Optineurin (OPTN) has recently been linked to glaucoma, a major cause of blindness worldwide. Mutations in OPTN such as Glu 503 Lys (E50K) have been reported in patients, particularly those with normal pressure glaucoma. Here, we show that the endogenous OPTN was not secreted in two ocular cell types, human trabecular meshwork and retinal pigment epithelial cells. It localized instead in the cytoplasm in a diffuse pattern without a distinct association with the Golgi apparatus. When overexpressed, however, wild-type OPTN-green fluorescent protein (GFP) formed foci especially around the Golgi, colocalizing partially with the common endocytic pathway marker transferrin receptor in both cell types. Fragmentation of the Golgi was also observed. On nocodazole treatment, the OPTN foci were dispersed into the cytoplasm. Overexpression of mutant OPTN E50K -GFP resulted in a greater number (P < 0.0055) and size of the foci, compared with the wild type, and the Golgi alteration was potentiated. Cell loss observed in OPTN-expressing cultures was also more pronounced in OPTN E50K -GFP compared with that of wild-type OPTN-GFP counterparts (P < 0.01). This study highlights a possible role of OPTN in vesicle trafficking and Golgi integrity. It also provides insights into the possible mechanisms why E50K would exhibit a propensity toward the development of glaucoma.
Myocilin (MYOC) and optineurin (OPTN) are two genes linked to glaucoma, a major blinding disease. To investigate the possible molecular interactions between MYOC and OPTN genes, we over-expressed MYOC and examined its effect on the level of endogenous OPTN in human trabecular meshwork (TM) cells and vice versa. We noted that over-expressing MYOC did not affect the OPTN level, whereas OPTN over-expression induced an up-regulation of the endogenous MYOC. This induction was also observed in other ocular and non-ocular cell types including PC12 cells. The endogenous levels of both OPTN and MYOC genes were in addition found increased when PC12 cells underwent differentiation upon treatment with nerve growth factor (NGF). Over-expression of OPTN resulted in prolonged turnover rate of MYOC mRNA but had little effect on the promoter activity of the MYOC gene. The over-expressed OPTN was localized in the cytoplasm, not translocated into the nucleus. These results indicate that interaction exists between OPTN and MYOC genes. Regulation of MYOC expression by OPTN is achieved primarily through control of the mRNA stability.
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