New antioxidant SkQ1 is an effective protector of rat eye retinal pigment epithelium and choroid under conditions of long-term organotypic cultivation

Cells have intrinsic mechanisms for cleaning harmful oxidants represented mainly by reactive oxygen species (ROS). Despite the antioxidant defense, ROS can cause serious damage to the retina that with age leads to various eye diseases and even blindness. Among numerous cell sites of ROS generation, mitochondrial electron transport is of crucial importance. Recently, for the purpose of cleaning ROS in the mitochondrial matrix, powerful mitochondria- targeted antioxidant “SkQ1” has been invented. We studied SkQ1 effects upon tissues of rat posterior eye cup that consisted: retinal pigment epithelium (RPE) ? choroidal coat ? scleral coat. The eye cups were isolated from the eyes of adult albino rats and cultivated in rotary tissue culture system in the presence of 20 nM SkQ1 or without this compound. After 7 days - 1 month in vitro eye cup samples were studied by immunohistochemistry, routine histology, morphometry, and digital image analysis. We have found that under chosen, “in vitro like in vivo” conditions 20 nM SkQ1 effectively reduced cell death in RPE and choroid, protected RPE from disintegration caused by cell phenotypic transformation and withdrawal from the layer, suppressed transmigration of choroidal coat cells. In the ex vivo model we used degenerative processes were more pronounced in the eye cup center where SkQ1 effect was most vivid. All this give us hopes for effectiveness of SkQ1 treatment of retinal central part that is very susceptible to light-induced over-oxidation injury and mostly suffering in many age-related diseases, AMD, in particular.

The Effect of Zinc on the Apoptosis of Cultured Human Retinal Pigment Epithelial Cells

To clarify the effects of zinc on the proliferation and apoptosis of cultured human retinal pigment epithelia (RPE) and the expression of caspase 3 in RPE cells. The effect of Zinc on theproliferation of RPE were examined with MTT method. TUNEL method was used to detect the apoptosis of RPE cells. Caspase 3 was detected by immunohistochemistry. A concentration of zinc higher than 0.001 μM could inhibit the proliferation of RPE. And the relationship between concentration of zinc higher than 10 μM and growth prohibition rate of RPE cells was dose dependent. All concentrations of zinc including 0.001 μM enhanced the expression of caspase 3 of RPE. But only the concentration of zinc higher than 0.01 μM could induce apoptosis of RPE. It is concluded that zinc could enhance the expression of caspase 3 of RPE cells and induce apoptosis of RPE cells. Caution should be taken when using zinc supplements for the treatment of ARMD patients without deficiency of zinc.

Myelinosome organelles in pathological retinas: ubiquitous presence and dual role in ocular proteostasis maintenance

The timely and efficient elimination of aberrant proteins and damaged organelles, formed in response to various genetic and environmental stressors, is a vital need for all cells of the body. Recent lines of evidence point out several non-classical strategies employed by ocular tissues to cope with aberrant constituents generated in the retina and in the retinal pigmented epithelium cells exposed to various stressors. Along with conventional strategies relying upon the intracellular degradation of aberrant constituents through ubiquitin-proteasome and/or lysosome-dependent autophagy proteolysis, two non-conventional mechanisms also contribute to proteostasis maintenance in ocular tissues. An exosome-mediated clearing and a myelinosome-driven secretion mechanism do not require intracellular degradation but provide the export of aberrant constituents and “waste proteins” outside of the cells. The current review is centered on the non-degradative myelinosome-driven secretion mechanism, which operates in the retina of transgenic Huntington’s disease R6/1 model mice. Myelinosome-driven secretion is supported by rare organelles myelinosomes that are detected not only in degenerative Huntington’s disease R6/1 retina but also in various pathological states of the retina and of the retinal pigmented epithelium. The intra-retinal traffic and inter-cellular exchange of myelinosomes was discussed in the context of a dual role of the myelinosome-driven secretion mechanism for proteostasis maintenance in different ocular compartments. Special focus was made on the interplay between degradative and non-degradative strategies in ocular pathophysiology, to delineate potential therapeutic approaches to counteract several vision diseases.

光照对人视网膜色素上皮细胞趋化因子受体3配体的影响

目的观察光照后人视网膜色素上皮（RPE）细胞趋化因子受体3（CCR3）配体嗜酸性粒细胞趋化因子（eotaxin）-1、eotaxin-2、eotaxin-3的表达。方法体外培养人RPE细胞，取第5～10代生长状态良好的传代细胞用于实验。将同代细胞随机分为光照干预组与正常对照组。采用15w蓝色荧光灯自制光照器，以（600±100）Lux的强度对光照干预组细胞持续光照12h，对照组细胞采用双层高压消毒锡纸包裹。随后两组细胞均置于恒温培养箱内继续培养，并于光照结束后0、3、6、12、24h终止细胞培养。采用实时聚合酶链反应和蛋白免疫印迹法分别检测eotaxin-1、eotaxin-2、eotaxin-3mRNA和蛋白的表达。结果光照干预组细胞eotaxin-1、eotaxin-2、eotaxin-3mRNA和蛋白表达均随培养时间延长呈上升趋势，其中eotaxin-3mRNA和蛋白表达增加最为明显。光照干预组与正常对照组比较，光照结束后0（t。=6．05，t。-12．561）、3（t1—2．95，t2—3．67）h时eotaxin-1、eotaxin-2mRNA表达间差异均有统计学意义（P〈0．05），eotaxin-3mRNA表达间差异无统计学意义（t3=1．57、1．OO，P〉0．05）；光照结束后6（t1=4．73，t2=18．64，t3：28．48）、12（t1=3．11，t2=20．62，t3=18．50）、24（t1=8．25，t2=38．27，t3=18．60）h时eotaxin-1、eotaxin-2、eotaxin-3mRNA表达间差异均有统计学意义（P〈0．05）。光照干预组与正常对照组比较，除光照结束后3h时eotaxin-3蛋白表达间差异无统计学意义外（t3=1．28，P〉0．05）；光照结束后0（t1=4．85，t2=5．45，t3=6．21）、3h（tl-5．64，t2=4．55）、6（t1=31．60，t2=6．63，t3=7．15）、12（t1=14．09，t2=18．22，t3=15．76）、24（t1=6．96，t2=10．47，t3=12．85）h时eotaxin-1、eotaxin-2、eotaxin-3蛋白表达间差异均有统计学意义（P〈0．05）。结论光照后人RPE细胞CCR3配体eotaxin-1、eotaxin-2、eotaxin-3mRNA和蛋白表达均随培养时间延长呈上升趋势，以eotaxin-3表达增加最为突出。

蓝光照射对人视网膜色素上皮细胞L-型钙通道mRNA表达的影响

目的观察蓝光照射对人视网膜色素上皮（RPE）细胞L-型钙通道mRNA表达的影响。方法体外培养的第4代人RPE细胞按随机数字表法分为无光照组、光照组、光照＋硝苯地平组和光照＋（-）BayK8644组。（2000±500）LUX蓝光照射6h，终止细胞培养24h。光照前加入硝苯地平和（-）BayK8644，浓度均为1×10^-5mmol／L。荧光定量聚合酶链（PCR）技术检测各组人RPE细胞L-型钙通道α1c亚型、α1D亚型和α1F亚型mRNA的表达。结果荧光定量PCR产物α1C、α1D、α1F和内参8-肌动蛋白的cDNA逆转录PCR扩增产物长度分别为68、157、125、186碱基对，产物的凝胶电泳结果显示扩增条带位置与以上片段相吻合。荧光定量PCR检测结果显示，光照组、光照＋硝苯地平组、光照＋（-）BayK8644组α1CtuRNA的表达均高于无光照组，差异有统计学意义（P〈0．05）；光照＋硝苯地平组、光照＋（-）BayK8644组α1CmRNA的表达均高于光照组，差异有统计学意义（P〈0．05）；光照＋（-）BayK8644组α1CmRNA的表达高于光照＋硝苯地平组，差异有统计学意义（P〈0．05）。光照组、光照＋硝苯地平组、光照＋（-）BayK8644组d1DmRNA的表达均高于无光照组，差异均有统计学意义（P〈0．05）；光照＋（-）BayK8644组α1DmRNA的表达与光照组和光照＋硝苯地平组比较，差异均有统计学意义（P〈0．05）；光照＋硝苯地平组与光照组α1DmRNA的表达比较。差异无统计学意义（P〉0．05）。光照组、光照＋硝苯地平组、光照＋（-）BayK8644组α1FmRNA的表达均高于无光照组，差异有统计学意义（P〈0．05）；光照＋硝苯地平组、光照＋（-）BayK8644组α1FmRNA的表达均高于光照组，差异有统计学意义（P〈0．05）。结论蓝光照射可引起人RPE细胞L-型钙通道中α1C、α1D及α1F亚型mRNA表达不同程度的增高；1×10^-5mmol／L硝苯地平不能对抗蓝光对RPE细胞I，型钙通道作用，而1×10^-5mmol／L（-）BayK8644可以增加以上3个亚基的表达。

光损伤后人视网膜色素上皮细胞血管内皮生长因子A及其受体的表达

目的观察光损伤后人视网膜色素上皮（RPE）细胞血管内皮生长因子A（VEGF-A）及其受体可溶性fm样酪氨酸激酶受体（sFh-1）和包含激酶植入区域受体（KDR）的表达。方法体外培养人RPE细胞，取第8～12代生长良好的传代细胞用于实验。将同代细胞随机分为对照组和光损伤组。以18w冷白色荧光灯作为光源，自制光照器。采用双层高压消毒锡纸包裹对照组细胞，与光损伤组细胞一同置于自制光照器下，控制光照强度在（2200±300）Lux，持续光照12h建立光损伤模型。于光损伤后0、6、12、24h终止培养，采用逆转录聚合酶链反应（RT—PCR）和蛋白免疫印迹法（Westernblot）检测VEGF-A、sFlt-1及KDR的mRNA及蛋白表达。结果光损伤组VEGF—AmRNA及蛋白表达在光损伤后6h时明显增加，12h时达到高峰，明显高于对照组（t=2．74，2．93；P％0．05），随后降低。sFlt-1的mRNA及蛋白表达在光损伤后12h达到高峰，明显高于对照组（t=4．32，P〈0．01）；24h时明显低于对照组（t=2．41，P〈0．05）。KDR的mRNA及蛋白表达在光损伤后6、12h时较对照组无明显变化（t=1．84，P〉0．05），24h时高于对照组（t=2．89，P％0．05）。结论光损伤后6、12h时，RPE细胞VEGF-A及sFh-1的表达明显增高，KDR的表达相对稳定。光损伤后24h时，RPE细胞VEGF-A及sFlt-1的表达降低，KDR的表达增高。

信号转导与转录激活因子3在脉络膜新生血管发生中的可能作用

目的观察磷酸化信号转导与转录激活因子3（STAT3）在激光诱导的大鼠脉络膜新生血管（CNV）中的表达，探讨STAT3在CNV中可能的作用。方法建立激光诱导的大鼠CNV模型，免疫荧光法观察CNV生成早期磷酸化STAT3的表达。建立细胞缺氧模型，细胞培养液中加入Janus激酶2（JAK2）特异性阻断剂AG490后培养1、3、6、12、24h。流式细胞仪检测视网膜色素上皮（RPE）细胞的增生指数，反转录聚合酶链反应（RT—PCR）检测缺氧诱导因子-1α（HIF-1α）和VEGF的mRNA表达，蛋白质免疫印迹法检测HIF-1α蛋白表达，酶联免疫吸附试验检测细胞培养液上清液中血管内皮生长因子（VEGF）的含量。结果激光光凝后3d，磷酸化STAT3高表达于大鼠CNV区域。阻断JAK2／STAT3信号转导通路后，缺氧条件下人RPE细胞随时间增生指数明显降低（t=1．472，3．566，2．391，6．420；P=0．054，0．038，0．042，0．016）。随缺氧时间增加，HIF-1α和VEGFmRNA表达逐渐增强。采用AG490阻断JAK2／sTAT3信号转导通路后，缺氧条件下人RPE细胞HIF-1α mRNA和VEGFmRNA的表达、HIF-1α蛋白的活化均受明显抑制（t=0．07，0．02，0．01，P〈0．05）；细胞培养上清液中VEGF含量显著降低（t=1．330，1．106，2．828，7．742，5．610，6．894，P=0．082，0．063，0．014，0．002，0．016，0．011）。结论STAT3可能参与了CNV的发生，这一过程部分是通过JAK2／STAT3信号转导通路调控RPE细胞HIF-1α和VEGF表达而实现的。

细胞内Ca^2＋及MERTK基因在人视网膜色素上皮细胞吞噬功能中的作用

目的观察细胞内Ca^2＋及MERTK基因在人视网膜色素上皮（RPE）细胞的吞噬功能中所起的作用及二者的相互关系。方法用视细胞外节膜盘（ROS）于37℃孵育培养的RPE细胞，在孵育不同终止吞噬反应。双重荧光标记法检测RPE细胞吞噬动力学；钙离子荧光探针负载法在荧光显微镜下测定RPE细胞内Ca^2＋的变化；半定量逆转录聚合酶链反应（RT-PCR）法检测相应时间点MERTK基因表达的变化及施加Ca^2＋激活剂（A23187载体）或拮抗剂（verapamile）后MERTK基因表达的变化。结果RPE细胞与ROS孵育过程中，ROS结合于RPE细胞表面发生在15min时，RPE细胞吞噬ROS在24h时达到饱和。细胞内Ca^2＋在孵育15min时升高，并在24h内保持高水平；MERTK基因表达在RPE细胞与ROS孵育5min时增强，并在全部孵育过程中呈现出高表达状态；以A23187载体开放钙通道升高RPE细胞内Ca^2＋后，MERTK基因信使核糖核酸（mRNA）水平升高，并呈剂量依赖性。经A23187预处理后的孵育实验中所检测到的MERTK mRNA水平除3h这一时间点外均高于对照组；verapamile拮抗RPE细胞内Ca^2＋后，MERTK基因表达明显下降并呈剂量依赖性；以verapamile预处理后继续与ROS孵育，所检测到的MERTK基因在24h内均低于对照组。结论MERTK基因及细胞内Ca^2＋发挥着维持RPE细胞吞噬过程的重要作用，MERTK作为上游调控信号启动下游的细胞内Ca^2＋信号来维持RPE细胞对ROS的摄入过程。

Highly efficient retinal gene delivery with helper-dependent adenoviral vectors

There have been significant advancements in the field of retinal gene therapy in the past several years.In particular,therapeutic efficacy has been achieved in three separate human clinical trials conducted to assess the ability of adeno-associated viruses(AAV)to treat of a type of Leber’s congenital amaurosis caused by RPE65 mutations.However,despite the success of retinal gene therapy with AAV,challenges remain for delivering large therapeutic genes or genes requiring long DNA regulatory elements for controlling their expression.For example,Stargardt’s disease,a form of juvenile macular degeneration,is caused by defects in ABCA4,a gene that is too large to be packaged in AAV.Therefore,we investigated the ability of helper dependent adenovirus(HD-Ad)to deliver genes to the retina as it has a much larger transgene capacity.Using an EGFP reporter,our results showed that HD-Ad can transduce the entire retinal epithelium of a mouse using a dose of only 1
105 infectious units and maintain transgene expression for at least 4 months.The results demonstrate that HD-Ad has the potential to be an effective vector for the gene therapy of the retina.