Objective:To observe the expression of gene and protein l evel of unfolded protein, glucoseregulated protein 78 (GRP78), after retinal d etachment (RD); to find out the relationship between UPR and the cell damage after RD. Methods:Eightyeight Wistar rats were divided into 2 groups: con trol group (11 rats) and RD group (77 rats). In RD group, subretinal injection with 10 mg/ml hyaluronic acid sodium was performed on the left eyes of the rats t o set up RD model, and the left eyes and retinal tissue were collected 1/2 day, 1 day, 2, 4, 8, 1 6 and 32 days after RD; there were 11 rats in each subgroup. The expression of G RP78 mRNA in retina tissue was detected by semiquantitative reverse transcript i on polymerase chain reaction (RT-PCR), the expression of GRP78 protein level wa s detected by Western blotting, and the distribution of GRP78 in each retinal lay er was observed by immunofluorescence labeling method and confocal microscopy. Results:The expression of retinal GRP78 mRNA significantly in creased in 1/2 day , 1 day, 2, and 4 days subgroups after RD (P lt;0.05). The expression of GRP7 8 protein significantly increased in each subgroup after RD compared with which in the control group, and reached the peak in 8, 16, and 32 days subgroups. The expres sion of GRP78 protein was detected in all of the retinal layers after RD. Conclusion:The protection mechanism of UPR starts up after RD, and l eads the correc t pucker of the protein and reduces cellular injury by upregulating the expres s ion of GRP78, which provide the theoretic basis for reducing the cellular injury and improving the visual function in patients with RD.
Citation: LIU Haiyang,SUN Xiaodong,WANG Fenghua,et al.. Participation of the unfolded protein response in the cell damage after retinal detachment. Chinese Journal of Ocular Fundus Diseases, 2007, 23(5): 340-343. doi: Copy