

目的:研究探讨钴-原卟啉对大鼠脑损伤的保护作用。方法:用钴-原卟啉灌(50mg/kg)胃处理后,建立液压脑损伤模型,采用免疫组织化学SP三步法检测大鼠脑损伤区域血红素氧合酶-1(HO-1)的表达情况,用干湿重法测定损伤周边区脑含水量的变化。结果:正常组、假手术组大鼠HO-1均无表达;模型组脑损伤区域的HO-1阳性细胞数为(3.45±047);实验组12h、24h、3d和7dHO-1的阳性细胞数分别为:(10.9±1.35)、(10.62±1.88)、(12.4±1.57)和(10.99±2.42)。正常组、假手术组脑损伤周边区脑含水量分别为(78.7±0.4)%和(78.6±0.7)%;模型组脑含水量(89.3±0.3)%;实验组12h、24h、3d和7d脑含水量分别为:(83.1±0.3)%、(83.6±0.6)%、(83.9±0.4)%和(83.2±0.3)%。结论:钴-原卟啉(CoPP)能够诱导大鼠脑损伤区域HO-1的表达,减轻脑损伤周边区域的水肿程度,故钴-原卟啉对大鼠脑损伤具有保护作用。     

Temporal expression profile of CXC chemokines in serum of patients with spinal cord injury

Chemokines, a subclass of cytokine superfamily have both pro-inflammatory and migratory role and serve as chemoattractant of immune cells during the inflammatory responses ensuing spinal cord injury (SCI). The chemokines, especially CXCL-1, CXCL-9, CXCL-10 and CXCL-12 contribute significant part in the inflammatory secondary damage of SCI. Inhibiting chemokine’s activity and thereby the secondary damage cascades has been suggested as a chemokine-targeted therapeutic approach to SCI. To optimize the inhibition of secondary injury through targeted chemokine therapy, accurate knowledge about the temporal profile of these cytokines following SCI is required. Hence, the present study was planned to determine the serum levels of CXCL-1, CXCL-9, CXCL-10 and CXCL-12 at 3–6 h, 7 and 28 days and 3 m after SCI in male and female SCI patients (n = 78) and compare with age- and sex-matched patients with non-spinal cord injuries (NSCI, n = 70) and healthy volunteers (n = 100). ANOVA with Tukey post hoc analysis was used to determine the differences between the groups. The data from the present study show that the serum level of CXCL-1, CXCL-9 and CXCL-10 peaked on day 7 post-SCI and then declined to the control level. In contrast, significantly elevated level of CXCL-12 persisted for 28 days post SCI. In addition, post-SCI expression of CXCL-12 was found to be sex-dependent. Male SCI patients expressed significantly higher CXCL-12 when compared to control and SCI female. We did not observe any change in chemokines level of NSCI. Further, the age of the patients did not influence chemokines expression after SCI. These observations along with SCI-induced CSF-chemokine level should contribute to the identification of selective and temporal chemokine targeted therapy after SCI.     

Towards reducing impact-induced brain injury: lessons from a computational study of army and football helmet pads

We use computational simulations to compare the impact response of different football and U.S. Army helmet pad materials. We conduct experiments to characterise the material response of different helmet pads. We simulate experimental helmet impact tests performed by the U.S. Army to validate our methods. We then simulate a cylindrical impactor striking different pads. The acceleration history of the impactor is used to calculate the head injury criterion for each pad. We conduct sensitivity studies exploring the effects of pad composition, geometry and material stiffness. We find that (1) the football pad materials do not outperform the currently used military pad material in militarily relevant impact scenarios; (2) optimal material properties for a pad depend on impact energy and (3) thicker pads perform better at all velocities. Although we considered only the isolated response of pad materials, not entire helmet systems, our analysis suggests that by using larger helmet shells with correspondingly thicker pads, impact-induced traumatic brain injury may be reduced.     

Neuron-glia communication: metallothionein expression is specifically up-regulated by astrocytes in response to neuronal injury

Recent data suggests that metallothioneins (MTs) are major neuroprotective proteins within the CNS. In this regard, we have recently demonstrated that MT-IIA (the major human MT-I/-II isoform) promotes neural recovery following focal cortical brain injury. To further investigate the role of MTs in cortical brain injury, MT-I/-II expression was examined in several different experimental models of cortical neuron injury. While MT-I/-II immunoreactivity was not detectable in the uninjured rat neocortex, by 4 days, following a focal cortical brain injury, MT-I/-II was found in astrocytes aligned along the injury site. At latter time points, astrocytes, at a distance up to several hundred microns from the original injury tract, were MT-I/-II immunoreactive. Induced MT-I/-II was found both within the cell body and processes. Using a cortical neuron/astrocyte co-culture model, we observed a similar MT-I/-II response following in vitro injury. Intriguingly, scratch wound injury in pure astrocyte cultures resulted in no change in MT-I/-II expression. This suggests that MT induction was specifically elicited by neuronal injury. Based upon recent reports indicating that MT-I/-II are major neuroprotective proteins within the brain, our results provide further evidence that MT-I/-II plays an important role in the cellular response to neuronal injury.     

Noninvasive monitoring of citrate, acetate, lactate, and renal medullary osmolyte excretion in urine as biomarkers of exposure to ischemic reperfusion injury

Injury during the transplant process affects the alloantigen-dependent factors and the alloantigen-independent processes of "chronic" rejection. Consequently, the determination of reliable parameters for the assessment of ischemic damage is essential for the prediction of renal changes after ischemia/reperfusion injury. The aim of this study was to assess the ability of (1)H NMR spectroscopy to predict the early graft dysfunction in an ischemia/reperfusion model after preservation in two standard preservation solutions, Euro-Collins (EC) and University of Wisconsin (UW). The second aim was to specify the role of the UW solution in preventing renal medullary injury. Urine and plasma samples from three experimental groups were examined during 2 weeks: control group (n = 5), EC group (cold flushed and 48-h cold storage of kidney in EC and autotransplantation, n = 12), and UW group (cold flushed and 48-h cold storage of kidney in UW and autotransplantation; n = 12). We also examined these kidneys 30-40 min after implantation and on the sacrifice day. Creatinine clearance was significantly reduced in the EC group during the second week. Fractional excretion of sodium and urine N-acetyl-beta-d-glucosaminidase activity were improved but not significantly different in the preserved groups. Urinary concentrations of the alpha-class glutathione S-transferase were significantly greater in the EC group during the first week after transplantation. The most relevant resonances for evaluating renal function after transplantation determined by (1)H NMR spectroscopy were those arising from citrate, dimethylamine (DMA), lactate, and acetate in urine and trimethylamine-N-oxide (TMAO) in urine and plasma. These findings suggest that graft dysfunction is associated with damage to the renal medulla determined by TMAO release in urine and plasma associated with DMA and acetate excretion. Citrate is also a urinary marker that can discriminate kidneys with a favorable evolution. Our results suggest that (1)H NMR spectroscopy is an efficient technique for detecting ischemic damage when accurate and precise data on graft injury is required. In addition, this study outlines the specific impact of the UW solution against injury to the renal medulla.     

牛磺酸对大鼠肢体缺血/再灌注后肺组织损伤的保护作用

目的:观察大鼠肢体缺血再灌注(LIR)后肺组织形态学的变化及牛磺酸对其影响.方法:Wistar大鼠随机分为3组,对照组(control)、缺血/再灌注组(LIR)、牛磺酸 缺血/再灌注组(Tau LIR),各组动物通过大体、光镜和透射电镜观察肺组织形态学变化,并测定肺系数和肺通透指数及肺组织活性氧和MDA含量.结果:大鼠LIR后肺组织出现以肺泡毛细血管膜通透性增加为特征的组织细胞损伤,光镜下显示毛细血管扩张充血、血管周围间隙增大、肺泡腔中有大量蛋白渗出物,电镜下可见肺泡上皮细胞之间、毛细血管内皮之间的紧密连接松解;肺系数和肺通透指数升高;肺组织活性氧及MDA含量增加.提前给予外源性牛磺酸可使肺组织损伤变化减轻.结论:牛磺酸对大鼠LIR后肺损伤有保护作用,其保护机理之一与其抗氧化,保护细胞之间的紧密连接有关.     

缺血预适应对大鼠肢体缺血/再灌注后肺损伤的影响

目的:观察肢体缺血预适应对大鼠肢体缺血/再灌注(I/R)后肺损伤的影响并探讨其机制。方法:将雄性Wistar大鼠随机分为4组(n=8):对照组(C),肢体缺血/再灌注组(LI/R),缺血预适应组(IPC)和L-NAME组。各组大鼠均于肢体缺血4h再灌注4h处死,分别测定其动脉血氧分压(PaO2)和二氧化碳分压(PaCO2),血浆及肺组织丙二醛(MDA)、一氧化氮(NO)、内皮素(ET)含量,计算血浆NO/ET比值;以及肺湿干比(W/D)、肺系数(LI),肺组织髓过氧化物酶(MPO)含量。结果:大鼠LI/R后4h,PaO2明显降低;W/D、LI、血浆及肺组织的MDA、NO、ET和肺组织MPO活性均明显增加,而血浆NO/ET比值明显减小。与LI/R组比较,IPC组各项损伤指标明显减轻,NO水平升高,血浆NO/ET比值明显增大。与对照组和IPC组比较,L-NAME处理组,各项损伤指标数值明显增加,NO水平降低;血浆NO/ET比值明显减小,差异均具有显著性。各组大鼠PaCO2的变化无显著性。结论:缺血预适应对肢体缺血/再灌注后肺损伤具有保护作用,其机制可能与内源性NO合成增加有关。     

Influence of rapidly successive head impacts on brain strain in the vicinity of bridging veins

Acute subdural hematoma due to a bridging vein rupture is a devastating but rare injury. There has to date been no satisfactory biomechanical explanation for this infrequent but costly injury. We surmise that it may be associated with multiple head impacts. Though numerical models have been used to estimate vein strains in single impact events, none to date have examined the influence on localized brain strain of rapidly consecutive impacts. Using the Simulated Injury Monitor, we investigated the hypothesis that such double impacts can increase strain beyond that created by any single impact. Input to our parametric study comprised hypothetical biphasic rotational head accelerations producing a maximum angular velocity of 40 rad./s. In each of 19 simulations, two identical angular inputs are applied at right angles to each other but with time separations varying from 0 to 40 ms. For these double impacts, it has been generally found that strain in the region of the bridging veins is different, than what would be associated with any corresponding single impact. In some cases, the effect is to actually reduce the tissue strain. In others, the strain in the region of the bridging veins is increased markedly. The mechanistic explanation for the strain increase is that the tissue strain from the first impact has not diminished fully when strain from the second impact is initiated. Rapidly consecutive impacts could be a potential mechanism leading to vein rupture that warrants further investigation.     

脉冲1 064 nm激光视网膜损伤动物模型的建立

目的:建立脉冲1 064 nm Nd:YAG激光致视网膜出血性损伤及非出血性损伤动物模型,为治疗药物评价提供技术基础.方法:应用自由振荡脉冲及调Q脉冲1 064 nm激光照射青紫蓝灰兔视网膜,通过在光路中加人透镜获得直径200μm眼底光斑,加入衰减片改变角膜入射激光能量.照射即刻对损伤应用检眼镜进行实时观察,并用眼底相...     

Eupatilin alleviates inflammatory response after subarachnoid hemorrhage by inhibition of TLR4/MyD88/NF-κB axis

Early brain injury (EBI) is associated with the adverse prognosis of subarachnoid hemorrhage (SAH) patients. The key bioactive component of the Chinese herbal medicine Artemisia asiatica Nakai (Asteraceae) is eupatilin. Recent research reports that eupatilin suppresses inflammatory responses induced by intracranial hemorrhage. This work is performed to validate whether eupatilin can attenuate EBI and deciphers its mechanism. A SAH rat model was established by intravascular perforation in vivo. At 6 h after SAH in rats, 10 mg/kg eupatilin was injected into the rats via the caudal vein. A Sham group was set as the control. In vitro, BV2 microglia was treated with 10 μM Oxyhemoglobin (OxyHb) for 24 h, followed by 50 μM eupatilin treatment for 24 h. The SAH grade, brain water content, neurological score, and blood-brain barrier (BBB) permeability of the rats were measured 24 h later. The content of proinflammatory factors was detected via enzyme-linked immunosorbent assay. Western blot analysis was conducted to analyze the expression levels of TLR4/MyD88/NF-κB pathway-associated proteins. In vivo, eupatilin administration alleviated neurological injury, and decreased brain edema and BBB injury after SAH in rats. Eupatilin markedly reduced the levels of interleukin-1β (IL-1β), IL-6, and tumor necrosis factor-α (TNF-α), and suppressed the expression levels of MyD88, TLR4, and p-NF-κB p65 in the SAH rats' cerebral tissues. Eupatilin treatment also reduced the levels of IL-1β, IL-6, and TNF-α, and repressed the expression levels of MyD88, TLR4, and p-NF-κB p65 in OxyHb-induced BV2 microglia. Additionally, pyrrolidine dithiocarbamate or resatorvid enhanced the suppressive effects of eupatilin on OxyHb-induced inflammatory responses in BV2 microglia. Eupatilin ameliorates SAH-induced EBI via modulating the TLR4/MyD88/NF-κB pathway in rat model.     

NOGO-A immunolabeling is present in glial cells and some neurons of the recovering lumbar spinal cord in lizards

The transected lumbar spinal cord of lizards was studied for its ability to recover after paralysis. At 34 days post-lesion about 50% of lizards were capable of walking with a limited coordination, likely due to the regeneration of few connecting axons crossing the transection site of the spinal cord. This region, indicated as “bridge”, contains glial cells among which oligodendrocytes and their elongation that are immunolabeled for NOGO-A. A main reactive protein band occurs at 100–110 kDa but a weaker band is also observed around 240 kDa, suggesting fragmentation of the native protein due to extraction or to physiological processing of the original protein. Most of the cytoplasmic immunolabeling observed in oligodendrocytes is associated with vesicles of the endoplasmic reticulum. Also, the nucleus is labeled in some oligodendrocytes that are myelinating sparse axons observed within the bridge at 22–34 days post-transection. This suggests that axonal regeneration is present within the bridge region. Immunolabeling for NOGO-A shows that the protein is also present in numerous reactive neurons, in particular motor-neurons localized in the proximal stump of the transected spinal cord. Ultrastructural immunolocalization suggests that NOGO is synthesized in the ribosomes of these neurons and becomes associated with the cisternae of the endoplasmic reticulum, probably following a secretory pathway addressed toward the axon. The present observations suggest that, like for the regenerating spinal cord of fish and amphibians, also in lizard NOGO-A is present in reactive neurons and appears associated to axonal regeneration and myelination.