Objective To observe the effect of pigment epithelium-derived factor (PEDF)on glutamate metabolism in diabetic rat retina. Methods 78 Sprague-Dawley rats were randomly divided into the model group, model control group, PEDF intervention group and intervention control group. There were some dead and euglycemia rats at the end of experiment, so only 12 rats in each group were included in the statistical analysis. The diabetic retinopathy rat model of the model, PEDF intervention and intervention control group were induced with streptozotocin injection. The rats in the model group were not intervened. The monthly-age matched normal rats of model group were in the model control group. The left eyes of rats were received intravitreal injection with 5 mu;l (0.1 mu;g/mu;l) PEDF (PEDF intervention group) or 5 mu;l phosphate buffer solution (intervention control group). The expressions of L-glutamate/L-aspartate transporter in retina were analyzed by western blot and real time RT-PCR techniques and glutamate content in retina was analyzed by high-pressure liquid chromatography (HPLC). Cultured rat Muuml;ller cells were divided into the control,experimental, PEDF intervention and intervention control group, GLAST expressions were detected by fluorescence immunofluorescence and real-time RT-PCR techniques. The glutamate up-take activity of Muuml;ller cells was determined by intracellular [3H] labeled D, L-glutamate concentration with scintillation counting. Results Western blot and real-time RT-PCR showed that GLAST expression decreased (real-time RT-PCR:t=8.86,Plt;0.01;Western blot:t=3.42,P<0.05), glutamate content increased(t=4.01,P<0.05)in model group compared with the model control group; GLAST expression increased (real-time RT-PCR:t=3.56,P<0.05;Western blot:t=3.52,P<0.05), glutamate content decreased(t=4.36,P<0.05)in the PEDF intervention group compared with the intervention control group. Real-time RT-PCR and fluorescence immunofluorescence showed that high glucose down-regulate GLAST expressions in Muuml;ller cells (rea-time RT-PCR:t=3.48,P<0.05;fluorescence immunofluorescence:t=4.72,P<0.05 ) and impair glutamate uptake activity of Muuml;ller cells (t=3.81, Plt;0.05). Under high glucose conditions, PEDF up-regulated GLAST expression significantly (real-time RT-PCR:t=6.82,P<0.01;fluorescence immunofluorescence:t=3.72,P<0.05) and ameliorated the glutamate up-take activity of Muuml;ller cells(t=4.14, Plt;0.05). Conclusions In diabetic rats, PEDF may improve the activity of GLAST in Muuml;ller cells, thus ameliorate retinal glutamate metabolism and inhibit death of retinal ganglion cells.
Objective To investigate the effect of pigment epitheliumderived factor (PEDF)on the expression of glutamine synthetase in retinal Muuml;ller cells of diabetic rats.Methods Diabetic rats were induced with streptozotocin injection.Before and after injection of 10 mu;l (0.1 mu;g/mu;l) PEDF (experimental group) or 10 mu;l PBS (control group) into the vitreous cavities of diabetic rats respectively for 48 hours,the expressions of GS and IL-1beta; in retina were analyzed by immunohistochemistry and real time RTPCR techniques. After being treated with 100 ng/ml PEDF for 24 hours in high glucose conditions,the expressions of GS and IL-1beta; in cultured Muuml;ller cells were studied by western blot and real time RT-PCR techniques. Apoptosis was analyzed by flow cytometry after Annexin V fluorescein isothiocyanate/Propidium idoium (Annexin V-FITC/PI) staining.Results By immunohistochemistry (the protein level) and real time RT-PCR (the mRNA level),it was found that the expression of GS decreased and the expression of IL-1beta; increased obviously (real time RT-PCR:GS:t=4.23,P<0.01;IL-1beta;:t=16.73,P<0.01;immunohistochemistry:GS: t=5.13,P<0.01;IL-1beta;:t=9.32,P<0.01) in diabetic rats. After injection of 10 mu;l (0.1 mu;g/mu;l) PEDF into the vitreous cavities of diabetic rats for 48 hours,it was found that the expression of GS increased and the expression of IL-1beta; decreased significantly(RT-PCR GS:t=3.87,P<0.01IL-1beta;:t=3.61,P<0.05;immunohistochemistry:GS:t=3.32, P<0.05;IL-1beta;: t=2.63,P<0.05). Under high glucose conditions, 100 ng/ml PEDF induced decreasing expression of IL-1beta; and increasing expression of GS significantly (RT-PCR:GS: t=2.89, P<0.05;IL-1beta;: t=3.37,P<0.05;Western blot:GS:t=2.66,P<0.05;IL-1beta;:t=3.23,P<0.05).Apoptosis of Muuml;ller cells under high glucose conditions was inhibited significantly by the treatment with 100 nmol/ml PEDF (t=3.21,P<0.05). Conclusions In diabetic rats,PEDF may decrease expression of IL-1beta; in rat retinal Muuml;ller cells, which may result in increasing expression of GS.To some degree,it inhibits possibly the death of retinal ganglion cells.
Objective To evaluate the applic ation of blue-on-yellow(B/Y) perimetry in detecting the early visual field loss of glaucoma. Methods The B/Y perimetry of the G2 strategy in the OCTOPUS 101 perimetry was used to examine the visual field of 16 normal persons (32 eyes), 25 cases (35 eyes) of primary open-angle glau coma (POAG) with abnormal white-on-white (W/W) visual fields, 15 cases (15 eye s) of early POAG with normal W/W visual field, and 11 cases (22 eyes) of suspect ed POAG. Results The mean sensitivity (MS) in the normal cases, suspected POAG, early POAG, middle POAG, and late POAG was ( 23.24plusmn;1.22) dB,(20.97plusmn;3.42) dB,(18.44plusmn;3.57) dB,(11.04plusmn;1.85) dB and (8.55plusmn;2.29) dB, respectively. It was demonstrated that B/Y perimetry was more sensitive than W/W perimetry in detecting the glaucomatous visual fi eld defects,and its sensitivity was 92% and specificity was 90.62%. The averag e number of defective points in central visual field with B/Y perimetry was more than that with W/W perimetry in early and middle POAG. Conclusion B/Y perimetry is a relatively sensitive method for detection of the early visual field loss in POAG. (Chin J Ocul Fundus Dis, 2001,17:125-127)
Objective To investigate the glutamate toxicity on inner stratum retinal neurons(ISRN) and the neurotoxicity quantity-efficacy relation. Method Retinal explants obtained from 30 neonatal mices were implanted into two pieces of 24-well culture plates (48 wells). The 48 wells were divided into three groups: control group, glutamate exposure 24 h group, and glutamate exposure with further lasting 6 h group. The retinal explants were sectioned, and then stained with HE after 24 h in vitro. The cells in retinal ganglion cells (RGCs) layer and inner nuclear layer (INL) were analyzed by light microscope at 1 000times; magnification , and the number of normal morphological cells was counted under three 1 000times; magnificat ion fields. Results Some cells in ISRN (include RGCs and INL c ells) showed pykno tic nuclei and necrosis after 24 h in control culture. Glutamate exposure 24 h group:at the 2 mmol and 4 mmol concentrations of glutamate, the situation of the normal morphological cells in ISRN had no difference from that of the control group (Pgt;0.05). At the concentration of glutamate more than or equal to 6 mmol, the number of normal morphological cells in ISRN was significantly less than that of the control group (Plt;0.05), and with the increase of glutamate concentration, the number of normal morphological cells was reduced. Glutamate exposure with fur ther lasting 6 h group: at the concentration of glutamate equal to 6 mmol, the n umber of normal morphological cells in INL was significantly less than that of the control group (Plt;0.05), while the number of normal morphological cells in RGCs layer had no difference between two groups (Pgt;0.05). At the concentration of glutamate more than or equal to 8 mmol, the number of normal morphological cels in RGC s layer and INL was significantly less than that of the control group (Plt;0.05 ). Conclusion Glutamate has the neurotoxicity for ISRN in vitro, and the effect is dose-dependant. (Chin J Ocul Fundus Dis, 2001,17:311-314)