MicroPET观察姜黄素对9月龄AD小鼠脑葡萄糖代谢的影响

目的通过氟18-脱氧葡萄糖MicroPET(18F-FDG microPET)影像技术观察姜黄素对9月龄AD小鼠的脑葡萄糖代谢影响。方法随机挑选9月龄(3月龄小鼠,干预6个月)模型组、西药组和姜黄素大、中、小剂量组AD小鼠各3只,以及同月龄C57BL/6J正常对照组小鼠3只,通过吸入2%异氟烷麻醉后,每例弹丸式从尾静脉注射放射性示踪剂18F-FDG约14.8～16.5 MBq,摄取1 h后采集10 min MicroPET图像。计算每组小鼠每克脑组织(除小脑)18F-FDG的摄取率并比较分析其差异。结果姜黄素中剂量组小鼠和西药组小鼠每克脑组织18F-FDG的摄取率高于正常对照组和模型组。结论姜黄素治疗后,9月龄AD模型小鼠脑18F-FDG的摄取有所改善,提示AD模型脑糖代谢所反映的脑功能得到改善,姜黄素发挥了神经保护作用。     

姜黄素对APPswe/PS1dE9双转基因小鼠Aβ生成和降解的影响

目的观察姜黄素对APPswe/PS1dE9双转基因小鼠β淀粉样蛋白(βamyloid,Aβ)生成酶早老素2(presenilin2,PS2)和Aβ降解酶胰岛素降解酶(insulin degrading enzyme,IDE)表达的影响,探讨姜黄素在AD防治中的机制。方法将3月龄的APPswe/PS1dE9双转基因小鼠随机分为模型组、阳性对照组[罗格列酮组,0.92mg/(kg·d)]、姜黄素大[400mg/(kg·d)]、中[200mg/(kg·d)]、小[100mg/(kg·d)]剂量组,每组10只;并以同月龄遗传背景相同的C57BL/6J小鼠作为正常对照组10只。每天灌胃给药1次,模型组和正常对照组用等体积0.5%羧甲基纤维素(carboxymethyl cellulose,CMC)灌胃。灌胃3个月后,应用Morris水迷宫、免疫组织化学等方法,检测动物的学习记忆能力、海马Aβ生成酶PS2和降解酶IDE表达变化。结果行为学检测,模型组小鼠的游泳轨迹多为边缘型,而正常对照组、阳性对照组、姜黄素各组小鼠的游泳轨迹多为趋向型和直线型。Aβ生成酶PS2和降解酶IDE的免疫组织化学染色结果,模型组小鼠海马CA1区PS2阳性细胞较正常对照组明显增加(P0.01),与模型组相比,姜黄素各组小鼠海马CA1区PS2阳性细胞减少(P0.01)。模型组小鼠海马CA1区PS2阳性细胞平均灰度值较正常对照组降低(P0.05),姜黄素小剂量组阳性细胞平均灰度值同模型组相比明显增加(P0.01)。模型组小鼠海马CA1区IDE阳性细胞较正常对照组明显减少(P0.01),与模型组相比,姜黄素中剂量组小鼠海马CA1区IDE阳性细胞明显增加(P0.05)。模型组小鼠海马CA1区IDE阳性细胞平均灰度值较正常对照组明显增加(P0.01),姜黄素各组小鼠海马CA1区IDE阳性细胞平均灰度值同模型组相比均明显降低(P0.01)。结论姜黄素能通过减少Aβ生成酶和增加Aβ降解酶的表达,降低Aβ蛋白的表达进而改善APPswe/PS1dE9双转基因小鼠的学习记忆能力。     

心肌细胞内质网应激介导APPswe/PS1dE9转基因成年小鼠发生心肌肥厚的研究

目的:探讨内质网应激在APPswe/PS1dE9转基因成年小鼠发生心肌肥厚中的作用。方法:选择APPswe/PS1dE9转基因成年小鼠及野生型(WT)成年小鼠各10只,分别为转基因实验组及对照组、野生型实验组及对照组,每组各5只,实验组背部皮下注射低剂量异丙肾上腺素(ISO)(2 mg/kg),每日1次,连续4周;对照组注射同等体积的生理盐水,4周后麻醉各组小鼠,描记体表心电图,计算心率,测量体重后处死,取出心脏,测量心脏质量及左室质量,计算左心室重量指数(LVW/BW)及全心重量比(HW/BW)。用于HE染色法测定心肌细胞病理形态学变化,应用Western Blot方法及免疫组织化学方法检测内质网应激相关蛋白即GRP78、JNK、P-JNK及CaMKⅡ的表达。结果:APPswe/PS1dE9转基因小鼠在低剂量的ISO诱导后较WT小鼠心脏明显肥大,APPswe/PS1dE9转基因实验组较转基因对照组及WT小鼠实验组及对照组HW/BW及LVW/BW显著增加(P0.05);HE染色可见APPswe/PS1dE9转基因实验组较转基因对照组及WT实验组、对照组心肌细胞直径明显变大,细胞密度变小,毛细血管密度减少,细胞间质增多,细胞间距变大。Western blot结果显示APPswe/PS1dE9转基因实验组GRP78、p-JNK及CaMKⅡ的表达较转基因对照组及WT两组明显增加(P0.05,P0.01),而转基因对照组与WT两组无明显差异。免疫组化结果显示APPswe/PS1dE9转基因实验组GRP78及CaMKⅡ蛋白在心肌细胞胞浆中表达阳性率80%,明显高于野生型实验组(40%)(P0.05),两组对照组表达均为阴性;转基因实验组p-JNK表达为90%,JNK表达为30%,其它三组均为阴性。结论:APPswe/PS1dE9转基因成年小鼠在较低剂量的ISO诱导后较WT实验组更容易出现心肌肥厚,内质网应激参与了APPswe/PS1dE9转基因成年小鼠心肌肥厚的发生。     

姜黄素对9月龄APPswe／PSldE9双转基因小鼠行为学的影响

目的应用Morris水迷宫,测试AD模型APPswe／PSldE9双转基因小鼠定位航行及空间搜索等学习记忆和记忆保持能力,评价姜黄素对APPswe／PSldE9双转基因小鼠认知功能的影响。方法将3月龄的APPswe／PSldE9双转基因小鼠随机分为模型组、罗格列酮组（10ms／kg·d）、姜黄素高（400Ing／kg·d）、中（200ing／kg·d）、低剂量组（100mg,,kg·d）,每组6只;并以同月龄遗传背景相同的C57／BL6J小鼠作为对照组。每天灌胃给药1次,连续灌胃6个月。应用Morris水迷宫进行行为学检测。结果姜黄素对APPswe／PSldE9双转基因小鼠空间学习记忆能力障碍有改善作用,尤以姜黄素大剂量和中剂量组效果比较明显。结论姜黄素能改善APPswe／PSldE9双转基因小鼠的认知功能。     

动态观察姜黄素对APP/PS1双转基因小鼠尿液AD7C-NTP浓度的影响

目的通过动态检测小鼠尿液中AD7C-NTP的浓度变化,了解姜黄素在阿尔茨海默病治疗方面的作用。方法 3月龄APP/PS1双转基因小鼠35只,随机分为5组,每组7只,分别为模型组,阳性对照组(罗格列酮组),姜黄素大、中、小剂量组;另选用同月龄同背景的C57BL/6J小鼠7只作为正常对照组。以上6组连续灌胃3个月,分别于灌胃前、灌胃30d、灌胃60d和灌胃90d收集小鼠尿液,应用酶联免疫吸附试验(ELISA)检测尿AD7C-NTP浓度的变化。结果不同时间点各组小鼠尿AD7C-NTP浓度的动态存在波动,各治疗组治疗2个月与治疗1个月相比,AD7C-NTP浓度均有所下降(P0.05,P0.01);同一时间点小鼠尿AD7C-NTP浓度组间比较:治疗2个月后,西药组,姜黄素大、小剂量组与模型组相比AD7C-NTP浓度有所下降(P0.05,P0.01)。结论姜黄素可降低AD模型小鼠尿液内AD7C-NTP浓度,延缓AD的进展。     

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。     

初步探讨鸟嘌呤核苷、姜黄素对AD双转基因小鼠学习记忆的影响

目的通过Morris水迷宫检测学习记忆和记忆保持能力,判断鸟嘌呤核苷、姜黄素对4月龄APPswe/PS1dE9双转基因小鼠认知功能的影响。方法将3月龄APPswe/PS1dE9双转基因小鼠随机分为模型组、盐酸多奈哌齐组0.92 mg/(kg·d)、鸟嘌呤核苷组20 mg/(kg·d)、姜黄素组200 mg/(kg·d)、姜黄素200 mg/(kg·d)和鸟嘌呤核苷组20 mg/(kg·d),每组12只;并以同月龄野生型C57/BL6J小鼠作对照。每天给药1次,连续给药1个月。应用Morris水迷宫进行行为学检测。结果鸟嘌呤核苷、姜黄素对空间探索、定位航行障碍有改善作用,尤其以姜黄素组明显。结论鸟嘌呤核苷、姜黄素能改善APPswe/PS1dE9双转基因小鼠的早期出现的认知障碍。     

中药Ⅰ号方对APP/PS1双转基因模型小鼠APP代谢的影响

目的研究中药I号方对APP/PS1双转基因模型小鼠APP代谢的影响。方法将5月龄APP/PS1双转基因模型小鼠随机分为模型组（vehicle）、中药Ⅰ号方低剂量组（0.6 g/kg）、中剂量组（1.2 g/kg）和高剂量组（2.4 g/kg）,并以同窝阴性小鼠作为正常对照组（wild-type,WT）,每组16只,雌雄各半。给药小鼠每天灌胃一次,模型组和正常对照组分别给予等体积的双蒸水灌胃。给药四个月后,用免疫组化和Western blot检测淀粉样前体蛋白（APP）及其代谢产物和分解酶的变化。结果 Western blot结果显示,与模型组相比,治疗组低剂量、中剂量和高剂量给药组能显著降低APP分解酶（ADAM10和BACE1）（P〈0.01）及APP的分解产物的量,如：β-CTF（C99）、α-CTF（C83）、s APPα、s APPβ（P〈0.01）。结论中药I号方通过影响APP的分解过程减少淀粉样蛋白（β-amyloid peptide,Aβ）的生成,减少脑内老年斑的沉积。     

游泳运动对APP/PS1转基因小鼠学习记忆能力的影响

探讨游泳运动对APP/PS1转基因小鼠学习记忆能力的影响。选择11月龄的雄性APP/PS1转基因小鼠,随机平均分为对照组和游泳组,对照组常规饲养而游泳组进行1个月的游泳运动训练。分别采用刚果红染色、Tunel检测、Western Blot和Morris水迷宫等实验方法观察小鼠大脑皮层Aβ斑形成、神经元凋亡、线粒体生成相关蛋白表达和学习记忆能力的变化情况。结果发现,游泳运动可以减少APP/PS1转基因小鼠大脑皮层Aβ斑的形成、抑制神经元凋亡、促进线粒体生成、增强小鼠的学习记忆能力。由此可见,游泳运动可作为一项防治阿尔茨海默病的行为治疗候选方案。     

肉苁蓉苯乙醇苷对APP/PS1双转基因模型小鼠海马脑区β淀粉样蛋白表达的影响

为研究肉苁蓉苯乙醇苷对阿尔茨海默病模型小鼠海马β淀粉样蛋白表达的影响。实验选用6月龄APP/PS1双转基因AD模型小鼠60只,随机分为模型组、多奈哌齐组(0.65mg/kg)、肉苁蓉苯乙醇总苷剂量组(250,125,62.5mg/kg)、肉苁蓉毛蕊花糖苷组(125mg/kg),正常组为同窝非转基因小鼠10只,分别给予药物和蒸馏水灌胃3个月,于9月龄时通过Morris水迷宫法检测行为学改变,采用HE染色法观察小鼠脑部海马病变,采用免疫组化法和Western-blot法考察海马Aβ1-42和Aβ1-40蛋白表达。实验结果发现肉苁蓉苯乙醇苷明显改善小鼠学习与记忆能力和脑部海马神经元的损伤,减少Aβ1-42、Aβ1-40阳性细胞数,并下调蛋白表达。肉苁蓉苯乙醇苷通过下调小鼠海马脑区Aβ1-42、Aβ1-40蛋白表达,从而影响Aβ级联反应以保护神经元,发挥拮抗AD作用。本研究明确了苯乙醇苷是肉苁蓉发挥抗AD活性的主要药效物质基础,为后续将其开发为抗AD新药提供了理论支撑。     

Intranasal insulin alleviates cognitive deficits and amyloid pathology in young adult APPswe/PS1dE9 mice

Brain insulin signaling deficits contribute to multiple pathological features of Alzheimer's disease (AD). Although intranasal insulin has shown efficacy in patients with AD, the underlying mechanisms remain largely unillustrated. Here, we demonstrate that intranasal insulin improves cognitive deficits, ameliorates defective brain insulin signaling, and strongly reduces β‐amyloid (Aβ) production and plaque formation after 6 weeks of treatment in 4.5‐month‐old APPswe/PS1dE9 (APP/PS1) mice. Furthermore, c‐Jun N‐terminal kinase activation, which plays a pivotal role in insulin resistance and AD pathologies, is significantly inhibited. The alleviation of amyloid pathology by intranasal insulin results mainly from enhanced nonamyloidogenic processing and compromised amyloidogenic processing of amyloid precursor protein (APP), and from a reduction in apolipoprotein E protein which is involved in Aβ metabolism. In addition, intranasal insulin effectively promotes hippocampal neurogenesis in APP/PS1 mice. This study, exploring the mechanisms underlying the beneficial effects of intranasal insulin on Aβ pathologies in vivo for the first time, highlights important preclinical evidence that intranasal insulin is potentially an effective therapeutic method for the prevention and treatment of AD.     

Cognitive and non-cognitive behaviors in an APPswe/PS1 bigenic model of Alzheimer's disease

Neuropsychiatric signs are critical in primary caregiving of Alzheimer patients and yet have been relatively ignored in murine models. In the present study, APPswe/PS1 bigenic mice had higher levels of irritability than non-transgenic controls as measured in the touch escape test. Moreover, APPswe/PS1 mice showed poorer nest building than controls and a higher duration of immobility in the forced swimming assay. These results are concordant with the hypothesis of increased apathy and depression-like behavior in an Alzheimer's disease model. In addition, APPswe/PS1 bigenic mice were deficient in retention of passive avoidance learning and left–right discrimination learning, concordant with previous findings in other Alzheimer-like models.     

Impairments of long‐term depression induction and motor coordination precede Aβ accumulation in the cerebellum of APPswe/PS1dE9 double transgenic mice

Alzheimer's disease (AD) is a neurodegenerative disorder that represents the most common type of dementia among elderly people. Amyloid beta (Aβ) peptides in extracellular Aβ plaques, produced from the amyloid precursor protein (APP) via sequential processing by β‐ and γ‐secretases, impair hippocampal synaptic plasticity, and cause cognitive dysfunction in AD patients. Here, we report that Aβ peptides also impair another form of synaptic plasticity; cerebellar long‐term depression (LTD). In the cerebellum of commonly used AD mouse model, APPswe/PS1dE9 mice, Aβ plaques were detected from 8 months and profound accumulation of Aβ plaques was observed at 18 months of age. Biochemical analysis revealed relatively high levels of APP protein and Aβ in the cerebellum of APPswe/PS1dE9 mice. At pre‐Aβ accumulation stage, LTD induction, and motor coordination are disturbed. These results indicate that soluble Aβ oligomers disturb LTD induction and cerebellar function in AD mouse model.