Primary open-angle glaucoma (POAG) is a highly prevalent cause of irreversible blindness which associates cupping of the optic disc and alteration of the visual field, elevation of intraocular pressure being a major risk factor. Provided diagnosis is made at an early stage, treatments are available to prevent visual impairment. A locus, GLC1A, has been mapped on chromosome 1q23-q25 in several families affected with juvenile-onset POAG (JOAG) and also in some families affected with juvenile and middle-age onset POAG. Recently, three mutations of the TIGR (Trabecular meshwork-Induced Glucocorticoid Response) gene were shown to be responsible for the disease in several American families and in unrelated POAG patients. We now describe five new mutations in eight French families. All mutations known to date appear to concentrate in the evolutionarily conserved C-terminal domain of TIGR which bears homology to frog olfactomedin, an extracellular matrix glycoprotein of the olfactory epithelium, to rat and human neuronal olfactomedin-related proteins and to F11C3.2, a protein from Caenorhabditis elegans . Moreover, this conserved domain of TIGR is encoded by a single exon to which mutation screening could be limited. Surprisingly, the TIGR message, which is abundantly transcribed in the trabecular meshwork and also in the ciliary body and the sclera, is not expressed in the optic nerve whose degeneration is, however, the primary lesion of POAG.
NPDS appears to be an effective and safe filtering procedure for lowering IOP and could be an alternative to trabeculectomy in open angle glaucoma with the advantage of having fewer complications.
Primary open-angle glaucoma (POAG) is an optic neuropathy that has a high worldwide prevalence and that shows strong evidence of complex inheritance. The myocilin (MYOC) gene is the only one that has thus far been shown to have mutations in patients with POAG. Apolipoprotein E (APOE) plays an essential role in lipid metabolism, and the APOE gene has been involved in neuronal degeneration that occurs in Alzheimer disease (AD). Here, we report that two APOE-promoter single-nucleotide polymorphisms (SNPs) previously associated with AD also modify the POAG phenotype. APOE(-219G) is associated with increased optic nerve damage, as reflected by increased cup:disk ratio and visual field alteration. In addition, APOE(-491T), interacting at a highly significant level with an SNP in the MYOC promoter, MYOC(-1000G), is associated with increased intraocular pressure (IOP) and with limited effectiveness of IOP-lowering treatments in patients with POAG. Together, these findings establish APOE as a potent modifier for POAG, which could explain the linkage to chromosome 19q previously observed by use of a genome scan for this condition and an increased frequency of glaucoma in patients with AD. The findings also shed new light on potential mechanisms of optic nerve damage and of IOP regulation in POAG.
Primary open-angle glaucoma (POAG) is a highly prevalent optic neuropathy and a major cause of irreversible blindness, with elevation of intraocular pressure (IOP) being a primary risk factor. The trabecular meshwork-inducible glucocorticoid response (TIGR)/MYOCILIN (MYOC) gene coding region is mutated in 3-4% of POAG patients. Here, in a retrospective study of 142 POAG patients, we evaluated the influence on glaucoma phenotype of a novel biallelic polymorphism (-1000C/G) located in the upstream region of the MYOC gene. Allele frequencies were similar among patients and controls. However, the G allele (frequency 17.6%), also designated as MYOC.mt1, was associated with an increased IOP (+4.9 mmHg, p=0.0004) and a more damaged visual field (p=0.02). Both effects were predominant in females. Moreover, whereas IOP in MYOC.mt1 noncarriers decreased very markedly to the normal range between diagnosis and inclusion in the study (p=3 x 10(-5) in both males and females), reflecting successful therapy, it decreased less noticeably in MYOC.mt1+ male patients (p=0.005) and not at all in MYOC.mt1+ female patients. MYOC.mt1 appears therefore to be an indicator of poor IOP control and greater visual field damage in diagnosed POAG patients, potentially due to a lack of response to therapeutic intervention. Its typing might help in the selection of treatment paradigms for the management of POAG patients.
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