痛情绪相关神经递质及神经环路研究进展＊

痛情绪是指因疼痛引发的情绪和情感体验，是疾病过程中最常见的一种情绪。痛情绪相关神经机制非常复杂，但主要与单胺类神经递质、神经肽和某些神经环路有关，笔者将结合目前研究现状分别从以上两方面展开，就痛情绪相关单胺类神经递质和神经肽在受体分类、脑区通路、共疾病以及各神经递质之间的联系和痛情绪相关神经环路中各个蛋白的作用机制等方面进行探讨。     

Putting age-related task activation into large-scale brain networks: A meta-analysis of 114 fMRI studies on healthy aging

Normal aging is associated with cognitive decline and underlying brain dysfunction. Previous studies concentrated less on brain network changes at a systems level. Our goal was to examine these age-related changes of fMRI-derived activation with a common network parcellation of the human brain function, offering a systems-neuroscience perspective of healthy aging. We conducted a series of meta-analyses on a total of 114 studies that included 2035 older adults and 1845 young adults. Voxels showing significant age-related changes in activation were then overlaid onto seven commonly referenced neuronal networks. Older adults present moderate cognitive decline in behavioral performance during fMRI scanning, and hypo-activate the visual network and hyper-activate both the frontoparietal control and default mode networks. The degree of increased activation in frontoparietal network was associated with behavioral performance in older adults. Age-related changes in activation present different network patterns across cognitive domains. The systems neuroscience approach used here may be useful for elucidating the underlying network mechanisms of various brain plasticity processes during healthy aging.     

Engraftable neural crest stem cells derived from cynomolgus monkey embryonic stem cells

Neural crest stem cells (NCSCs), a population of multipotent cells that migrate extensively and give rise to diverse derivatives, including peripheral and enteric neurons and glia, craniofacial cartilage and bone, melanocytes and smooth muscle, have great potential for regenerative medicine. Non-human primates provide optimal models for the development of stem cell therapies. Here, we describe the first derivation of NCSCs from cynomolgus monkey embryonic stem cells (CmESCs) at the neural rosette stage. CmESC-derived neurospheres replated on polyornithine/laminin-coated dishes migrated onto the substrate and showed characteristic expression of NCSC markers, including Sox10, AP2α, Slug, Nestin, p75, and HNK1. CmNCSCs were capable of propagating in an undifferentiated state in vitro as adherent or suspension cultures, and could be subsequently induced to differentiate towards peripheral nervous system lineages (peripheral sympathetic neurons, sensory neurons, and Schwann cells) and mesenchymal lineages (osteoblasts, adipocytes, chondrocytes, and smooth muscle cells). CmNCSCs transplanted into developing chick embryos or fetal brains of cynomolgus macaques survived, migrated, and differentiated into progeny consistent with a neural crest identity. Our studies demonstrate that CmNCSCs offer a new tool for investigating neural crest development and neural crest-associated human disease and suggest that this non-human primate model may facilitate tissue engineering and regenerative medicine efforts.     

Non-viral transfer of BDNF and uPA stimulates peripheral nerve regeneration

Peripheral nerves connect brain and spinal cord with the extremities and inner organs, and nerves injury can lead the disability and social exclusion. Growth factors and other natural stimulators of regeneration processes look very promising as future medicines. In our study, we tested the influence of genetic constructions that contain genes of brain-derived neurotrophic factor and urokinase plasminogen activator on nerve's structure and function after traumatic and ischemic injuries. Injection of pVax1-hBDNF and pVax1-muPA after traumatic injury led to better restoration of nerve's structure and function compared to similar parameters of control group mice. In ischemic injury model pVax1-hBDNF and pVax1-muPA slowed and reduced the damage progression and stimulated nerve regeneration as well. However, the treatment with pVax1-muPA was less effective after the traumatic injury. As we chose a non-viral method of gene delivery during our study the optimal conditions of plasmid intramuscular delivery were also determined.     

高压氧治疗对慢性脑缺血大鼠认知功能的影响及其作用机制

目的 探讨高压氧（hyperbaric oxygen，HBO）治疗对慢性脑缺血（chronic cerebral ischemia，CCI）大鼠 学习记忆能力的影响及其作用机制。 方法 选取240只雄性SD大鼠随机分为假手术组、CCI组和HBO组，每组80只。采用双侧颈总动脉阻 断法建立CCI模型，HBO组建模12 h后开始进行HBO治疗28 d，压力0.2 MPa，每日1次，每次60 mi n。采用 Morri s水迷宫实验评估7、14、21、28 d大鼠的学习记忆能力，每个时间点20只，检测前均进行3 d训练， 记录各组大鼠的逃避潜伏时间、穿越平台次数。28 d后处死大鼠取海马组织进行HE染色评估神经元 损伤病理变化，RT-PCR法检测Nogo-A mRNA，Western blot法检测Nogo-A蛋白的表达水平。 结果 ①与假手术组比较，CCI 组7、14、21、28 d逃避潜伏时间均延长（均P＜0.05），28 d跨越平台次 数减少（P＜0.05）；与CCI 组比较，HBO组7、14、21、28 d逃避潜伏时间均缩短（均P＜0.05），28 d跨越 平台次数增加（P＜0.05）。②HE染色显示HBO组神经元损伤程度较CCI组减轻；③CCI组Nogo-A mRNA 和Nogo-A蛋白表达水平均较假手术组升高（均P＜0.05），HBO组表达水平均较CCI组下降（P＜0.05）。 结论 HBO治疗可改善慢性脑缺血大鼠认知功能，其机制可能与下调海马组织中Nogo-A的表达水平 有关。     

脱细胞基质面神经修复材料的制备

目的 制备具有天然神经组织结构的支架,构建组织工程化面神经用于修复面神经损伤。方法 取家兔面神经,改良化学萃取法制备脱细胞神经基质,HE染色形态学观察去细胞及脱髓鞘情况,荧光分光光度计测定支架内细胞经Quant-iT PicoGreen工作液染色后的DNA含量。MTT法检测细胞在支架上的相对生长率从而检测支架的细胞毒性。结果 支架移植体呈圆柱形,弹性与正常神经基本一致,组织观察显示细胞结构未见残余完整细胞及细胞碎片残留,未见神经髓鞘及轴突结构,细胞外基质形成纵向排列结构,结构之间可见空隙。兔脱细胞面神经基质支架内残留的DNA含量较正常兔面神经明显下降(P<0.01)。神经基质供体无细胞毒性。结论 改良化学萃取法可有效去除面神经细胞,天然结构保存完好,细胞毒性低,可作为组织工程化面神经的支架。     

不同促细胞分裂因子对人神经干细胞定向分化的影响

目的观察不同促细胞分裂因子对人神经干细胞(NSCs)增殖及定向分化的影响。方法对人NSCs用无血清DMEM培养基行原代培养的同时,分别加入表皮生长因子(EGF)、碱性成纤维生长因子(bFGF)、神经生长因子(NGF)、维甲酸(RA)等因子,观察其对NSCs定向分化的作用。结果EGF培养的NSCs,克隆球形成慢且较松散,经血清诱导分化后,主要为星形胶质细胞,仅有少数神经元。而bFGF培养的NSCs则生长良好。在加血清诱导分化后,不同浓度bFGF培养的NSCs分化的细胞不同。bFGF与EGF共同培养的NSCs,其生长及神经球形成良好。在加血清诱导分化后,分化的神经细胞比例更接近脑内神经细胞的组分。NGF对神经球的形成无明显影响,但可促使其向神经元分化。RA使神经克隆球形成,可使NSCs直接分化为神经元细胞的比例明显增加。结论不同促细胞分裂因子对人NSCs的增殖及定向分化均有一定影响。