激活素促进鸡胚神经节神经突起生长作用

为了探讨激活素(activin)促进鸡胚背根神经节(dorsal root ganglia,DRG)突起生长、维持神经节细胞生存作用及其与一氧化氮(NO)释放的关系,实验采用8 d的鸡胚分离背根神经节,原代培养法,观察鸡胚背根神经节的体外生长情况。研究结果表明,添加激活素A培养的背根神经节有明显的神经突起生长,形成密集的网络,背根神经节可存活8~10 d;而阴性对照组几乎无神经突起生长,背根神经节可存活3~4 d。添加激活素A的背根神经节单层培养神经节细胞也可长期存活;而阴性对照组在培养第5 d几乎无神经节细胞生存。NO检测结果显示,添加激活素A培养的背根神经节上清NO分泌水平明显降低,与阴性对照组比较差异显著(P<0.05);激活素A与神经生长因子(nerve growth factor,NGF)具有协同抑制背根神经节NO分泌作用。激活素结合蛋白(follistatin)明显抑制激活素A诱导的背根神经节神经突起生长。研究结果提示,激活素可维持鸡胚神经节细胞存活并刺激神经突起生长,其作用与抑制神经损伤因子NO的释放有关。     

瞬时外向钾电流的降低介导了慢性压迫背根神经节细胞兴奋性的升高

慢性压迫大鼠背根神经节（chronic compression of the dorsal root,ganglion,CCD）后,背根神经节细胞兴奋性升高,但引起神经元兴奋性改变的离子通道机制还需进一步探索。本实验采用胞内记录以及全细胞膜片钳记录方法,研究急性分离的大鼠背根神经节细胞兴奋性改变与瞬时外向钾电流（A-type potassium current,ⅠA）的关系。结果表明,CCD术后背根神经节细胞兴奋性升高,在急性分离的体外细胞中仍继续存在,表现为对辣椒素敏感的背根神经节细胞产生动作电位的最小电流刺激强度,即阈电流（current threshold）及阈电位（voltage threshold）降低;给予正常对照组神经元（未压迫损伤）瞬时外向钾通道阻断剂4-氨基吡啶,出现了类似CCD术后兴奋性升高的改变。进一步用两步电压钳方法分离ⅠA,研究CCD术后神经元ⅠA的变化,结果表明,CCD组神经元的ⅠA比对照组神经元ⅠA降低,并且与其阈电位的改变一致。以上结果提示,背根神经节压迫受损后,神经节细胞ⅠA降低可能参与介导了神经节细胞兴奋性的升高。     

表达神经营养因子Neurturin的骨髓间充质干细胞的构建及体外活性检测

研究神经营养因子Neurturin(NTN)在由于神经元损伤而造成的神经退行性疾病中对神经元的保护和修复作用。利用重组腺病毒载体将NTN基因转入恒河猴骨髓间充质干细胞(rMSC),通过RT-PCR、IF及Western blot方法检测NTN的转录和表达,并采用鸡胚背根神经节体外培养实验和胚胎大鼠中脑多巴胺能神经元存活实验对NTN进行体外活性检测。结果表明NTN在rMSC中稳定表达和分泌,并具有体外生物学活性,为由于神经元损伤造成的神经退行性疾病的干细胞移植治疗奠定了一定的基础。     

神经肽对体外培养人胚神经组织细胞生长发育的影响

本文成功地体外培养了人胚背根神经节和大脑皮层神经细胞,并首次通过它们研究了神经肽对种经组织细胞生长发育的影响。结果看出,培养液中加入神经肽后,背根神经节突起长度和密度增加;大脑皮层神经细胞存活数增加,分化神经元增多,胞体增大,突起增长,细胞生长加快,衰老减慢。超微结构观察表明,种经肽可增加细胞内的合成代谢和细胞间的相互连接,减少细胞变性损伤．本实验证实神经肽对神经组织具有种经营养作用,这为神经肽在临床上推广应用提供了实验依据。     

无血清原代培养大鼠海马神经元的形态与膜电位

分离新生Wistar鼠海马,采用添加B27的无血清培养液进行海马神经元原代培养,动态观察海马神经元形态学变化;通过免疫荧光细胞化学法检测神经纤丝(NF)的表达,进行神经元鉴定及纯度计算;采用电位敏感的荧光探针标记神经元,在激光扫描共聚焦显微镜上动态监测去极化剂KCl作用前后膜电位的变化,观察神经元电生理反应。结果表明:此方法培养的大鼠海马神经元可在体外存活20天以上,9～14天为发育最成熟阶段,培养7天神经元纯度达90%。KCl作用于细胞后胞内荧光强度增强,细胞迅速去极化。本培养方法在体外获得高纯度的海马神经元并延长体外存活时间,且显示出神经元的电生理反应特性。     

芍药苷对大鼠背根神经元细胞内Ca~(2+)的影响

目的建立一种评价芍药苷对大鼠背根神经节神经元细胞内游离Ca~(2+)浓度影响的方法。方法显微解剖获取大鼠背根神经节(DRG),通过胰蛋白酶消化,过筛,用DF-12和抗有丝分裂培养液交替培养纯化,获得原代大鼠DRG神经元细胞,并采用细胞免疫荧光技术测定DRG神经元细胞纯度;采用激光共聚焦显微成像技术,观察细胞内Ca~(2+)荧光强度的变化,并对Ca~(2+)荧光强度变化率进行分析,探讨芍药苷对DRG细胞内游离钙离子浓度及辣椒素受体的影响。结果采用上述方法分离得到的DRG细胞纯度可高达95%以上,辣椒平可通过阻断辣椒素激活的瞬时受体电位通道的作用而抑制细胞内Ca~(2+)的增加。芍药苷表现出与辣椒平类似的作用,可以阻断细胞外Ca~(2+)内流。结论芍药苷可能是通过作用于TRPV1通道,而抑制DRG细胞内Ca~(2+)大量增加,本方法可以用于评价药物对大鼠DRG细胞内Ca~(2+)浓度的影响。     

视网膜神经节细胞的纯化和体外存活

我们用特异性抗体Thy1.1结合尼龙筛方法分离和纯化新生大鼠视网膜神经节细胞,比较顶盖提取液对这些纯化细胞的作用。预先以快蓝(fast blue,FB)逆行标记的视网膜细胞悬液,接种在包被了Thy1.1抗体的培养皿上30分钟,冲洗未粘附的细胞,显微镜下计数粘附细胞中FB标记的视网膜神经节细胞纯度的百分比,最高为95%。用孔径15μm尼龙筛方法分离的纯度仅为60±5%。上述两种方法纯化的视网膜神经节细胞,仅在有顶盖提取液存在时,细胞存活并生长活跃,胞体大且有突起伸出。MTT微量比色法测定培养24小时纯化细胞存活的光密度(OD)值,显示以Thy1.1特异性抗体纯化的细胞,其OD值比值(+Te/-Te)是12.3(0.111/0.009);以尼龙筛纯化的OD值比值(+Te/-Te)是6.4(0.102/0.016);未经纯化的OD值比值(+Te/-Te)是3.8(0.095/0.025)。在上述三组中,加Te与无Te细胞生存的OD值比较,相差均非常显著(P<0.01)。结论:在纯化的视网膜神经节细胞的培养中,由于排除了其他细胞所引起的非特异性反应,神经节细胞能够更直接地反映顶盖提取液的生物效应;视网膜神经节细胞纯度越高,其作用越显著。     

脊神经节感觉神经35kD特异蛋白的纯化

为纯化和鉴定感觉神经特异蛋白,以兔脊髓背根神经节及背根纤维组织为材料,通过制备匀浆、离子交换层析 Ｄ Ｅ Ａ Ｅ Ｓｅｐｈａｃｅｌ,高压液相凝胶过滤层析分离纯化了脊神经感觉神经元 ３５ ｋ Ｄ蛋白,将其作为抗原制备抗 ３５ ｋ Ｄ 多克隆抗体． Ｗ ｅｓｔｅｒｎ ｂｌｏｔ 的结果表明,该蛋白特异地存在于脊感觉神经而不存在于脊运动神经．并初步观察到它对鸡胚背根节有神经营养作用．     

一种适合膜片钳单通道记录的大鼠DRG神经元急性分离方法

目的：建立一种适合膜片钳单通道记录的脊髓背根神经节神经元急性分离方法。方法：用酶消化和机械分离相结合的方法急性分离大鼠DRG神经元。结果：用本方法分离的DRG细胞容易形成较高的封接电阻（〉5GΩ）,降低了噪音干扰,可记录到pA级的单通道电流。结论：本方法急性分离的DRG神经元适合单通道膜片钳实验研究。     

GDNF对体外运动神经元和感觉神经元的影响

目的:探讨胶质细胞源性神经营养因子(GDNF)对正常胎鼠脊髓运动神经元(SMN)和背根神经节神经元(DRG)生长活性的作用.方法:建立大鼠胚胎SMN和DRG单细胞培养体系,观察1 μg/L、10 μg/L、50 μg/L和100 μg/L GDNF对SMN和DRG存活及突起生长的影响.结果: GDNF组培养的SMN和DRG存活数目明显增加,神经元突起长度比对照组明显增长,且具有剂量依赖趋势.结论: GDNF对正常大鼠胚胎发育期运动神经元和感觉神经元具有神经营养作用.     

Subtypes of dorsal root ganglion neurons based on different inward currents as measured by whole-cell voltage clamp

Electrophysiological and pharmacological properties distinguished subtypes of adult mammalian dorsal root ganglion neurons (DRGn) in monolayer dissociated cell culture. By analogy of action potential waveform and duration, neurons with short duration (SDn) and long duration (LDn) action potentials resembled functionally distinct subtypes of DRGn in intact ganglia. Patch clamp and conventional intracellular recording techniques were combined here to elucidate differences in the ionic basis of excitability of subtypes of DRGn in vitro. Both SDn and LDn were quiescent at the resting potential. Action potentials of SDn were brief (less than 2 msec), sensitive to tetrodotoxin (TTX, 5-10 nM), exhibited damped firing during long depolarizations, and did not respond to algesic agents applied by pressure ejection. Action potentials of LDn were 2-6 msec in duration, persisted in 30 microM TTX, and fired repetitively during depolarizing current pulses or exposure to algesic agents (e.g., capsaicin, histamine and bradykinin). Whole-cell recordings from freshly dissociated neurons revealed two inward sodium currents (INa; variable with changes in sodium but not calcium concentration in the superfusate) in various proportions: a rapidly activating and inactivating, TTX-sensitive current; and, a slower, TTX (30 microM)-resistant INa. Large neurons, presumable SDn, had predominantly TTX-sensitive current and little TTX-resistant current. The predominant inward current of small neurons, presumably LDn, was TTX-resistant with a smaller TTX-sensitive component. By analogy to findings from intact ganglia, these results suggest that fundamentally different ionic currents controlling excitability of subtypes of DRGn in vitro may contribute to functional differences between subtypes of neurons in situ.     

Metalloproteinase-Dependent Neurite Outgrowth within a Synthetic Extracellular Matrix Is Induced by Nerve Growth Factor

In order to assess the requirement for matrix metalloproteinases in neuronal regeneration, in vitro neurite outgrowth by chick dorsal root ganglionic neurons (DRGn) was examined within a reconstituted extracellular matrix. For these studies, cultured neurons were treated with a synthetic peptide inhibitor of metalloproteinases (spIMP), LMHKPRCGYPDVGG.spIMP inhibited all neuronal metalloproteinase activities in zymography and substrate-release assays and was used to examine the role of metalloproteinases in neurite outgrowth by DRGn. Cultures of dissociated DRGn rapidly extended neurites on planar extracellular matrix substrates and this rate of outgrowth was not affected by adding NGF or spIMP. In contrast, neurite extension within a three-dimensional gel of extracellular matrix increased nearly threefold after adding NGF. The NGF-induced neurite penetration was negated in the presence of spIMP but not by control peptide. Similar results were obtained using explanted dorsal root ganglia. These findings suggested that NGF-induced neurite outgrowth within an extracellular matrix involves metalloproteinase activity. Zymographic analysis of media conditioned by NGF-treated DRGn revealed a pair of gelatinolytic bands with apparent molecular masses 72 and 66 kDa, which comigrated as a single 66-kDa band after activation with an organomercurial agent. The gelatinase activities were calcium- and zinc-dependent and were absent from zymograms developed in the presence of spIMP, indicating that NGF-treated DRGn release and activate a 72-kDa metalloproteinase. Samples from DRGn cultures treated with low levels of NGF contained similar amounts of latent and activated metalloproteinase, while high levels of NGF induced an apparent increase in total metalloproteinase secretion and a substantially greater proportion of activated enzyme. Western blot analysis showed this metalloproteinase was immunologically similar to 72-kDa type IV collagenase and immunoassays revealed that this matrix metalloproteinase was increased threefold by high NGF. Furthermore, after high NGF treatment, DRGn media contained sixfold more metalloproteinase activity in assays of matrix degradation. In summary, these results indicate that NGF enhanced metalloproteinase-dependent neurite outgrowth of DRGn within a reconstituted extracellular matrix. Also, NGF increased the expression and activation of 72-kDa type IV collagenase, suggesting a role for this matrix-degrading metalloproteinase in neuronal regeneration.     

Quantification of an in vitro cell-cell adhesion assay using interactive laser scanning cytometry.

We are interested in identifying cell-cell adhesion molecules on the surface of Sertoli cells that mediate Sertoli cell-spermatogenic cell adhesion. Numerous cell-cell adhesion assays employ microscopic observation, photomicroscopy or radioactive isotopes for quantification. Previously, we developed an in vitro assay for testicular cell interactions. This assay was, however, time consuming using photography for analysis. We have now modified this system using laser cytometry to quantify adherent cells. Rat testicular epithelial cells are cultured for approximately 6 days before labelling with fluorescein diactetate (FDA) to assess confluency by image scanning so that spermatogenic cell binding can be normalized to available epithelial cell surface area. Rat spermatogenic cells are labeled with FDA before addition to epithelial cell monolayers. In some studies, purified spermatogenic cell populations were isolated to determine average cell size. We found that spermatocyte area varied between 225-500 microns2, spermatids were 100-225 microns2 and residual bodies were less than 100 microns2. Using these parameters, scanning cytometry allows the differential analysis of adhesion by individual germ cell sub-classes from mixed cell suspensions, saving time, animals, and major expense. The scanning laser assisted assay is faster, more reproducible and less subjective than earlier cell-cell adhesion assays using light microscopy or isotopes. This experimental approach should facilitate any cell-cell adhesion assay in which one cell type is adherent to a substrate.     

不同生长底物对培养背根神经节细胞的影响（简报）

发育期细胞和细胞外基质(extracellular matrix,ECM)之间的相互作用调节着细胞的功能,包括细胞的迁移、细胞骨架的构建、细胞的增值和分化。神经元“移居”体外后,失去了在体内所依托的组织学关系,必须黏附于一个固相表面才能生存,所以神经元只有在包被基质的培养器皿上才能存活,     

Sensory neurons influence the expression of cell adhesion factors by cutaneous cells in vitro and in vivo

Dorsal root ganglion (DRG) neurons co-cultured with skin-derived fibroblast-like cells (FLCs) show a strong neurite outgrowth. However, when physical contact between FLCs and neurons is prevented with membrane inserts, the DRG neurons exhibit a low survival and a deficient neurite growth. This indicates that cell adhesion molecules influence neuronal survival and neurite growth in co-cultures. The aim of the present study is to find out if selected adhesion molecules are expressed by cultivated FLCs with and without nervous influences, and/or by normal and denervated whole skin. RT-PCR data show that cultured FLCs and denervated skin express L1, N-CAM, N-cadherin and ninjurin, but not neurofascin or TAG-1. However, cultured FLCs exposed to DRG homogenates and innervated skin express N-cadherin only. Following application of neutralizing L1-, N-cadherin- and ninjurin-antibodies (but not N-CAM-antibodies) in the culture medium the mean number of surviving neurons is decreased. Co-cultures incubated with L1-, N-cadherin- or ninjurin-antibodies all show significantly less neurite outgrowth compared to controls. In conclusion, the findings in this paper indicate (i) that FLCs cultured in vitro and denervated whole skin express the cell adhesion factors L1, N-CAM, N-cadherin and ninjurin, (ii) that FLCs treated with neural molecules and innervated whole skin express N-cadherin only, (iii) that L1, N-cadherin and ninjurin are important for DRG neurons co-cultured with FLCs in vitro in terms of survival and neurite extension and (iv) that there may exist subpopulations of DRG-neurons with different sensitivities for N-cadherin- and ninjurin-antibodies.     

Purification of the major outer membrane protein of Azospirillum brasilense, its affinity to plant roots, and its involvement in cell aggregation

The major outer membrane protein (MOMP) of the nitrogen-fixing rhizobacterium Azospirillum brasilense strain Cd was purified and isolated by gel filtration, and antiserum against this protein was obtained. A screening of the binding of outer membrane proteins (OMPs) of A. brasilense to membrane-immobilized root extracts of various plant species revealed different affinities for the MOMP, with a stronger adhesion to extracts of cereals in comparison with legumes and tomatoes. Moreover, this protein was shown to bind to roots of different cereal seedlings in an in vitro adhesion assay. Incubation of A. brasilense cells with MOMP-antiserum led to fast agglutination, indicating that the MOMP is a surface-exposed protein. Cells incubated with Fab fragments obtained from purified MOMP-antiserum immunoglobulin G exhibited significant inhibition of bacterial aggregation as compared with controls. Bacteria preincubated with Fab fragments showed weaker adhesion to corn roots in comparison to controls without Fab fragments. These findings suggest that the A. brasilense MOMP acts as an adhesin involved in root adsorption and cell aggregation of this bacterium.     

Inhibition of phospholipase A2 activity of guinea-pig alveolar macrophages by lipocortin-like proteins purified from mice lung

Guinea-pig alveolar macrophages were harvested by bronchoalveolar lavage and purified by differential adhesion. They were labeled with 14C-Arachidonic acid and then exposed to platelet-activating factor or to the calcium ionophore A23187. The activity of cellular phospholipase A2 was considered as the release of free 14C-Arachidonic acid in the cell supernatant. The pretreatment of guinea-pig alveolar macrophages with two lipocortin-like proteins (36 kDa and 40 kDa) purified from mice lung induced a significant inhibition of their phospholipase A2 activity upon platelet-activating factor and calcium ionophore stimulation. These results indicate that lipocortin-like proteins can modulate the phospholipase A2 activity of isolated cells in vitro.     

自组装IKVAV多肽纳米纤维支架凝胶及其对嗅鞘细胞的作用

旨在观察自组装IKVAV多肽纳米纤维支架凝胶对鼠嗅鞘细胞(OECs)的作用。通过调整IKVAV溶液pH值并加入培养液触发多肽自组装为支架凝胶, 用原子力显微镜检测IKVAV分子可以自组装成编织状纳米纤维(直径为3~5 nm)。采用原代分离培养方法获得OECs单细胞悬液后, 使用差速贴壁法两次纯化OECs且在第12天通过免疫染色计数OECs纯度为85%。将IKVAV多肽纳米纤维支架凝胶与OECs复合培养, 倒置显微镜下观察OECs生长良好, Calcein-AM/PI活、死细胞染色表明活细胞数达95%。CCK-8法间接细胞计数证实IKVAV多肽可促进OECs的黏附, 对OECs增殖没有影响。由此可见IKVAV多肽可以自组装成纳米纤维支架凝胶且对OECs有良好的生物相容性及黏附作用, 可作为神经组织工程支架材料。     

改良组织块消化法建立大鼠气道平滑肌细胞模型

目的：建立改进大鼠气道平滑肌细胞（ASMC）的体外培养方法,为相关研究提供实验材料。方法：将组织块连续贴壁进行细胞原代培养,胰酶消化传代培养,差速贴壁进行细胞纯化,形态学及免疫细胞化学染色法进行细胞鉴定。MTT法检测PDGF-BB诱导的ASMC增殖。结果：成功培养大鼠ASMC,以改良组织块消化法最为理想。第四代平滑肌细胞纯度可达95％以上。相差显微镜下培养细胞呈典型“峰谷状”生长。免疫荧光化学染色显示特异性平滑肌肌动蛋白阳性表达。随着PDGF浓度的升高（2-80ng／ml）,MTT比色A490值呈上升趋势。与对照组相比较,80ng／ml、20ng／ml PDGF—BB组有统计学意义（P〈0．01）。结论：改良组织块消化法可缩短培养周期,在充分利用标本的基础上获得大量气道平滑肌细胞。     

Matrix-dependent proteolysis of surface transglutaminase by membrane-type metalloproteinase regulates cancer cell adhesion and locomotion

Cell invasion requires cooperation between adhesion receptors and matrix metalloproteinases (MMPs). Membrane type (MT)-MMPs have been thought to be primarily involved in the breakdown of the extracellular matrix. Our report presents evidence that MT-MMPs in addition to the breakdown of the extracellular matrix may be engaged in proteolysis of adhesion receptors on tumor cell surfaces. Overexpression of MT1-MMP by glioma and fibrosarcoma cells led to proteolytic degradation of cell surface tissue transglutaminase (tTG) at the leading edge of motile cancer cells. In agreement, structurally related MT1-MMP, MT2-MMP, and MT3-MMP but not evolutionary distant MT4-MMP efficiently degraded purified tTG in vitro. Because cell surface tTG represents a ubiquitously expressed, potent integrin-binding adhesion coreceptor involved in the binding of cells to fibronectin (Fn), the proteolytic degradation of tTG by MT1-MMP specifically suppressed cell adhesion and migration on Fn. Reciprocally, Fn in vitro and in cultured cells protected its surface receptor, tTG, from proteolysis by MT1-MMP, thereby supporting cell adhesion and locomotion. In contrast, the proteolytic degradation of tTG stimulated migration of cells on collagen matrices. Together, our observations suggest both an important coreceptor role for cell surface tTG and a novel regulatory function of membrane-anchored MMPs in cancer cell adhesion and locomotion. Proteolysis of adhesion proteins colocalized with MT-MMPs at discrete regions on the surface of migrating tumor cells might be controlled by composition of the surrounding ECM.