Glucocorticoid Induction of the Glaucoma Gene MYOC in Human and Monkey Trabecular Meshwork Cells and Tissues (original) (raw)
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Delayed Secondary Glucocorticoid Responsiveness of MYOC in Human Trabecular Meshwork Cells
2001
To characterize the glucocorticoid responsiveness of the glaucoma gene MYOC (myocilin/TIGR) in cultured human trabecular meshwork (TM) cells. METHODS. MYOC expression in two independently derived human TM cell lines was quantified by Western immunoblot analysis of protein levels and quantitative PCR analysis of mRNA levels. Promoter activity was measured indirectly with the luciferase reporter gene in a dual luciferase reporter assay. RESULTS. Application of the synthetic glucocorticoid dexamethasone (Dex) to cultured TM cells at 100 nM resulted in a delayed (8 -16 hours) induction of myocilin. The concentration dependence (median effective concentration [EC 50 ], ϳ10 nM) and reversal by the glucocorticoid antagonist, RU486, implicates the glucocorticoid receptor (GR). In an interesting observation, RU486 alone acted as a partial agonist to MYOC expression. Treatment of TM cells with the protein synthesis inhibitor cycloheximide abolished the Dex induction, suggesting an indirect effect of the GR on MYOC expression. In addition, the RNA synthesis inhibitor actinomycin D also blocked Dex induction, indicating that the Dex effect was due to increased MYOC transcription. Analysis of up to 2700 nucleotides (nt) of the MYOC gene 5Ј-flanking region in luciferase reporter constructs showed no Dex induction, despite the presence of multiple putative glucocorticoid response element (GRE)-like half-sites in the MYOC promoter and the presence of an intact cellular GR-mediated signaling system. CONCLUSIONS. MYOC is a delayed secondary glucocorticoidresponsive gene. Characterization of the transcription factors that mediate the secondary response will shed new light on the pathophysiology of steroid-induced ocular hypertension and glaucoma. (Invest Ophthalmol Vis Sci. 2001;42:3173-3181) From the
Investigative Ophthalmology & Visual Science, 2010
PURPOSE. To assess in vitro myocilin (MYOC) expression in trabecular meshwork (TM) cells exposed to BOL-303242-X, a selective glucocorticoid receptor (GR) agonist (SEGRA), in comparison with dexamethasone (DEX), and prednisolone acetate (PA). METHODS. After drug treatment of monkey TM cultures, MYOC protein in conditioned media (CM) was measured by Western blot and densitometry. MYOC mRNA levels were analyzed by qRT-PCR. RU-486 was tested for antagonism of MYOC protein expression induced by DEX and BOL-303242-X. RESULTS. Baseline MYOC protein released into CM and MYOC mRNA were detected. DEX or PA elicited dose-dependent increases in MYOC in CM and also in MYOC mRNA. BOL-303242-X effects typified partial agonism, with significantly reduced MYOC protein and mRNA, compared with DEX. Maximum efficacy for BOL-303242-X was 53% of that for DEX. Mean EC 50 across all strains tested was lower, but not significantly different, for BOL-303242-X versus DEX. Compared with DEX, MYOC mRNA levels were significantly lower in BOL-303242-X-treated TM cells at the highest doses tested. EC 50 s for PA were higher than DEX, for both myocilin protein and mRNA. RU-486 displayed a dose-dependent antagonism to drug-induced increases in myocilin levels. CONCLUSIONS. In vitro quantitative assays of myocilin expression in TM cells can be used for characterizing anti-inflammatory drugs that are GR ligands. The results suggest that, compared with traditional ocular steroids, therapeutic doses of BOL-303242-X elicit a reduced myocilin expression profile in TM cells by virtue of the partial agonist properties of this compound.
Human Molecular Genetics, 2001
Until recently, very little was known about the molecular mechanisms responsible for the development of glaucoma, a leading cause of blindness worldwide. Mutations in the glaucoma gene myocilin (MYOC, GLC1A) are associated with elevated intraocular pressure and the development of autosomal dominant juvenile glaucoma and a subset of adult-onset glaucoma. MYOC is expressed in the trabecular meshwork (TM), a tissue responsible for drainage of aqueous humor from the eye, and the tissue involved in elevated intraocular pressure associated with glaucoma. To better understand the role of MYOC in glaucoma pathogenesis, we examined the expression of normal and mutant myocilin in cultured ocular (TM) and non-ocular cells as well as in the aqueous humor of patients with and without MYOC glaucoma. Normal myocilin was secreted from cultured cells, but very little to no myocilin was secreted from cells expressing five different mutant forms of MYOC. In addition, no mutant myocilin was detected in the aqueous humor of patients harboring a nonsense MYOC mutation (Q368X). Co-transfection of cultured cells with normal and mutant myocilin led to suppression of normal myocilin secretion. These studies suggest that MYOC glaucoma is due either to insufficient levels of secreted myocilin or to compromised TM cell function caused by congestion of the TM secretory pathway.
Characterization of monoclonal antibodies against the glaucoma-associated protein myocilin
Experimental Eye Research, 2008
Although the glaucoma-associated protein myocilin has been the focus of intensive research, its biological function is still unknown. One of the limiting factors has been the lack of well characterized antibodies, particularly monoclonal antibodies. We describe the development of six monoclonal antibodies specific to myocilin and characterize their suitability in Western blot and immunohistochemical applications. Three of the six monoclonal antibodies recognize the N-terminus of myocilin (amino acids 33-214), two antibodies recognize the middle third of the protein (amino acids 215-368), and one antibody recognizes the C-terminus (amino acids 369-504). Isotyping revealed all antibodies are of the IgG1κ class except one, which is IgG2bκ. Purified myocilin monoclonal antibodies were able to recognize myocilin in human aqueous humor separated on denatured/reduced and native gels, and human trabecular meshwork lysate by Western blot. Myocilin was also detected by immunohistochemistry in trabecular meshwork, ciliary body, iris, cornea, sclera, choroid, and retinal pigment epithelial cells.
2001
PURPOSE. Glucocorticoid-induced ocular hypertension (the ste- roid response) may result in optic nerve damage that very closely mimics the pathologic course of primary open angle glaucoma (POAG). In addition, patients with glaucoma and their relatives are much more likely to exhibit the steroid response than unaffected individuals, suggesting a potential link between the steroid response and POAG. Recently, the expression
Myocilin in the trabecular meshwork of eyes with primary open-angle glaucoma
Graefe's Archive for Clinical and Experimental Ophthalmology, 2009
Background Mutations in myocilin, a 55-57 kDa secreted glycoprotein, are causative for some forms of primary open-angle glaucoma (POAG). In vitro studies indicate that myocilin can modulate the hydrodynamic outflow resistance in the trabecular meshwork (TM) and that elevated amounts of myocilin can obstruct the TM outflow system in POAG. In this study, we analyzed the localization of myocilin in the trabecular meshwork (TM) of eyes with primary open-angle glaucoma (POAG), and compared it with that of normal eyes. Methods Immunohistochemistry for myocilin was performed in the eyes of human donors (nine normal and 14 with POAG, including one with steroid-induced glaucoma). Results Staining for myocilin was observed in the extracellular spaces of the juxtacanalicular tissue (JCT) in all normal eyes. Some normal eyes did also show cytoplasmic staining for myocilin in TM cells. In the eyes of six donors with POAG, staining of the JCT was more widespread and intense than in normal eyes. In the other eyes with POAG, immunoreactivity for myocilin in the JCT was not markedly different to that of normal eyes. Staining intensity in the JCT of POAG eyes did not obviously correlate with intraocular pressure or clinical severity. In the eyes of one patient with steroid-induced POAG, cells of the TM, Schlemm's canal endothelium, and the anterior stroma of the iris showed an immunoreactivity for myocilin which was considerably more intense than in normal eyes, or in the eyes with other forms of POAG. Conclusions In some cases of POAG, the structural changes in the JCT include an increase in myocilin in the extracellular pathways of aqueous humor. Treatment with steroids appears to increase myocilin synthesis in TM and iris of human eyes in situ.
Molecular and Cellular Biology, 2004
Despite the importance of MYOC for glaucoma, the protein's normal function(s) and the pathogenic mechanism(s) of MYOC mutations are not clear. Elevated intraocular pressure (IOP) and glaucoma are sometimes induced by corticosteroids, and corticosteroid use can result in substantially increased MYOC expression. It has been suggested, therefore, that steroid-induced MYOC protein levels cause steroid-induced glaucoma and that protein level-increasing mutations in MYOC contribute to glaucoma not associated with steroid use. A causative role of elevated MYOC levels in steroid-induced glaucoma is controversial, however, and it is not clear if elevated MYOC levels can result in IOP elevation. To directly test if increased levels of MYOC can cause IOP elevation and glaucoma, we generated bacterial artificial chromosome transgenic mice that overexpress Myoc at a level similar to that induced by corticosteroid use. These mice do not develop elevated IOP or glaucoma. Our present findings, along with the absence of glaucoma in mice completely lacking MYOC, show that changing the level of MYOC is not pathogenic (from absent to approximately 15 times normal). These findings suggest that noncoding sequence variants are unlikely to influence glaucoma and that disease pathogenesis in primary open-angle glaucoma patients is dependent upon the expression of abnormal mutant proteins. This work does not support a causative role for increased MYOC levels or the MYOC gene in steroid-induced glaucoma.
Expression of Myocilin/TIGR in Normal and Glaucomatous Primate Optic Nerves
Experimental Eye Research, 2001
Myocilin/TIGR was the ®rst molecule discovered to be linked with primary open angle glaucoma (POAG), a blinding disease characterized by progressive loss of retinal ganglion cells. Mutations in myocilin/TIGR have been associated with age of disease onset and severity. The function of myocilin/TIGR and its role in glaucoma is unknown. Myocilin/TIGR has been studied in the trabecular meshwork to determine a role in regulation of intraocular pressure. The site of damage to the axons of the retinal ganglion cells is the optic nerve head (ONH). The myocilin/TIGR expression was examined in fetal through adult human optic nerve as well as in POAG. Myocilin/TIGR was expressed in the myelinated optic nerve of children and normal adults but not in the fetal optic nerve before myelination. Also examined was the expression in monkeys with experimental glaucoma. The results demonstrate that optic nerve head astrocytes constitutively express myocilin/TIGR in vivo in primates. Nevertheless, myocilin/TIGR is apparently reduced in glaucomatous ONH. The colocalization of myocilin/TIGR to the myelin suggests a role of myocilin/TIGR in the myelinated optic nerve.
Genetics
The availability of the human genome sequence together with sequenced genomes of several model organisms provides an unprecedented opportunity to utilize comparative genomic approaches for the discovery of genes that contribute to human disease. We have used transgenic flies to establish an experimental paradigm for the discovery of genes that might be involved in the development of glaucoma, a prevalent disease affecting a large segment of the population. Inherited mutations in the trabecular meshwork-inducible glucocorticoid response protein/myocilin (TIGR/MYOC) are associated with juvenile glaucoma and some cases of adult primary open angle glaucoma. The interrelationships between TIGR/MYOC and the development of glaucoma, however, are not understood. We show that overexpression of human TIGR/MYOC in the eyes of Drosophila melanogaster results in distortion of ommatidia accompanied by fluid discharge. High-density oligonucleotide microarrays identified altered expression of 50 tr...
Unaltered myocilin expression in the blood of primary open angle glaucoma patients
Molecular vision, 2012
To investigate the expression of the myocilin gene (MYOC) in the blood of primary open angle glaucoma (POAG) patients to determine if altered systemic expression is playing a role. Patients (n=47) were eligible for inclusion if they met standard clinical criteria for POAG. Control subjects (n=27) were recruited who were free from glaucoma by examination. RNA was extracted from leukocytes of patients and controls and converted to cDNA by reverse transcriptase enzyme, and quantitative PCR was used to assess expression levels of MYOC and the house keeping gene β-globulin (HBB). The ratio of MYOC expression to HBB expression for POAG patients was compared to that of controls and to clinical characteristics of POAG patients. Mean gene expression values were statistically similar in POAG patients and controls for both MYOC (p≤0.55) and HBB (p≤0.48). MYOC/HBB ratios were also statistically indistinguishable between POAG patients and controls (p≤0.90). MYOC/HBB ratios were not significantly...