Neuronal-like differentiation of single versus multiple treatments with human amnion-derived mesenchymal stem cells induced by basic fibroblast growth factor

BACKGROUND： Cultures from multiple portions of umbilical cord blood mesenchymal stem cells have been shown to undergo more rapid proliferation and attachment than single portions. OBJECTIVE： To observe growth of basic fibroblast growth factor （bFGF）-induced cultures of human amnion-derived mesenchymal stem cells （AMSCs） and differentiation into neuronal-like cells. DESIGN, TIME AND SETTING： Comparative observation. The study was performed at the Laboratory of Microbiology and Immunology, Basic Medical School of Zhengzhou University from January to May 2008. METHODS： Amnia from full-term, uterine-incision delivery were donated by 12 healthy women. AMSCs were obtained by cell separation and culture techniques, and were passaged and induced by bFGF. From the third passage, a total of 1 mLAMSCs, at a density of 1.0 × 10^4/mL, was separately harvested from six samples, which served as group A. A total of 1 mL AMSCs, at a density of 1.0 × 10^4/mL, was harvested separately from the remaining six samples, which served a group B. A total of 0.5 mL from the six samples of group A and 0.5 mL from the six samples of grot, B were combined to form group C. MAIN OUTCOME MEASURES： Differences in cell quantity among the three groups were compare by cell quantification and 3-（4,5-dimethylthiazol-2-yl）-2,5-diphenyltetrazolium bromide （MTT） analysis. Expression of a glial cell marker, neuron-specific enolase, and nestin was detected in the three groups by immunocytochemistry. RESULTS： Cell quantification and MTT analysis of live cells, as well as AMSC absorbance, were significantly greater in group C compared with groups A and B at 18 days of culture （P 〈 0.05）, anc no significant difference was observed between groups A and B. Glial fibrillary acidic protein, neuron-specific enolase, and nestin were expressed in all groups following bFGF induction. CONCLUSION： Mixed AMSC cultures promoted proliferation, and bFGF-induced AMSCs differentiated into neuronal-like cells.

Human amnion tissue injected with human umbilical cord mesenchymal stem cells repairs damaged sciatic nerves in rats

Human umbilical cord mesenchymal stem cells,incorporated into an amnion carrier tubes,were assessed for nerve regeneration potential in a rat nerve defect model.Damaged nerves were exposed to human amnion carriers containing either human umbilical cord mesenchymal stem cell （cell transplantation group）or saline（control group）.At 8,12,16 and 20 weeks after cell implantation,the sciatic functional index was higher in the cell transplantation group compared with the control group.Furthermore,electrophysiological examination showed that threshold stimulus and maximum stimulus intensity gradually decreased while compound action potential amplitude gradually increased.Hematoxylin-eosin staining showed that regenerating nerve fibers were arranged in nerve tracts in the cell transplantation group and connective tissue between nerve tracts and amnion tissue reduced over time.Gastrocnemius muscle cell diameter,wet weight and restoration ratio were increased.These data indicate that transplanted human umbilical cord mesenchymal stem cells,using the amnion tube connection method,promote restoration of damaged sciatic nerves in rats.

Interaction between porcine granulosa and thecal cells in steroidogenesis in an amnion dual chamber culture system

Objective: To study the interaction between granulosa and thecal cel1s in steroidogenesis in an am-nion dual chamber in comparison with the cellulose dual chamber.Method: A dual chamber culture system was designed and prepared with amnion membrane from human term placenta. The isolated porcine granulosa and thecal cells were grown on both sides of the amnion membrane, with granulosa cells in the inner chamber and thecal cells in the outer chamber. The concentrations of estradiol (E,), progesterone (P) and testosterone (T) in the culture media were mea-sured by radioimmunoassay.Results: The growth of both cells and their steroidogenic function were more active in amnion dual chamber system than in cellulose dual chamber system: (1) more T produced by thecal cells in the outer chamber, passing into inner chamber through the amnion membrane. T was used by granulosa cells as the substrate of aromatization, so that granulosa cells produced more E2 (up to 2 435 pmol/L); (2) the production of P (52. 5 μmol/L) and T (10. 2μmol/L) by granulosa cells cultured in the amnion mem-brane dual chamber system were also higher.Conclusions:The dual chamber system made of amnion mpmbrane showed better effect in studying steroidogenesis than with cellulose dual chamber system, and can be used as a model for studying paracrine regulatory interaction between granulosa and thecal cells in vitro.

Effect of amnion membrane transplantation on corneal neovascularization in 10 patients with alkali burn

By observing clinical cases, we studied the curative effect of amnion membrane transplantation on decreasing corneal neovascularization (CNV). It was a non-randomized retrospective case-control study. Among 17 cases (21 eyes) of third-degree alkali burns from 2007 to 2010, 10 cases (12 eyes) were performed with amnion membrane transplantation operation, and others were not. Amnion membrane transplantation was performed at the 3rd day after burn in the treatment group. Areas of CNV in double groups were measured at the 14th day and 60th day after burn. Area of CNV in the treatment group was (66.207±7.251)mm2 at the 14th day after burn, and was 18.27% lower than that in the control group. Area of CNV in the treatment group was (120.046±13.812)mm2 at the 60th day after burn, and was 11.35% lower than that in the control group. There was both statistical significance (P<0.05). Amnion membrane transplantation operation can inhibit the growth of corneal neovascularization induced by alkali burn.

Amnion epithelial cells——a novel therapy for ischemic stroke?

Stroke is a leading cause of death and disability and new therapies are desperately needed. Given the complex nature of ischemic brain injury, it has been postulated that cell-based therapies may be useful. However, cell resources, invasive extraction procedures, immunological rejection, tumorigenesis and ethical challenges make it unlikely that many stem cell types could serve as a practical source for therapy. By contrast, these issues do not pertain to human amnion epithelial cells（h AECs）, which are placenta-derived stem cells. We recently assessed the effects of systemically delivered hAECs on stroke outcome using four animal models of stroke. We demonstrated that when injected intravenously after ischemia onset, hAECs migrate preferentially to the spleen and injured brain to limit apoptosis and inflammation, and attenuate early brain infiltration of immune cells, progression of infarction and systemic immunosuppression and to ultimately ameliorate functional deficits. When administration of hAECs is delayed by 1-3 days poststroke, long-term functional recovery can still be enhanced in young and aged mice of either sex. Moreover, our proof-of-principle findings suggest that h AECs are effective at limiting post-stroke infarct development in non-human primates. Overall, the results suggest that hAECs could be a viable clinical stroke therapy.

Characterization of Side Cell Populations Obtained from Human Amnion Mesenchymal Cells

Human amnion mesenchymal cells （AMCs） contain muhipotent cells. To enrich such muhipotent stem cells, we applied to AMCs the new method for the isolation of side population （SP） cells used for the enrichment of muhipotent stem cells from many tissues. We succeeded in obtaining SP cells from AMCs （AMC-SP cells）. AMC-SP cells were found in 0.2 % of AMCs, irrespective of the length of pregnant period, ranging from 37 to 40 weeks. Cell cycle analyses suggested that AMC-SP cells belonged to a cell population that proliferated very slowly and/or was in a quiescent state in the amniotic membrane. Upon culturing, they proliferated with 40 to 80 cell doublings. However, they did not form colonies in a soft agarose culture, whereas HepG2 cells, representative human hepatoma cells formed many large colonies. These results suggest that AMC-SP cells that have considerable value for the use of regenerative medicine can be managed safely in vitro.

Has_circ_0008717在羊膜间充质干细胞上清促血管生成中的作用研究

目的:探究has_circ_0008717在人羊膜间充质干细胞上清(hAMSC-CM)促进人脐静脉内皮细胞(HUVECs)血管生成过程中的作用。方法:通过划痕实验、Transwell实验及成管实验检测hAMSC-CM对HUVECs迁移及成管能力的影响,实时荧光定量RT-PCR筛选上调的circRNA(has_circ_0008717);小干扰RNA(siRNA)下调HUVECs内has_circ_0008717水平后,实时荧光定量RT-PCR检测血管内皮生长因子A(VEGFA)表达水平变化,划痕实验、Transwell实验及成管实验观察其对hAMSC-CM促进HUVECs迁移及成管的影响。结果:hAMSC-CM可明显促进HUVECs迁移及成管能力(P<0.05),HUVECs中has_circ_0008717升高最为明显(P<0.05),而敲低has_circ_0008717可明显抑制hAMSC-CM促进HUVECs迁移、成管和VEGFA的表达(P<0.05)。结论:hAMSC-CM可通过has_circ_0008717增强HUVECs的成管能力。

1例孕晚期羊膜破裂超声表现

孕妇36岁,孕38^(+5)周唐氏筛查21三体综合征临界风险,自觉胎动可,无阴道异常出血或溢液,孕早、中期产检未见明显异常;既往孕2产1,无特殊病史及家族史。查体及实验室检查未见明显异常。孕38^(+5)周产前超声:胎儿双顶径9.7cm,头围34.2cm,腹围34.5cm,股骨长7.1cm,羊水指数20.3cm,透声可;胎盘位于前壁,Ⅱ级,胎心率124次/分,脐动脉及大脑中动脉血流频谱正常;宫腔内见纤细带状回声(图1A),与胎儿躯体未见明确关系,CDFI未见明显血流信号。

脂筏在工频磁场诱导受体聚簇效应中的作用及机制初探

目的:研究50 Hz工频磁场诱导细胞膜表面表皮生长因子受体(EGFR)聚簇与脂筏(lipid rafts)结构以及酸性鞘磷脂酶(acid sphingomyelinase,ASM)之间的关系,探索工频磁场诱导细胞膜受体聚簇及其可能的相关机制。方法:将人羊膜上皮细胞(FL)暴露于50 Hz、0.4 mT工频磁场15 min,设立假辐照组和EGF阳性对照组,同时各组增加制霉菌素(nystatin)预处理组,细胞经处理后采用间接免疫荧光法分别用相应抗体标记EGFR和ASM,用FITC标记的霍乱毒素B亚基标记脂筏结构。制片后通过激光共聚焦显微镜进行观察分析。结果:阳性对照组和50 Hz磁场处理组均能观察到EGFR的聚簇现象;制霉菌素预处理1 h后,细胞膜上脂筏结构被破坏,阳性对照组和磁场处理组中受体聚簇现象基本消失。在ASM转位分析中,阳性对照组和磁场处理组Cy3标记的ASM和FITC标记的脂筏结构产生共定位现象,并且在胞膜表面形成特定的富集区域,而在假辐照组中基本处于散在状态。结论:工频磁场诱导FL细胞膜表面EGFR发生聚簇与脂筏结构密切相关,ASM有可能参与了工频磁场诱导的受体聚簇及/或信号转导过程。

针刺调补冲任法对女性内分泌轴功能的影响——附25例临床分析

目的 :为印证女性生殖生理调控过程中 ,中、西医妇科学两个机能轴之间可能存在的内在联系。方法 :选择 2 5例妇科内分泌失调性疾病患者 ,以肝俞、肾俞为主进行针刺治疗 ,观察治疗前后临床症状及激素的改变。结果 :临床症状普遍改善 ,基础体温连续测定 (BBT)双相率提高 (P <0 0 1) ,阴道上皮细胞成熟指数计数 (MI计数 )居中与右移交替出现率增高 (P <0 0 1) ,卵泡刺激素(FSH)、黄体生成素 (LH)及雌二醇 (E2 )、孕酮 (P)的值均有改变 (P <0 0 1)。结论 :针刺对女性内分泌失调性疾病能够产生良好疗效 ,中。

山奈酚和槲皮素对大鼠细胞色素P450酶活性的影响

目的：观察山奈酚和槲皮素两种银杏黄酮对细胞色素P450的影响。方法：原代培养大鼠肝细胞，接触0．1～10．0μmol／L的山奈酚或槲皮素，作用12h、24h和48h，用Nash法检测细胞色素P450同工酶一红霉素N-脱甲基酶（ENRD）和氨基比林N-脱甲基酶（ADM）的活性。分别以红霉素（10．0μmol／L）和二甲基亚砜（DMSO）作为阳性对照和溶剂对照。结果：0．1、1．0和10．0μmol／L山奈酚作用24h，ENRD酶活性分别为（0．088±0．008）、（0．074±0．006）和（0．041±0．003）μmol／（mg·min^-1）；槲皮素相同浓度和作用时间处理的ENRD酶活性分别为（0．082±0．007）、（0．063±0．007）和（0．034±0．005）μmol／（mg·min^-1）。其中1．0和10．0μmol／L山奈酚和槲皮素处理的肝细胞ENRD酶活性都显著低于溶剂对照组（0．085±0．011）μmol／（mg·min^-1），且呈剂量-效应关系（P〈0．01）。10μmol／L山奈酚处理细胞12h和48h后，ENRD酶活性为（0．053±0．006）和（0．037±0．007）μmol／（mg·min^-1）；10μmol／L槲皮素处理细胞12h和48h后，ENRD酶活性为（0．067±0．005）和（0．032±0．004）μmol／（mg·min^-1），都具有明显的时间-效应关系（P〈0．01）。山奈酚只有在10μmol／L浓度下作用24h对ADM活性出现抑制，槲皮素对ADM活性没有明显影响。结论：在本实验条件下，山奈酚和槲皮素能明显抑制大鼠肝细胞ENRD活性；山奈酚在10μmol／L浓度下能轻度抑制ADM，而槲皮素对ADM活性没有明显的抑制作用。

新鲜羊膜与脱细胞羊膜修复腱鞘缺损预防肌腱粘连

背景:羊膜独有的结构可阻止某些物质通过,能保证包裹内组织正常营养供应,而且具有抗粘连、组织相容性好、炎性反应轻、纤维包裹少及可降解等特性。目的:比较新鲜羊膜及脱细胞羊膜修复腱鞘缺损,预防肌腱粘连和促进肌腱愈合的作用。方法:取60只雄性来亨鸡,制作双足第三足趾制备肌腱及腱鞘损伤模型,随机分为3组修复,新鲜羊膜组采用新鲜人羊膜修复腱鞘缺损,脱细胞羊膜组采用人脱细胞羊膜修复腱鞘缺损,对照组不做腱鞘修复。修复后进行第三足趾组织学观察及生物力学测试。结果与结论:①组织学观察:修复后2周,3组均存在充血水肿及炎症反应,新鲜羊膜组最轻,对照组最严重,3组水肿及炎症反应随时间延长逐渐减轻。修复12周,各组假鞘较修复后4周明显成熟,新鲜羊膜组及脱细胞羊膜组假鞘表面细胞致密层状排列整齐,表面光滑;对照组假鞘表面细胞排列紊乱,结构松散,可见表面纤维组织突出假鞘表面;②生物力学测试:脱细胞羊膜组、新鲜羊膜组修复后4,8,12周的肌腱滑动距离均大于对照组(P<0.05),前2组间比较差异无显著性意义;脱细胞羊膜组、新鲜羊膜组修复后4,8周的肌腱最大拉伸断裂强度高于对照组(P<0.05),且新鲜羊膜组高于脱细胞羊膜组(P<0.05),3组修复后12周的肌腱最大拉伸断裂强度无差异;③结果表明:新鲜羊膜和脱细胞羊膜均可用于重建腱鞘缺损,预防肌腱粘连,新鲜羊膜在促进早期肌腱愈合方面优于脱细胞羊膜。

人喉上皮细胞的原代培养

目的探讨人喉上皮细胞的原代培养条件及其增殖、分化特点。方法采用低血清（２％）并添加促生长因子的培养基，对中晚期引产胎儿的喉粘膜进行组织块原代培养，并通过倒置显微镜、透射电镜、细胞角蛋白免疫组化染色观察原代培养细胞的特性。结果组织块接种成活率为（４７ ± １１）％，３ｄ后即可见生长晕， １０～ １４ｄ时汇合成片，细胞呈扁平、多角形，胞浆含张力原纤维，细胞间可见丰富的桥粒连结，细胞角蛋白表达阳性。结论本实验采用的培养条件适宜人喉上皮细胞的生长，所获细胞纯度高，培养过程简便；从生物学行为来看，体外培养的人喉上皮细胞同样具有增殖能力和分化潜能，是进行癌变研究的良好对象。

骨碎补柚皮苷对人牙周韧带细胞增殖和成骨分化潜能的影响

目的:探讨骨碎补柚皮苷对人牙周韧带细胞的增殖能力以及成骨分化潜能的影响。方法:MTT法检测在含有不同浓度骨碎补柚皮苷的细胞培养液中人牙周韧带细胞的增殖特性;检测不同浓度骨碎补柚皮苷作用后人牙周韧带细胞中碱性磷酸酶(ALP)活性的改变。结果:骨碎补柚皮苷≥0.01μmol/L时能增进人牙周韧带细胞增殖(P<0.05),并能增加其ALP活性(P<0.05)。结论:骨碎补柚皮苷可提高人牙周韧带细胞的增殖能力及成骨分化的潜能。

脱细胞羊膜与医用膜修复腱鞘缺损防治肌腱粘连的比较

背景:实验证实生物膜可用于腱鞘缺损的重建,抑制肌腱外源性愈合,为肌腱滑动提供良好的基床,减轻肌腱粘连。目的:比较脱细胞羊膜与医用膜修复腱鞘缺损中防治肌腱粘连的作用。方法:于66只来亨鸡双足第Ⅲ趾制备肌腱损伤、腱鞘缺损模型,随机分为3组,每组22只,羊膜组采用脱细胞羊膜修复腱鞘缺损,医用膜组采用可吸收医用膜修复腱鞘缺损,对照组不修复腱鞘。术后2,4,8,12周取各组标本,进行大体、组织学及生物力学检测。结果与结论:(1)大体观察:术后12周,羊膜组、医用膜组腱鞘完整,肌腱愈合良好,无粘连;对照组肌腱粘连严重。(2)组织学:术后8周,羊膜组假鞘中滑膜细胞数最多,基质内粗面内质网高度扩张,分泌旺盛,医用膜组次之,对照组滑膜细胞数最少,分布杂乱,基质内扩张空泡较前两组弱。术后12周羊膜组、医用膜组成纤维细胞层状整齐排列,结构致密;对照组腱鞘组织结构疏松,成纤维细胞分布絮乱。(3)生物力学:羊膜组、医用膜组肌腱滑动距离、总屈趾角度均大于对照组(P<0.05),前两组间比较差异无显著性意义。术后12周,3组间最大拉伸断裂强度比较差异无显著性意义。(4)结果表明,脱细胞羊膜与医用膜重建腱鞘缺损均能明显屏障肌腱外源性愈合,防治肌腱粘连。

胎牛血清促进色素上皮衍生因子在皮肤角质形成细胞和成纤维细胞中的表达

目的:探讨表皮角质形成细胞和真皮成纤维细胞中色素上皮衍生因子(PEDF)表达的影响因素。方法:体外培养角质形成细胞和成纤维细胞,并以10%FBS(胎牛血清)刺激,通过免疫荧光和Western blot检测PEDF的表达。结果:PEDF大多位于细胞浆中,但在细胞核中也有少量表达。细胞浆中PEDF并非均质型分布,而是呈细颗粒状集聚。10%FBS促进角质形成细胞和成纤维细胞中PEDF的集聚和表达,而且这一分布形式不受组胺和佛波肉豆蔻醋酸(PMA)的影响。结论:10%FBS促进角质形成细胞和成纤维细胞中PEDF的集聚和表达。

新鲜羊膜与生物羊膜移植治疗翼状胬肉的临床观察

目的：对比新鲜羊膜与生物羊膜移植治疗翼状胬肉的疗效。方法：对49例（52眼）翼状胬肉患者分两组采用切除后分别移植新鲜羊膜与生物羊膜覆盖手术创面，手术后加压包扎。3wk后拆线。并随访观察2～26mo。结果：两组患者术后均取得良好效果。结论：生物羊膜具有新鲜羊膜同样的疗效，而且方便保存和取用。值得在基层医院推广和运用。

体外定向诱导人羊膜间充质干细胞向骨、软骨及脂肪细胞的分化

背景:人羊膜间充质干细胞属于成体干细胞,在体外不同条件下诱导分化为骨、软骨及其他结缔组织,较其他类型间充质干细胞,因其来源广泛,分离无创伤,较低的免疫原性、生长周期短等特点,是组织工程种子细胞的重要来源。目的:探讨人羊膜间充质干细胞是否具有间充质干细胞特性及诱导成骨、软骨及脂肪细胞诱导分化的能力。方法:取足月产胎盘羊膜组织,酶消化法分离人羊膜间充质干细胞,取第3代细胞分别加入成骨、成软骨及成脂诱导液的培养基进行诱导。结果与结论:(1)茜素红染色显示,成骨诱导后细胞存在多个矿化结节,细胞中碱性磷酸酶活性明显增加;(2)甲苯胺蓝染色显示,成软骨诱导后细胞基质中分泌大量的糖胺聚糖;(3)油红O染色显示,成脂诱导后,细胞浆内可见脂滴;(4)实时荧光PCR结果显示,成骨、成软骨及成脂诱导21 d后,相关基因表达较7 d时明显增高;(5)结果人羊膜间充质干细胞具有向成骨细胞,软骨细胞及脂肪细胞的潜能,可选作为组织工程学的种子细胞。

大肠癌优化序贯筛查方案的应用研究

目的:在人群中应用大肠癌优化序贯筛查方案,提高大肠癌的早诊率,降低发病率。方法:采用数量化风险评估问卷调查加粪便隐血试验(FOBT)对40~74岁人群进行初筛,确定高危人群并进行电子肠镜全结直肠检查。根据筛查结果计算早诊率,分析筛查区大肠癌的发病率,并与筛查前比较。结果:现场应用优化序贯筛查方案,检出各类大肠病变1 117例,其中检出大肠癌69例,大肠腺瘤701例,进展期腺瘤211例;大肠癌早诊率提高了58.19%,发病率下降明显。结论:大肠癌优化序贯筛查方案简便、经济、高效,值得在自然人群大肠癌筛检中推广。

纳滤法处理仲钨酸铵结晶母液的研究

研究了纳滤法处理仲钨酸铵结晶母液。采用工业实际料液在工业试验装置内试验研究了料液pH值、操作压力对渗透通量、钨损与除氯率的影响并考察了硫酸根在纳滤过程中的行为。结果表明，纳滤膜法可有效分离APT结晶母液中的钨与氯化铵并浓缩钨，过程流程短，试剂消耗小；采用合适的操作条件，过程的除氯率可大于90％，钨的损失小于1％，浓缩液中的WO3可达50～100g·L^-1。