Project description:This study compared genome-wide expression profiles of individuals with and without Primary Open-Angle Glaucoma (POAG). One POAG case (case #6 with two replicates #10 and #11) carried a Q368X myocilin mutation. This study compared the genome-wide expression in human trabecular meshwork tissue between 13 controls and 15 POAG cases. Six controls and one POAG cases had the expression performed from both left and right eyes. One technical replicate was done between two cases. The average from the biological replicates for each inidividual was used for analysis.

Project description:Long non-coding RNAs were associated with the development and progression of glaucoma. Our study aim to identify the potential genes in human trabecular meshwork related to primary open-angle glaucoma (POAG).

Project description:Genome-wide Expression of Trabecular Meshwork in POAG

Project description:MicroRNAs were associated with the development and progression of glaucoma. Our study aims to identify the potential miRNAs and target genes in human trabecular meshwork related to primary open-angle glaucoma (POAG).

Project description:The goal of this study was to contrast genome-wide gene expression profiles of cultured human trabecular meshwork (HTM) cells, to that of control and primary open angle glaucoma (POAG) HTM tissues. Total RNA from cultured HTM cells and HTM tissue dissected from control and POAG anterior segments fixed in RNA later™ was linearly amplified with the OvationTM Biotin RNA Amplification and Labeling System and individually hybridized to Affymetrix Human Genome U133 Plus 2.0 high density microarrays. Data analysis was performed using the GeneSpring Software 7.0. Selected genes showing significant differential expression were validated by Quantitative real-time PCR in nonamplified RNA. Cultured HTM cells retained the expression of some genes characteristic of the HTM tissue, including chitinase 3-like 1 and matrix Gla protein, but demonstrated downregulation of physiologically important genes such as myocilin. POAG HTM tissue showed relatively small changes compared to that of control donors. These changes included the statistically significant upregulation of several genes associated with inflammation and acute-phase response, including selectin-E (ELAM-I), as well as the downregulation of the antioxidants, paraoxonase 3 and ceruloplasmin. Downregulation in cultured HTM cells of genes potentially relevant for outflow pathway function highlights the importance of developing new conditions for the culture of TM cells capable of preserving the characteristics of TM cells in vivo. Comparative analysis between control and POAG tissues suggests that the upregulation of inflammation-associated genes might be involved in the progression of glaucoma. Experiment Overall Design: Total RNA from three cultured HTM cells and HTM tissue dissected from three pairs of control and two pairs of POAG anterior segments fixed in RNA later™ was linearly amplified with the OvationTM Biotin RNA Amplification and Labeling System and individually hybridized to Affymetrix Human Genome U133 Plus 2.0 high density microarrays.

Project description:Trabecular meshwork cells in eyes with glaucoma aquire mesenchymal phenotypes. The types of microRNAs in exosomes may differ between static and glaucomatous status and their effects on aqueous humor regulation are still uknown. We used microarrays to identify the differential microRNA expression related to interaction between trabecular meshwork cells and Schlemm's canal endothelial cells.

Project description:The goal of this study was to contrast genome-wide gene expression profiles of cultured human trabecular meshwork (HTM) cells, to that of control and primary open angle glaucoma (POAG) HTM tissues. Total RNA from cultured HTM cells and HTM tissue dissected from control and POAG anterior segments fixed in RNA later™ was linearly amplified with the OvationTM Biotin RNA Amplification and Labeling System and individually hybridized to Affymetrix Human Genome U133 Plus 2.0 high density microarrays. Data analysis was performed using the GeneSpring Software 7.0. Selected genes showing significant differential expression were validated by Quantitative real-time PCR in nonamplified RNA. Cultured HTM cells retained the expression of some genes characteristic of the HTM tissue, including chitinase 3-like 1 and matrix Gla protein, but demonstrated downregulation of physiologically important genes such as myocilin. POAG HTM tissue showed relatively small changes compared to that of control donors. These changes included the statistically significant upregulation of several genes associated with inflammation and acute-phase response, including selectin-E (ELAM-I), as well as the downregulation of the antioxidants, paraoxonase 3 and ceruloplasmin. Downregulation in cultured HTM cells of genes potentially relevant for outflow pathway function highlights the importance of developing new conditions for the culture of TM cells capable of preserving the characteristics of TM cells in vivo. Comparative analysis between control and POAG tissues suggests that the upregulation of inflammation-associated genes might be involved in the progression of glaucoma. Keywords: Cell type comparison

Project description:Extracellular matrix (ECM) materials accumulate in the trabecular meshwork (TM) tissue of patients with glaucoma, which is associated with a decrease in aqueous humor outflow and therefore an increase in intraocular pressure. To explore a potential mechanism for ECM regulation in the TM, we purified extracellular vesicles (EVs) from conditioned media of differentiated TM cells in culture isolated from non-glaucomatous and glaucomatous human donor eyes. EVs were purified using the double cushion ultracentrifugation gradient method. Fractions containing EV markers CD9 and TSG101 were analyzed using nanoparticle tracking analysis to determine their size and concentration. We then determined their proteomic cargo by mass spectrometry and compared protein profiles of EVs between normal and glaucomatous TM cells using PANTHER. Key protein components from EV preparations were validated with Western blotting. Results showed changes in the percentage of ECM proteins associated with EVs from glaucomatous TM cells compared to non-glaucomatous TM cells (5.7% vs 13.1% respectively). Correspondingly, we found that two ECM-related cargo proteins found across all samples, fibronection and EDIL3 were significantly less abundant in glaucomatous EVs (<0.3 fold change across all groups) compared to non-glaucomatous EVs. Overall, these data establish that ECM materials are prominent cargo in EVs from TM cells, and their binding to EVs is diminished in glaucoma

Project description:TGF-beta levels are known to increase in the aqueous humor of eye cells in patients with glaucoma. Increase TGF-beta is assumed to have a biochemical impact on the trabecular meshwork, and an increase in extracellular matrix formation, which may be responsible for decrease outflow facility of the eye. This may increase extracellular pressure, causing glaucoma. TGF-beta 1 may be the cause of abnormal accumulation of extracellular matrices in trabecular meshwork of eyes with primary open angle glaucoma. Transforming growth factor (TGF)-beta2 regulates the expression of proteoglycans in aqueous humor from human glaucomatous eyes. To identify gene expression changes as a result of TGF-beta1 and 2 treatment of human trabecular meshwork cells. We expect to see a change in expression of the proteoglycans in HTM cells as a response to TGF-beta treatment. Human Trabecular Meswork cells in the eye were bathed by aqueous humor. TM cells were removed from individuals with the following ages: 16,66,67,73, and 76. Each individual was treated with EtOH (control), TGF-beta1, or TGF-beta2. Total RNA from each individual was pooled for each chip. Technical replicates were created for each treatment type, for a total of 6 chips.

Project description:This study highlights the differential roles of apoptosis versus autophagy in cell death mechanism in the trabecular meshwork in primary adult glaucoma at various stages. This reflects the possible role of autophagy in causing glaucomatous damage in severe disease stages