Expression of Wild-Type and Truncated Myocilins in Trabecular Meshwork Cells: Their Subcellular Localizations and Cytotoxicities

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Expression of Wild-Type and Truncated Myocilins in Trabecular Meshwork Cells: Their Subcellular Localizations and Cytotoxicities

Seongsoo Sohn¹, Wonhee Hur¹, Myung Kuk Joe¹, Ji-Hyun Kim¹, Zee-Won Lee², Kwon-Soo Ha² and Changwon Kee¹

^¹ From the Department of Ophthalmology, Samsung Medical Center, School of Medicine, Sungkyunkwan University, Seoul, Korea; and the ^² Biomolecular Research Group, Korea Basic Science Institute, Taejon, Korea.

PURPOSE. To investigate the subcellular localizations and potentialcytotoxicities of wild-type and truncated (Q368X) myocilin incultured human trabecular meshwork (TM) cells.

METHODS. Full-length wild-type myocilin, truncated myocilin,and stromelysin were expressed as green fluorescence (GFP) orDsRed fusion proteins in TM cells by using adenoviral vectors,and their secretory properties and cytopathic effects were evaluatedby Western blot analysis and cell proliferation assay, respectively.To determine the subcellular localizations of myocilins, thecellular organelles of the infected TM cells were stained withorganelle-specific antibodies or fluorescent indicators andexamined under a confocal microscope.

RESULTS. Wild-type myocilin was expressed mainly in the perinuclearregion of TM cells and was localized preferentially in endoplasmicreticulum (ER), but not in actin, microtubules, or mitochondria.Truncated myocilin was also localized in ER, and its expressionwas found to be potentially toxic to TM cells, leading to deformedcellular morphology and diminished cell proliferation, but ithad no effect on the secretion of stromelysin. The truncatedmyocilin was also found to be colocalized with and appearedto aggregate with wild-type myocilin when the proteins werecoexpressed.

CONCLUSIONS. TM cells participating in the turnover of trabecularextracellular matrix (ECM) components are important in regulatingaqueous outflow. The truncated myocilin, colocalized and coaggregatedwith wild-type myocilin, is believed to cause a dysfunctionof the cells, resulting in alterations in structural compartmentalizationof trabecular ECM and obstruction of aqueous outflow.

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