Objective To study the effect of down-regulation of Claudin-3 mediated by adeno-associated virus (AAV) of shRNA on the cultured retinal ganglion cells (RGCs) in vitro. Methods RGCs isolated from mouse eyes were divided into normal control group, AAV-shScramble group, and AAV-shClaudin-3 group. The RGCs in AAV-shScramble group and AAV-shClaudin3 group were treated with AAV-shScramble and AAV-shClaudin-3 respectively 24 hours after cell seeding. Dynamic live cell fluorescence microscopy was used to observe the transfection efficiency 96 hours after transfection. Immunofluorescent staining of β-tubulin was used to measure the length of RGCs′ axon. 4′, 6-diamidino-2-phenylindole staining was used to observe the nuclei of apoptotic cells. The mRNA level of Claudin-3 and VEGF was measured by real-time polymerase chain reaction. The protein levels of Claudin-3, vascular endothelial growth factor (VEGF), Bcl-2 and Caspase-3 was determined by Western blot. Results The positive transfection rate was more than 50% in both AAV-shScramble group and AAV-shClaudin-3 group. The length of RGCs' axon in AAV-shClaudin-3 group was shorter than that in normal control group and AAV-shScramble group (F=22 363.274,P<0.05). Down-regulation of Claudin-3 accelerated RGCs' apoptosis with nuclei shrinkage, tapering, and nucleolus formation of apoptotic bodies. The mRNA levels of Claudin-3 and VEGF in AAV-shClaudin-3 group were lower than those in normal control group and AAV-shScramble group (F=257.408, 160.533;P<0.05). The protein levels of Claudin-3, VEGF and Bcl-2 in AAV-shClaudin-3 group were lower than those in normal control group and AAV-shScramble group (F=129.671, 420.552, 62.669;P<0.05), while the protein level of Caspase-3 in AAV-shClaudin-3 group was higher than that in normal control group and AAV-shScramble group (F=231.348,P<0.05). Conclusion Down-regulation of Claudin-3 increases the expression of Caspase-3, reduces the expression of VEGF and Bcl-2, accelerates RGCs' apoptosis and inhibit the RGCs' axon growth.
Objective To compare the effects of olfactory ensheathing cell (OEC)-containing and pre-degenerated peripheral nerve (PN) transplantation on the axonal regeneration of axotomized retinal ganglion cells (RGC) in adult rats. Methods Twenty-four Sprague-Dawley rats were randomly divided into 4 groups with 6 rats in each group. A segment of the normal (group A) or 10mu;l-OEC-injected (group B) autogenetic sciatic nerve was sutured onto the ocular stump of the left transected optic nerve (ON). In another 2 groups, the removed sciatic nerve was cultured (group C) or co-cultured with OEC (group D) in vitro for 5 days before transplantation. All animals were executed 4 weeks after transplantation, and the number of Fluoro-goldlabeled RGC in each group was counted. Results The averages of regenerating RGC in group B (1481plusmn;268), C (1235plusmn;266) and D (1464plusmn;285) were significantly higher than that in group A (799plusmn;109; P=0.0002, 0.0010 and 0.0003, respectively). No significant difference was found among group B, C and D (P=0.3644, 0.9167 and 0.4344). Conclusion OEC can promote the axonal regeneration of axotomized RGC in fresh PN graft, which doesnprime;t differ much from the effect of the pre-degenerated PN graft. No additive effect of OEC and the pre-degenerated PN graft can be detected. (Chin J Ocul Fundus Dis, 2007, 23: 130-132)
Objective To study the effects of several neurotrophic factors and growth factors on the survival of human retinal ganglion cells(RGC)in vitro. Methods RGC were isolated from donor eyes and cultured.RGC in cell culture were identified by morphologic criteria and immunocytochemical staining.Various neurotrophic factors and growth factors were added individually to the cultures.Numbers of RGC in wells in which these agents had been added were compared with those from control wells(cultures without supplements). Results No or very few RGC were present in cell cultures containing medium without supplements or those supplemented with neurotrophin-3(NT-3),nerve growth factor (NGF),epidermal growth factor(EGF)amd plateletderived growth factor(PDGF).Numbers of RGC(per 10 fields)in cell cultures containing brain derived neurotrophic factor(BDNF),ciliary neurotrophic factor(CNTF),neurotrophin-4/5(NT-4/5)and basic fibroblast growth factor(bFGF)wer 4.08,1.23,2.63 and 2.65,respectively,significantly more than found in the control cultures. Conclusions BDNF,NT-4/5,bFGF,CNTF improve survival of human RGC in vitro,while NGF,NT-3,EGF and PDGF do not. (Chin J Ocul Fundus Dis, 1999, 15: 149-152)
Objective:To observe the protective effect of ginkgo bilo ba extrac t (EGb 761), a free radical scavenger, on the photoreceptor cells after lighti nduced retinal damage. Methods:Seventytwo female SpragueDa wley (SD) rats we re randomly divided into 4 groups: normal control group, lightinduced retinal da m age model group, model+physiological saline group, and model+EGb 761 group, with 18 rats in each group. All of the rats except the ones in the control group were exposed to white light at (2740plusmn;120) lx for 6 hours after the dark adap tation for 24 hours to set up the lightinduced retinal damage model. Rats in m o del + physiological saline group and model+EGb 761 group were intraperitoneall y injected daily with physiological saline and 0.35% EGb 761 (100 mg/kg), respec tively 7 days before and 14 days after the light exposure. Apoptosis of photorec eptor cells was detected 4 days after light exposure; 7 and 14 days after light exposure, histopathological examination was performed and the layer number of ou ter nuclear layers (ONL) on the superior and inferior retina was counted. Results:Four days after light exposure, the apoptosis of photorecep tor cells was fou nd on ONL in model, model+ physiological saline and model+EGb 761 group, and w as obviously less in model + EGb 761 group than in model and model+physiologic al saline group. Seven days after light exposure, the layers of ONL on the super ior retina were 3 to 4 in model and model+physiological saline group, and 7 to 8 in model+EGb 761 group; the mean of the layer number of ONL in model+EGb 761 group (6.92plusmn;0.82) was less than that in normal control group (8.40plusmn;0.95) (t=-1.416, P<0.05), but significantly more than that in model (5.96 plusmn;1.36 ) and model+physiological saline group (5.90plusmn;1.40)(t=1.024, 1.084; P<0.05). Fourteen days after light exposure, the layers of ONL on the superior retina were 0 to 1 in model and model+physiological saline group, and 3 to 4 i n model+EGb 761 group. The mean of the layer number of ONL in model+EGb 761 group (5.5 2plusmn;1.06) was significantly more than that in model (3.44plusmn;2.15) and model + physiological saline group (3.37plusmn;1.91) (t=2.082, 2.146, P<0.05). Conclusion:EGb 761 can partially inhibit the apoptosis of pho toreceptor cells, thus exert protective effect on photoreceptor cells.
ObjectiveTo evaluate the repeatability and reproducibility of macular ganglion cell-inner plexiform layer (GCIPL) thickness measurement using spectral-domain optical coherence tomography (Cirrus HD-OCT). MethodOne hundred and eight eyes of 54 normal subjects (26 males and 28 females) between 19 and 75 years of age were included. Each eye underwent macular scanning using Cirrus HD-OCT Macular Cube 512×128 protocol by two operators. Three scans of each eye were obtained by each operator. For the right eye of each subject, three extra scans were obtained using Macular Cube 200×200 protocol by one operator. The average, minimum, superotemporal, superior, superonasal, inferonasal, inferior, and inferotemporal GCIPL thickness was analyzed and the repeatability of GCIPL thickness measurement was evaluated with intra-operator, inter-operator, intra-protocol, and inter-protocol intraclass correlation coefficients (ICC). Ten extra scans were obtained from the left eyes of 10 randomly selected subjects for reproducibility assessment with coefficients of variation (CV). ResultsThe intra-operator ICC of macular GCIPL measurement using Macular Cube 512×128 protocol by two operators were 0.959-0.995 and 0.954-0.997, respectively; and the inter-operator ICC were 0.944-0.993. All intra-and inter-operator ICC were > 0.800 with the highest and lowest records of the average and minimum GCIPL thickness, respectively. The intra-protocol ICC of Macular Cube 512×128 protocol and Macular Cube 200×200 protocol were 0.986-0.996 and 0.927-0.997, respectively; and the inter-protocol ICC were 0.966-0.994. All intra-and inter-protocol ICC were > 0.800. CV of GCIPL thickness measurement using Macular Cube 512×128 protocol were (0.70±0.31)%-(1.35±0.86)%. ConclusionCirrus HD-OCT can measure macular GCIPL thickness in normal eyes with excellent repeatability and reproducibility.
Objective To investigate the protective effects of estrogen on rabbit retinal damages induced by chronic ocular hypertension.Methods A total of 18 white New Zealand female rabbits were randomly divided into ovariectomized (OV) group and sham OV (SOV) group. Bilateral ovaries were remove in OV group while only the adipose tissue around ovarian were remove in SOV group. Chronic ocular hypertension was induced by anterior chamber injection of carbomer. Retinal cell apoptosis was measured by terminal deoxynucleotidyl transferasemediated dUTP nick end labeling (TUNEL), the expression of bcl-2, bax were detected by immunohistochemistry. The images were captured under microscope and analyzed with computer-image-analysis system. Results Four, six and eight weeks after ocular hypertension modeling, the OV retinas have less retinal ganglion cells, thinner optic nerve fiber layer and inner nuclear layer and more TUNEL positive cells (t=3.285,4.012,3.624;P<0.01). The OV retinas also have less bcl-2 expression (t=4.256,3.867,3.459;P<0.01), more bax positive cells (t=3.211,3.625,3.253;P<0.01). Bcl-2 expression was negatively correlated with TUNEL positive cells indicating bcl-2 can inhibit apoptosis. Bax expression was positively correlated with TUNEL positive cells indicating bax induce apoptosis.ConclusionEstrogen has a neuroprotection role to rabbit retina under chronic ocular hypertension by reducing apoptosis.
Objective To observe the morphological changes of dendrite and soma in retinal ganglion cells (RGCs) which subsisted in early diabetic rats. Methods The RGCs of 3-months-course diabetic rats and coeval normal rats were marked by gene gun techniques. To collect RGCs photographs by Leica microscope with Z axis and CCD camera;to observe the changes of diameter, variance of structural features in dendritic field and somata after classification which according to the size and morphology. Thy-1 antibody marks on the retinal RGCs, taking a photograph under fluorescent microscope, counting the changes of retinal RGCs density in early diabetic rat. Results In three-month diabetic rats,the density of retinal RGCs was decreased obviously. Morphological changes of RGCs in the dendritic fields were observed with gene gun technique. There was no severe variation in all kinds of the bole of cell dendrite, in which some only showed crispation partially and sparseness also twisting in the dendritic ramus. The mean diameter of dendritic field and soma in class A of diabetic rats was (401plusmn;86) mu;m, the mean diameter of dendritic field in control group was (315plusmn;72) mu;m,compared with each other, there is statistically significant differences (t=21.249,Plt;0.001); the mean diameter of soma in class A of diabetic rats was (24plusmn;6) mu;m, the mean diameter of soma in control group was (22plusmn;5) mu;m, compared with each other, there is no statistically significant differences (t=0.927,Pgt;0.05); the mean diameter of dendritic field and soma in class B of diabetic rats were (170plusmn;36)、(14plusmn;2) mu;m respectively, in control group were (165plusmn;36)、(16plusmn;2) mu;m, the mean diameter of dendritic field and soma in class C of diabetic group were(265plusmn;78)、(17plusmn;5) mu;m respectively, in control group were (251plusmn;57)、(17plusmn;4) mu;m , compared with each other, there are on statistically significant differences(t=1.357,0.798,0.835,1.104,Pgt;0.05). Conclusions In short-term diabetes, the survived RGCs show good plasticity in adult diabetic rats, especially in class A. The changes of dendrites were more sensitive than the soma, which could be the leading index of the morphologic changes of RGCs in the early stage. The good plasticity showed by the RGCs and the time window from changing in dendrite to cell death provide us many evidences not only for the research but also for the nerve protection in clinic. (Chin J Ocul Fundus Dis,2008,24:249-254)
Objective To evaluate the inhibiting effect of adenosine on rat retinal ganglion cells (RGC) death induced by P2X7 and N-methyl-D-aspartate (NMDA) receptor. Methods (1) Long-Evan neonatal rats were back labeled with aminostilbamidine to identify RGC. The viability of RGC affected by P2X7 excitomotor BzATP (50 mu;mol/L), glutamate receptor excitomotor NMDA (100 mu;mol/L) and adenosine (300 mu;mol/L) was detected. (2) RGC from the retinae of unlabeled neonatal rats were cultured in vitro. After labeled with Fura-2 methyl acetate, an intracellular calcium indicator, the effect of BzATP, NMDA and adenosine on intracellular Ca2+ level was detected byCa2+ imaging system. Results Both BzATP (50 mu;mol/L) and NMDA(100 mu;mol/L) could kill about 30% of the RGC. Cell death was prevented by adenosine (300 mu;mol/L) with the cell viability increased from (68.9plusmn;2.3)% and (69.9plusmn;3.2)% to (91.2plusmn;3.5)% (P<0.001) and (102.1plusmn;3.9)% (P<0.001), respectively. BzATP (50 mu;mol/L) led to a large, sustained increase of intracellular Ca2+ concentration to (1183plusmn;109) nmol/L. After the adenosine intervened, Ca2+ concentration increased slightly to (314plusmn;64) nmol/L (P<0.001). Conclusion Adenosine may prevent RGC death and increase of intracellular Ca2+ concentration from P2X7and NMDA receptor stimulation. (Chin J Ocul Fundus Dis, 2007, 23: 133-136)
ObjectiveTo observe the role of Notch signaling pathway inhibitor in differentiation process of stem cells derived from retinal Müller cells into the ganglion cell. MethodsRetinas of Sprague Dawley rat at postnatal 10-20 days were dissociated from eye balls. The third passage of Müller cells was used in this experiment, which cultured by repeated incomplete pancreatic enzyme digestion method. The retinal Müller cells were induced in the serum-free dedifferentiation medium. The cell proliferation state was observed under an inverted microscope. The expression of the specific markers Nestin and Ki-67 of retinal stem cells was measured by reverse transcription-polymerase chain reaction (RT-PCR) and Western blot. The positive rate of nucleus was detected by Edu. The retinal stem cells was divided into Gamma secretase inhibtor-I (GSI) group and control group, the rate of ganglion cells was counted by using immunofluorescence staining. ResultsThe cell proliferation had gathered to form a sphere. Immunofluorescence staining showed that the expressions of Nestin and Ki-67 were (92.94±6.48%) and (85.96±6.04%) respectively. Edu positive rate of nucleus was (82.80±6.65)%. RT-PCR and Western blot further confirmed the high expression of Nestin and Ki-67 in the cell spheres but not in the Müller cells. The positive rate of ganglion cells were (16.98±2.87)% and (11.17±0.71)% in GSI group and control group respectively, with the significant difference (t=3.210, P=0.002). ConclusionNotch signaling pathway is an important regulatory gene in stem cells differentiated into retinal ganglion cell.
Objective To observe the protective effect of ultrasound microbubble contrast agentmediated transfection of brain-derived neurotrophic factor(BDNF) into the retina and visual cortex on retinal ganglion cells (RGC) after optic nerve injury. Methods A total of 88 male Sprague-Dawley (SD) rats were randomly divided into normal group (group A, eight rats), sham operation group (group B, 16 rats), control group (group C, 16 rats), eyes transfection group (group D, 16 rats), brain transfection group (group E, 16 rats), combined transfection group (group F, 16 rats). The optic nerve crush injury was induced, and then the groups B to F were divided into one-week and two-week after optic nerve injury subgroup with eight rats each, respectively. The rats in group B and C underwent intravitreal and visual cortex injection with phosphate buffered solution respectively. The rats in group D and E underwent intravitreal and visual cortex injection with the mixture solution of microbubbles and BDNF plasmids respectively. The rats in group F underwent both intravitreal and visual cortex injection with the mixture solution of microbubbles and BDNF plasmids at the same time. The ultrasound exposure was performed on the rats in group D to F after injection with the mixture solution of microbubbles and BDNF plasmids. One and two weeks after optic nerve injury, RGC were retrogradely labeled with Fluorogold; active caspase-3 protein was observed by immunohistochemistry and the N95 amplitude was detected by pattern electroretinogram (PERG). Results Golden fluorescence can be observed exactly in labeled RGC in all groups,the difference of the number of RGC between the six groups and ten subgroups were significant(F=256.30,65.18;P<0.01). Active caspase-3 in ganglion cell layer was detected in group C to F, but not in group A and B. The difference of the N95 amplitude between the six groups and ten subgroups were significant(F=121.56,82.38;P<0.01).Conclusion Ultrasound microbubble contrast agent-mediated BDNF transfection to the rat retina and visual cortex can inhibit the RGC apoptosis after optic nerve injury and protect the visual function.