Intracellular sequestration of hetero-oligomers formed by wild-type and glaucoma-causing myocilin mutants.

Purpose: To investigate mechanism(s) by which mutations in the olfactomedin domain of myocilin (MYOC), also known as the trabecular meshwork-induced glucocorticoid response (TIGR) gene, cause autosomal dominant open-angle glaucoma, the structure and properties of wild-type (WT) MYOC protein were examined, when expressed alone or simultaneously with the Q368X or K423E disease-associated polypeptides.

Methods: Myocilin was analyzed in human aqueous humor and human trabecular meshwork (HTM) tissues. COS-7 and immortalized human trabecular meshwork (iHTM) cell lines were transfected with expression vectors encoding WT MYOC, mutated, and/or epitope-tagged cDNAs.

Current perspectives on the TIGR/MYOC gene (Myocilin) and glaucoma.

Over the past several years, many groups worldwide have confirmed the presence of probable disease-causing mutations in the coding region of the (TIGR/MYOC) gene associated with glaucoma. Disease-associated point mutations are often found in the third exon of TIGR/MYOC and are predicted to exert a substantial influence on protein structure. Although there has been speculation as to the mechanisms involved in the pathogenic effects for a number of the mutations, the processes leading to the development of glaucoma involving TIGR/MYOC remain to be elucidated.

Transformation of human trabecular meshwork cells with SV40 TAg alters promoter utilization.

Purpose: To compare promoter usage in primary differentiated and SV40 TAg transformed human trabecular meshwork cells (HTM and TM1 cells).

Methods: Cultured HTM and TM1 cells were transfected with vectors expressing MYOC/TIGR from the CMV-IE, IE4/5 (HSV immediate early 4/5), ICP6 (early gene ICP6 of HSV), EF-1 alpha (human elongation factor 1 alpha-subunit), or the UB6 (human ubiquitin) promoters, respectively. Immunoblotting was used to measure MYOC/TIGR protein expression.

Signal sequences initiate the pathway of maturation in the endoplasmic reticulum lumen.

An interaction between an N-terminal signal sequence and the translocon leads to the initiation of protein translocation into the endoplasmic reticulum lumen. Subsequently, folding and modification of the substrate rapidly ensue. The close temporal coordination of these processes suggests that they may be structurally and functionally coordinated as well.

In vitro localization of TIGR/MYOC in trabecular meshwork extracellular matrix and binding to fibronectin.

Purpose: To determine whether trabecular meshwork-inducible glucocorticoid response/myocilin (TIGR/MYOC) protein associates with the extracellular matrix (ECM) of human trabecular meshwork (HTM) cells.

Methods: The extracellular localization of TIGR/MYOC was examined by immunofluorescence microscopy in HTM cultures treated with and without dexamethasone and ascorbate and in a transformed HTM cell line, TM-1, transiently transfected with TIGR/MYOC cDNA. Antibodies to TIGR/MYOC, fibronectin, laminin, type IV collagen, or thrombospondin were used to determine the extracellular localization of TIGR/MYOC.