Muller细胞与视网膜病变

视网膜是一薄而半透明的、具有多层结构的神经组织,位于眼球后2/3部的内侧面。向前延伸达睫状体,止于不规则边界。Muller细胞是脊椎动物视网膜内最主要的神经胶质细胞,它贯穿整个视网膜。Muller细胞对于维持神经元的完整性、代谢、内环境稳态以及信号转导等均具有重要的作用。在视网膜病变时,Muller细胞参与整个过程,并且在视网膜的各种疾病中都发现伴有Muller细胞的神经胶质增生反应。Muller细胞同时也调控视网膜病变的整个过程。Muller细胞膜上的神经递质受体、谷氨酸受体、门控电压通道、所合成分泌的营养因子及自的身增殖分化都发生改变。近年来人们对Muller细胞的认识越来越多,研究的方向也从细胞的微观结构、主要功能转变成Muller细胞对不同视网膜病变过程的参与调控。本文对视网膜Muller细胞的形态和生理功能,病理状况下Muller细胞发生的改变作一综述。     

转译优化对EPO基因在COS7细胞中表达的影响

利用ＣＯＳ７细胞暂时表达系统,研究转译起始序列对ＥＰＯ－ｃＤＮＡ表达的影响。通过ＤＮＡ重组技术,构建了原ＥＰＯ－ｃＤＮＡ表达载体ｐＣＳＶ－ＥＰＯ（１）,其转译起始序列为５＇ＡＡＴＴＣＡＴＧＧ３＇。同时通过定点突变技术,将起始序列改变成５＇ＣＣＡＣＣＡＴＧＧ３＇,而构建了另一表达载体ＰＣＳＶ－ＥＰＯ（２）。后经序列分析证明无误后和前均通过ＤＥＡＥ－ｄｅｘｔｒａｎ法转染ＣＯＳ７细胞上清,测定结果为     

调控Muller细胞去分化为视网膜前体细胞的信号通路

在视网膜中,Muller细胞被视为具有干细胞特性及再生修复能力,刺激内源性干细胞活化增殖并向视网膜前体细胞去分化,或许是治疗视网膜疾病的重要策略之一。然而,在高等哺乳动物视网膜中,Muller细胞自发去分化的能力极为有限。近年来研究发现,某些生长因子、转录因子及细胞外基质能通过一系列信号通路促进视网膜Muller细胞的去分化及再生修复。阐明这些信号通路的调控机制将对利用内源性干细胞治疗视网膜疾病有极大的帮助。     

葡萄糖对重组CHO细胞生长代谢及EPO表达的影响

在CHO细胞批培养中 ,葡萄糖浓度从8.9增加到49.6mmol/L ,最大活细胞密度没有明显的差异 ,乳酸对葡萄糖的得率系数首先随着葡萄糖浓度的增加而增加 ,葡萄糖浓度达到 17.9mmol/L后 ,乳酸对葡萄糖的得率系数基本上维持恒定。在本实验中 ,葡萄糖浓度对谷氨酰胺代谢没有明显的影响。EPO的累积浓度首先随着起始葡萄糖浓度的增加 ( 8.9～ 17.9mmol L)而增加 ,进而又随着葡萄糖浓度的增加 (17.9～ 49.6mmol L)而下降 ,表明存在一最适浓度 ,在此浓度下重组CHO细胞的EPO表达最大。     

牛磺酸抑制糖尿病大鼠视网膜Muller细胞VEGF表达的研究

目的:进一步了解糖尿病引起视网膜受损的分子机制、探讨牛磺酸保护糖尿病大鼠视网膜损伤的可能机制.方法用链脲佐茵素诱导SD大鼠患糖尿病,分为正常对照组、糖尿病组、1%牛磺酸干预糖尿病组、5%%牛磺酸干预糖尿病组、胰岛素治疗糖尿病组.正常对照组、糖尿病组、胰岛素治疗组饲以基础饲料,牛磺酸干预组饲以基础饲料分别添加1%、5% 牛磺酸的饲料喂养,胰岛素治疗组每天皮下注射20U/kg胰岛素.在第2周、1月、2月、3月取视网膜,用RT-PCR、免疫组织荧光化学、Western-blotting检测视网膜Muller细胞VEGFmRNA和蛋白表达情况.结果:经链脲佐菌素诱导惠糖尿病2周后,SD大鼠视网膜Muller细胞VEGFmRNA和蛋白表达增加,且随病程的延长表达量有持续增加趋势(P＜0.05).患糖尿病3月后,整个视网膜中VEGF免疫染色明显增强,尤以外网状层(OPL)、内网状层(IPL)和视网膜外段变化最明显.牛磺酸干预糖尿病1月后.大鼠视网膜Muller细胞VEGFmRNA和蛋白的表达下调(P＜0.05).结论:牛磺酸抑制糖尿病患者视网膜Muller细胞VEGF的表达,减轻糖尿病引起的视网膜损害.     

改进培养基配方对提高EPO产量的作用

研究了用中国仓鼠卵巢细胞(CHO)生产促红细胞生成素(EPO)的配方．改进配方前生产3批EPO,培养液样品的平均活性为4236．7IU／ml;改进配方后生产3批EPO,培养液样品的平均活性为6846．4IU／ml．后者比前者高出61．6％,即EPO产量提高达到61．6％．     

丁酸钠对CHO—EPO工程细胞株rhEP0表达量的影响

以稳定整合有pEnEPo的cHO-EPO工程细胞株为研究对象,在无血清条件下,系统观察了0．5、1．0、2．5和5．0mm01／L 4个浓度的丁酸钠作用于该细胞株的情况,结果表明：丁酸钠对cH旺EPO工程细胞的生长有明显的抑制作用;影响cHDEPO工程细胞Epo表达,浓度1．0ml'TtOl／j L可提高Epo表达量2．5倍左右,并可持续较长的一段时问;延缓cHDEP0工程细胞在无血清培养时的细胞脱落;提高cHoEPO工程细胞EFOmRFJA水平。     

微机化动态光度法细胞力学分析仪研究药物对红细胞膜的作用

介绍了一种新型的微机化动态流光度法细胞力学参数分析仪,它能自动测量静态红细胞参数(RF)、膜硬度、(S)半松弛时间、(t50%)和细胞粘度(VP)等微力学参数,来描述细胞力学特性.对仪器的灵敏度、精确度和重复性,对Triton、水杨酸钠.ROK、TRE、DUS、EGb761等药物对于红细胞力学性质的作用分别进行了研究,证明了本仪器对药理作用研究具有重要价值,并认为该仪器在今后临床检验中有广泛的应用价值.     

EPO对缺血/再灌注损伤大鼠心肌细胞Mfn2蛋白表达及心肌细胞凋亡的影响

目的观察重组人促红细胞生成素（recombinant human erythropoietin,rhEPO）对缺血/再灌注损伤大鼠心肌细胞Mitofusin2（Mfn2）蛋白表达的影响及其抗心肌细胞凋亡的作用。方法选取成年SD大鼠35只,随机分为正常组（Normal）,假手术组（Sham）,缺血再灌注组（I/R）,缺血再灌注EPO治疗组（I/R＋EPO）。各组分别于再灌注3h和24h后,剪取心脏缺血/再灌注损伤区域,用脱氧核苷酸末端转移酶介导的缺口末端标记法（TUNEL）检测心肌细胞凋亡,免疫组化法检测Mfn2蛋白的表达。结果再灌注3h和24h后,与正常组和假手术组相比,I/R组Mfn2蛋白的表达和心肌细胞凋亡均显著增加;与I/R组相比,I/R＋EPO组Mfn2蛋白的表达和心肌细胞凋亡均显著降低。结论EPO可以下调缺血再灌注损伤后心肌细胞Mfn2蛋白的表达,抑制心肌细胞的凋亡。     

缺氧培养对大鼠神经干细胞体外增殖影响及其机制的研究

目的：研究应用缺氧对体外培养的大鼠神经干细胞增殖的影响。方法：将细胞分为4小时缺氧组、12小时缺氧组、促红细胞生成素（EPO）中和抗体组、IgG组以及对照组．测定大鼠神经干细胞经缺氧培养后的各组细胞克隆形成率以及EPO的表达变化。结果：单细胞培养条件下,与对照组相比,4小时缺氧组和IgG组克隆形成率明显增高;中和抗体组无明显变化;12小时组克隆形成率降低。但无统计学意义。缺氧4小时后,EPO蛋白在预处理后即刻出现表迭,4h达高峰,8h仍有部分表达。结论：短时间缺氧可以促进神经干细胞增殖．长时间缺氧则作用相反。缺氧对NSCs增殖作用的影响可能是由EPO介导产生。     

The heat-shock response co-inducer arimoclomol protects against retinal degeneration in rhodopsin retinitis pigmentosa

Retinitis pigmentosa (RP) is a group of inherited diseases that cause blindness due to the progressive death of rod and cone photoreceptors in the retina. There are currently no effective treatments for RP. Inherited mutations in rhodopsin, the light-sensing protein of rod photoreceptor cells, are the most common cause of autosomal-dominant RP. The majority of mutations in rhodopsin, including the common P23H substitution, lead to protein misfolding, which is a feature in many neurodegenerative disorders. Previous studies have shown that upregulating molecular chaperone expression can delay disease progression in models of neurodegeneration. Here, we have explored the potential of the heat-shock protein co-inducer arimoclomol to ameliorate rhodopsin RP. In a cell model of P23H rod opsin RP, arimoclomol reduced P23H rod opsin aggregation and improved viability of mutant rhodopsin-expressing cells. In P23H rhodopsin transgenic rat models, pharmacological potentiation of the stress response with arimoclomol improved electroretinogram responses and prolonged photoreceptor survival, as assessed by measuring outer nuclear layer thickness in the retina. Furthermore, treated animal retinae showed improved photoreceptor outer segment structure and reduced rhodopsin aggregation compared with vehicle-treated controls. The heat-shock response (HSR) was activated in P23H retinae, and this was enhanced with arimoclomol treatment. Furthermore, the unfolded protein response (UPR), which is induced in P23H transgenic rats, was also enhanced in the retinae of arimoclomol-treated animals, suggesting that arimoclomol can potentiate the UPR as well as the HSR. These data suggest that pharmacological enhancement of cellular stress responses may be a potential treatment for rhodopsin RP and that arimoclomol could benefit diseases where ER stress is a factor.     

Intraocular gene transfer of ciliary neurotrophic factor rescues photoreceptor degeneration in RCS rats

Ciliary neurotrophic factor (CNTF) is known as an important factor in the regulation of retinal cell growth. We used both recombinant CNTF and an adenovirus carrying the CNTF gene to regulate retinal photoreceptor expression in a retinal degenerative animal, Royal College of Surgeons (RCS) rats. Cells in the outer nuclear layer of the retinae from recombinant-CNTF-treated, adenoviral-CNTF-treated, saline-operated, and contralateral untreated preparations were examined for those exhibiting CNTF photoreceptor protective effects. Cell apoptosis in the outer nuclear layer of the retinae was also detected. It was found that CNTF had a potent effect on delaying the photoreceptor degeneration process in RCS rats. Furthermore, adenovirus CNTF gene transfer was proven to be better at rescuing photoreceptors than that when using recombinant CNTF, since adenoviral CNTF prolonged the photoreceptor protection effect. The function of the photoreceptors was also examined by taking electroretinograms of different animals. Adenoviral-CNTF-treated eyes showed better retinal function than did the contralateral control eyes. This study indicates that adenoviral CNTF effectively rescues degenerating photoreceptors in RCS rats.S.-P.H. and P.-K.L. contributed equally to this work.     

多能干细胞分化来源视网膜色素上皮细胞移植治疗视网膜变性研究进展

视网膜色素上皮（RPE）对视觉功能的维持起着至关重要的作用。视网膜变性是全球不可治愈性致盲疾病的重要原因,它由视网膜色素上皮功能失常所引起。因此,视网膜色素上皮移植是视网膜变性患者恢复视力的一种最有前景的手段之一。随着干细胞技术的快速发展,从多能干细胞（PSC）到有功能的视网膜色素上皮细胞的体外分化诱导技术已经成熟,其中包括胚胎干细胞（ESCs）和诱导多能干细胞（iPSCs）等。此外,从患者特异性iPSCs分化而来的RPE更能用于阐明发病机理并有针对性地个体治疗。更值得一提的是,经诱导得到RPE的移植不论在动物模型中,还是在临床试验里都已经得到了可喜的治疗效果。本文回顾PSC来源RPE干预治疗视网膜变性的最新研究进展。     

The effect of dendritic cells on the retinal cell transplantation

The potential of bone marrow cell-derived immature dendritic cells (myeloid iDCs) in modulating the efficacy of retinal cell transplantation therapy was investigated. (1) In vitro, myeloid iDCs but not BMCs enhanced the survival and proliferation of embryonic retinal cells, and the expression of various neurotrophic factors by myeloid iDCs was confirmed with RT-PCR. (2) In subretinal transplantation, neonatal retinal cells co-transplanted with myeloid iDCs showed higher survival rate compared to those transplanted without myeloid iDCs. (3) CD8 T-cells reactive against donor retinal cells were significantly increased in the mice with transplantation of retinal cells alone. These results suggested the beneficial effects of the use of myeloid iDCs in retinal cell transplantation therapy.     

诱导人脐带间充质干细胞分化为视网膜色素上皮样细胞的研究

目的：探讨用猪视网膜色素上皮细胞（RPE）条件培养基诱导hUCMSCs分化为RPE样细胞的方法。方法通过流式细胞技术鉴定hUCMSCs的表面标记分子;通过诱导hUCMSCs分化成为脂肪、骨和软骨细胞确定其多系分化能力;将hUCMSCs培养在猪RPE的条件培养液中并添加诱导因子来诱导hUCMSCs向RPE细胞分化。对照组与处理组Q-PCR结果采用t检验比较。结果 hUCMSCs表达CD105、CD90、CD73、CD44和CD29,但不表达CD34,CD45和MHCII等分子标记,在成脂、成骨、成软骨分化培养基中可分化为脂肪、骨和软骨细胞。单独使用猪RPE条件培养液不能有效诱导hUCMSCs向RPE细胞分化,但联合应用猪RPE条件培养液和诱导因子（视黄酸,activin-A和人重组骨形成蛋白-7）可有效诱导hUCMSCs分化为RPE样细胞,RPE细胞标记分子RPE65、Mitf和Ck8/18的基因表达量分别提高了2.1±0.4、6.8±1.3和2.5±0.3倍（P〈0.05）。诱导产生的RPE样细胞呈多边形,但不含色素颗粒。结论猪RPE条件培养液联合诱导因子可有效诱导hUCMSCs分化为RPE样细胞,可能会为治疗视网膜变性疾病提供合适的种子细胞。     

Lack of causal relationship between clusterin expression and photoreceptor apoptosis in light-induced retinal degeneration

Induction of apoptosis in the retina leads to cellular death by molecular mechanisms that are not well understood. Clusterin expression is increased in tissues undergoing apoptosis, including retinal neurodegenerative states, but the causal relationships remain to be clarified. To gain insight into clusterin's role in photoreceptor apoptosis, the cellular distribution of clusterin mRNA was compared with the pattern of apoptotic nuclear labelling in a rat model of light-induced retinal degeneration. In control retinal sections, clusterin mRNA was localized to the retinal pigment epithelium cells, photoreceptor inner segments, inner nuclear layer, and ganglion cell layer. Clusterin expression decreased in photoreceptors and retinal pigment epithelium cells, which progressively degenerated, and increased in preserved inner nuclear layer, in proportion to the duration of light exposure in both cyclic light- and dark-reared animals. These results suggest that clusterin is not causally involved in apoptotic mechanisms of photoreceptor death, but may relate to cytoprotective functions.     

Erythropoietin protects retinal pigment epithelial cells against the increase of permeability induced by diabetic conditions: essential role of JAK2/ PI3K signaling

The outer blood-retinal barrier is formed by retinal pigment epithelial (RPE) cells and its disruption significantly contributes to the development of diabetic macular edema (DME). The aim of the study was to explore whether erythropoietin (Epo) has beneficial effects on the barrier function of human RPE cells and the main downstream pathways involved. ARPE-19 cells were cultured in standard conditions and under conditions leading to the disruption of the monolayer [25 mmol/L d-glucose plus IL-1β (10 ng/mL)]. Epo (200 mU/mL/day) was added during the last 2 days of the experiment. The experiments were repeated in the presence of an Epo neutralizing antibody and specific inhibitors of JAK2 and PI3K (AG490 and LY294002, respectively). Permeability was evaluated by fluorescein isothiocyanate dextran (70 kDa) movements. Distribution of tight junction proteins was examined by immunofluorescence. Changes in cytosolic Ca²⁺ induced by Epo were also measured. Epo treatment was able to prevent but not to restore the increase of permeability induced by high glucose plus IL-1β. The protective effect of Epo on RPE barrier function was completely blocked by AG490 and almost completely abolished by LY294002. In addition, Epo was able to increase cytosolic Ca²⁺ with dependence on extracellular calcium influx and this effect was blocked by either JAK2 or PI3K inhibition. We conclude that RPE disruption induced by high glucose plus IL-1β is prevented by Epo through the downstream signaling of JAK2 and PI3K/AKT pathways.     

Study of pharmacological effects of nilvadipine on RCS rat retinal degeneration by microarray analysis

In our recent study, we found that the Ca(2+) antagonist, nilvadipine caused significant preservation of photoreceptor cells in The Royal College of Surgeons (RCS) rats [Invest. Ophthalmol. Vis. Sci. 43 (2002) 919]. Here, to elucidate the mechanisms of nilvadipine-induced effects we analyzed altered gene expression of 1101 genes commonly expressed in rodent by DNA microarray analysis in the retinas of nilvadipine-treated and untreated RCS rats and SD rat. In the total number of genes, the expression of 30 genes was altered upon administration of nilvadipine to RCS rats, including several genes related to the apoptotic pathway and other mechanisms. Remarkably, neurotrophic factors, FGF-2 and Arc, known to suppress the apoptosis in the central nervous system, were up-regulated. These changes were also confirmed by real-time quantitative (Taqman) RT-PCR and Western blot analysis. Therefore, our present data suggested that administration of nilvadipine to RCS rats increases the expression of endogenous FGF-2 and Arc in retina, and potentially has a protective effect against retinal degeneration.