Project description:Previous Genome-wide association studies (GWASs) have identified susceptibility loci of primary angle closure glaucoma (PACG), but applicating these findings is difficult. Although shallow anterior chamber depth (ACD) and short axial length (AL) are characteristic phenotypes of PACG, current GWAS variants do not show any correlation with these features, calling for the identification of more risk factors . Here, thicker and enlarged iris was identified as a significant independent risk factors. By employing allelic-specific STARR-seq and assay for transposase-accessible chromatin using sequencing (ATAC-seq), we screened disease-related variants in linkage disequilibrium and identified 2 causative variants in iris. Alterations in these variants may contribute to the pathogenic iris phenotype by upregulating the expression of PLEKHA7 and C10orf53, potentially regulating PACG development and progression. Our efforts nominate the important role of iris and identify pathogenic SNP-target gene interactions for PACG, providing a potentially powerful approach for interpreting noncoding variation of diseases.

Project description:Previous Genome-wide association studies (GWASs) have identified susceptibility loci of primary angle closure glaucoma (PACG), but applicating these findings is difficult. Although shallow anterior chamber depth (ACD) and short axial length (AL) are characteristic phenotypes of PACG, current GWAS variants do not show any correlation with these features, calling for the identification of more risk factors . Here, thicker and enlarged iris was identified as a significant independent risk factors. By employing allelic-specific STARR-seq and assay for transposase-accessible chromatin using sequencing (ATAC-seq), we screened disease-related variants in linkage disequilibrium and identified 2 causative variants in iris. Alterations in these variants may contribute to the pathogenic iris phenotype by upregulating the expression of PLEKHA7 and C10orf53, potentially regulating PACG development and progression. Our efforts nominate the important role of iris and identify pathogenic SNP-target gene interactions for PACG, providing a potentially powerful approach for interpreting noncoding variation of diseases.

Project description:Purpose. To characterize the proteome of the iris in primary angle closure glaucoma (PACG). Experimental Design. In this cross-sectional study, iris samples were obtained from surgical iridectomy of 48 adults with PACG and five normal controls. Peptides from iris were analyzed using liquid chromatography-tandem mass spectrometry on an Orbitrap Q Exactive Plus mass spectrometer. Verification of proteins of interest was conducted using selected reaction monitoring on a triple quadrupole mass spectrometer. The main outcome was proteins with a log2 two-fold difference in expression in iris between PACG and controls. Results. There were 3,446 non-redundant proteins identified in human iris, of which 165 proteins were upregulated and 251 proteins were downregulated in PACG compared with controls. Thirty-two upregulated proteins were either components of the extracellular matrix (ECM) (fibrillar collagens, EMILIN-2, fibrinogen, fibronectin, matrilin-2), matricellular proteins (thrombospondin-1), proteins involved in cell-matrix interactions (integrins, laminin, histidine-rich glycoprotein, paxillin), or protease inhibitors known to modulate ECM turnover (-2 macroglobulin, tissue factor pathway inhibitor 2, papilin). Two giant proteins, titin and obscurin, were up- and down-regulated, respectively, in the iris in PACG compared with controls. Conclusions and Clinical Relevance. This proteomic study shows that ECM composition and homeostasis is altered in the iris in PACG.

Project description:An integrated clinical morphology and functional genomics approach reveals upregulation of PLEKHA7 and C10orf53 in iris contributes to primary angle closure glaucoma [RNA-seq]

Project description:An integrated clinical morphology and functional genomics approach reveals upregulation of PLEKHA7 and C10orf53 in iris contributes to primary angle closure glaucoma [ATAC-seq]

Project description:An integrated clinical morphology and functional genomics approach reveals upregulation of PLEKHA7 and C10orf53 in iris contributes to primary angle closure glaucoma [STARR-seq]

Project description:Global miRNAs expression profilling of Caco2 cells after shRNA-mediated knockdown of PLEKHA7 Caco2 cells were infected and selected either with a non-target (NT) or with a PLEKHA7-targeting shRNA (shPLEKHA7). Total RNA was isolated from three independent sets of infections and was used to assess total miRNA expression using NanoString's nCounter Human v2 miRNA Expression Assay Kit

Project description:Global miRNAs expression profilling of Caco2 cells after shRNA-mediated knockdown of PLEKHA7

Project description:We have identified PLEKHA7 as a cell-cell adhesion protein that interacts with and regulates RNAi compelxes, miRNAs and mRNAs at adherens junctions of well-differentiated epithelial cells. This study was conducted to identify global effects of PLEKHA7 depletion on total RNA expression in colon epithelial cells

Project description:Iris sp. overview