Browsing by Subject "Membrane Science"
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Item Characterization and Activity of Endothelin Converting Enzyme-1 in Human Non-Pigmented Ciliary Epithelial Cells(1999-01-01) Finkley, Alvin; Thomas Yorio; S. Dan Dimitrijevich; Victoria J. RudickFinkley, Alvin, Characterization and Activity of Endothelin Converting Enzyme-1 in Human Non-Pigmented Ciliary Epithelial Cells. Master of Science (Biomedical Sciences). Endothelins (ETs) are potent vasoactive peptides, that are present in many ocular tissues including the ciliary epithelium where active ET-1 is produced from the precursor Big ET-1 by a membrane-bound metalloprotease, endothelin-converting enzyme (ECE). Although the role of ocular ET’s are uncertain, ETs have been shown to lower the intraocular pressure. In the current study, ET-1 and Big-ET-1 were detected in SV-40 transformed human ciliary epithelial (HNPE) cells by immunofluorescence suggesting the presence of ECE activity. The presence of ECE was confirmed by Western blotting using polyclonal antibodies against ECE-1 which detected a 124 KDa protein in the membrane fraction and not in the cytosol. Further characterization of the enzymatic activity of ECE (conversion of Big ET-1 to ET-1) was performed using a novel assay involving 121I-Big ET-1 (substrate; 2fmloe) and polyclonal antibodies specific for Big ET-1. Mean ECE-1 activity (expressed as the ratio of 121^1-ET-1 produced to the total 125^I-Big ET-1 incubated X 100) was measured and corresponded to: 26% (0.5 3±0.02 fmole, 1 hr), 63% (1.26±0.07 fmole, 3hr) and 66% (1.33±0.11 fmole, 24 hr) compared to blank controls at 13% (0.25±0.03 fmole). Thiorphan (2mM), an inhibitor of ECE, abolished ECE-1 activity. These results suggest that ECE-1 is localized in HNPE cells and is essential for the production of ET-1. The physiological importance of the proteolytic processing by ECE-1 in ocular tissue may reflect on how ET regulates intraocular pressure. Key Words: endothelin converting enzyme-1; endothelin-1; Big endothelin-1; ciliary epithelium; aqueous humor dynamics; intraocular pressure, Western blotting, ECE-1Item Mutation in myocilin affect it's processing and secretion in the trabedular meshwork cell(2003-05-01) Jacobson, Nasreen; Robert Wordinger; Richard Easom; Neeraj AgarwalJacobson, Nasreen, Mutations in myocilin affect it secretion and processing in the cell. Doctor of Philosophy (Cell Biology and Ginetics), May 2003, 157 pp., 6 tables, 46 illustrations, 17 movies. Introduction. Myocilin is the protein product of the glaucoma gene MYOC whose function is unknown. Structural predictions of the protein indicate myocilin is secreted. This study uses several techniques to determine whether myocilin is synthesized and processed through the secretory pathway. Methods. Agents known to disrupt the secretory pathway at specific organelles will be used to examine the effect on myocilin secretion. Also, constructs for chimeric myocilin and fluorescent proteins (myoc.504DsRED and myoc.504EGFP) will be used in conjunction with EGFP directed to specific organelles to determine colocalization of myocilin in the cell. The disruption of wild type and disease-causing mutants (myocQ368X.DsRED, myocG364V.504DsRED and myocY437H.504DsRED) of myocilin will be compared. Then in vivo studies will be used to try to determine if myocilin is associated with increased intraocular pressure (IOP). Results. Myocilin appears as a doublet on SDS-PAGE western blots when probed with anti-myocilin antibody (AB129). Treatment of cells with tunicamycin prevents secretion of the upper band of the myocilin doublet, but not secretion of the lower band. Brefelden A prevents secretion of both bands of the myocilin doublet indicating that both bands are processed in the Golgi. Monensin treatment indicates there is no post-Golgi processing of myocilin prior to secretion. Colocalization of fluorescent myocilin with cellular organelles tagged with EGFP indicated that myocilin travels through the ER, Golgi and is secreted from the cell. Disease-causing mutations in myocilin are not secreted. The Q368X associates with wild type myocilin and appears to be degraded. The G364V and Y437H mutants can apparently be retained in the ER and also are closely associated with peroxisomes. Experiments designed to determine if myocilin can be correlated with increased IOP suggest an association of myocilin with increased IOP in an ex vivo human anterior segment perfusion system, but in vivo experiments gave inconclusive results. Conclusions. Myocilin is a secreted glycoprotein in the TM. Glaucomatous mutations in myocilin cause non-secretion. TM cells handle different myocilin mutations differently.