Project description:In order to find out the vital genes during the corneal neovascularization (CNV), we set up two CNV models, one being induced by suture placement and the other by alkali burn to the corneal center. Young adult Balb/c and C57BL/6 were used. The corneas were checked daily for CNV development and some of the corneas were removed at two pre-determined time points for RNA extraction. Preliminary experiment indicated slightly different dynamics in suture- or chemical burn-induced CNV. Vigorous growth appeared at day 5 and day 6 in S-CNV and CB-CNV, and reached maximum length around day 10 and day 14, respectively, in S-CNV and CB-CNV. To check whether genetic MHC background has any effect on development of CNV, we compared CB-CNV in Balb/c and C57BL/6 mice at day 6. Corneas from Balb/c mice were isolated 5 and 10 days after suture-induced CNV, and 6 and 14 days after chemical burn-induced CNV. Corneas from C57BL/6 mice were isolated 6 days after chemical burn-induced CNV. Each time point had two or three biological replications.

Project description:In order to find out the vital genes during the corneal neovascularization (CNV), we set up two CNV models, one being induced by suture placement and the other by alkali burn to the corneal center. Young adult Balb/c and C57BL/6 were used. The corneas were checked daily for CNV development and some of the corneas were removed at two pre-determined time points for RNA extraction. Preliminary experiment indicated slightly different dynamics in suture- or chemical burn-induced CNV. Vigorous growth appeared at day 5 and day 6 in S-CNV and CB-CNV, and reached maximum length around day 10 and day 14, respectively, in S-CNV and CB-CNV. To check whether genetic MHC background has any effect on development of CNV, we compared CB-CNV in Balb/c and C57BL/6 mice at day 6.

Project description:Purpose: We compared the levels of miRNA specific for DEGs in isograft corneas with those in normal corneas, as well as the levels of miRNA specific for DEGs in allograft corneas with those in isograft corneas, to gain a better understanding of molecular variables that affect corneal graft rejection pathways. Methods: Illumina Hiseq 2500 deep sequencing was used to screen for differentially expressed genes (DEGs) in matched pairs of isograft corneas and normal corneas, allograft corneas and isograft corneas. Potential target genes among the DEGs were predicted using target prediction software (TargetScan, Miranda, miRDB, and CLIP), and the overlay portion was analyzed using the Gene Ontology (GO) database and the Kyoto Encyclopedia of Genes and Genomes (KEGG). An analysis of the interactions between DEG proteins (PPI analysis) and a MetaCore software analysis. Results: Our results showed that 22 miRNAs were significantly upregulated and 4 were significantly downregulated in the isograft group when compared with the control group (P < 0.01), while 17 miRNAs were significantly upregulated and 3 were significantly downregulated in the allograft group when compared with the isograft group (P < 0.01). Among the miRNAs with altered expression levels, miR-155-5p, miR-142-3p, miR-142-5p, and miR-223-3p displayed simultaneous changes in the above two comparisons. Potential target genes among the DEGs were predicted using target prediction software, and the overlay portion was analyzed using the Gene Ontology (GO) database and the Kyoto Encyclopedia of Genes and Genomes (KEGG). GO and KEGG analyses showed that the DEGs were mainly involved in metabolic pathways, cytokine secretion, and tumor immunity functions. An analysis of the interactions between DEG proteins (PPI analysis) and a MetaCore software analysis of 4 key DEGs revealed that the genes regulated by miR-155-5p played important roles in the miRNA-mRNA regulatory network. Furthermore, the MetaCore analysis identified C/EBP beta, p53, and sp1 as key transcription factors in that network. Conclusions: Our study identified transplanted corneas-specific miRNA in matched pairs of isograft corneas and normal corneas, allograft corneas and isograft corneas. Furthermore, bioinformatics analysis of the key miRNA regulatory network revealed the molecular mechanisms, which suggests miRNAs may as new molecular targets for treating corneal injuries and corneal transplant rejection

Project description:Current drugs that directly target pro-angiogenic factors to inhibit or reverse corneal neovascularization, the major sight-threatening pathology caused by angiogenic stimuli, require multiple rounds of administration and have limited efficacies. Here we report the profiling of anti-angiogenic corneal microRNAs (miRNAs), and a framework that employs discovered miRNAs as biotherapies deliverable by recombinant adeno-associated viruses (rAAVs). By querying differentially expressed miRNAs in neovascularized mouse corneas induced by alkali-burn, we have revealed 39 miRNAs that are predicted to target more than 5,500 differentially expressed corneal mRNAs. Among these corneal miRNAs, we selected miR-204 and assessed its efficacy as a therapeutic miRNA in injured corneas. Our results show that delivery of miR-204 by rAAV is efficacious and safe for mitigating corneal NV. Overall, our work demonstrates the discovery of therapeutic miRNAs in corneal disorders and their translation into viable clinical vectors.

Project description:Current drugs that directly target pro-angiogenic factors to inhibit or reverse corneal neovascularization, the major sight-threatening pathology caused by angiogenic stimuli, require multiple rounds of administration and have limited efficacies. Here we report the profiling of anti-angiogenic corneal microRNAs (miRNAs), and a framework that employs discovered miRNAs as biotherapies deliverable by recombinant adeno-associated viruses (rAAVs). By querying differentially expressed miRNAs in neovascularized mouse corneas induced by alkali-burn, we have revealed 39 miRNAs that are predicted to target more than 5,500 differentially expressed corneal mRNAs. Among these corneal miRNAs, we selected miR-204 and assessed its efficacy as a therapeutic miRNA in injured corneas. Our results show that delivery of miR-204 by rAAV is efficacious and safe for mitigating corneal NV. Overall, our work demonstrates the discovery of therapeutic miRNAs in corneal disorders and their translation into viable clinical vectors.

Project description:When recruiting Balb/c mice for projects concerning corneas, we found that some mice presented corneal abnormality mimicking human corneal degenerations. The mice were unilaterally or bilaterally affected. The corneas of unilaterally affected mice were collected and pooled respectively into Normal and Degenerative samples. RNA was prepared and subjected to dual-labeling microarray analysis using the Capital Bio work station. Spontaneously degenerative corneas vs nomal corneas from same unilaterally affected mice. Dye swap was applied to reduce systemic error.

Project description:Purpose: Klf5 plays a critical role in the mouse ocular surface (Kenchegowda et al., 2011. Dev Biol. 356:5-18). Here, we compare wild-type (WT) and Klf5-conditional null (Klf5CN) corneal gene expression at postnatal day-11 (PN11) and PN56 to identify the Klf5-target genes. Methods: Gene expression was compared using Affymetrix microarrays with QPCR validation. Transient transfection assays examined the effect of Klf5 on selected target gene promoter activities. Whole-mount corneal immunofluorescent staining examined neovascularization and CD45+ macrophage influx. Results: Expression of 714 and 753 genes was increased, and 299 and 210 genes decreased in PN11 and PN56 Klf5CN corneas, respectively, with 366 concordant increases, 72 concordant decreases and 3 discordant changes. Canonical pathway analysis identified 35 and 34 significantly (p<0.001) enriched pathways at PN11 and PN56, respectively, with 24 common pathways. PN56 Klf5CN corneas shared 327 increases and 91 decreases with the previously described Klf4CN corneas (Swamynathan et al., 2008. IOVS 49:3360-70). Angiogenesis and immune response-related genes were affected consistent with lymphangiogenesis and macrophage influx in Klf5CN corneas, respectively. Expression of 1574 genes was increased and 1915 decreased, in the WT PN56 compared with PN11 corneas. Expression of many collagens, matrix metalloproteinases and other extracellular matrix associated genes decreased in WT corneas between PN11 and PN56, while that of solute carrier family members increased. Conclusions: Differences in PN11 and PN56 corneal Klf5-target genes reveal dynamic changes in Klf5 functions during corneal maturation. Klf4- and Klf5-target genes do not overlap, consistent with their non-redundant roles in the mouse cornea. Wild type and Klf5-conditional null mouse corneal gene expression at postnatal day-11 and -56 was compared by Affymetrix mouse whole genome 430 2 arrays. Four age-matched PN56 WT and Klf5CN mice, and 3 age-matched PN11 WT and Klf5CN mice each were used for comparison of corneal gene expression by microarrays. Two dissected corneas from each mouse were pooled for isolation of total RNA using the RNeasy Mini kit (Qiagen, Germantown, MD). The quality and integrity of the isolated total RNA was confirmed using an Agilent Bioanalyzer. Total RNAs were amplified and labeled using a 3' IVT Express Kit (Affymetrix Inc., Santa Clara, CA), and hybridized to Affymetrix MG 430 2 chips following the protocol suggested by the manufacturer.

Project description:Considerable interest has been generated for the development through cell-tissue engineering of suitable corneal endothelial graft alternatives, which can potentially alleviate the shortage of corneal transplant material. The advent of less invasive suture-less key-hole surgery options such as DescemetM-bM-^@M-^Ys Stripping Endothelial Keratoplasty (DSEK) and DescemetM-bM-^@M-^Ys Membrane Endothelial Keratoplasty (DMEK), which involve transplantation of solely the endothelial layer instead of full thickness cornea, provide further impetus for the development of alternative endothelial grafts for clinical applications. A major challenge for this endeavor is the lack of specific markers for this cell type. To identify genes that reliably mark corneal endothelial cells (CECs) in vivo and in vitro, we performed RNA-sequencing on freshly isolated human CECs (from both young and old donors), CEC cultures, and corneal stroma. Gene expression of these corneal cell types were also compared to that of other human tissue types. Based on high throughput comparative gene expression analysis, we identified a panel of markers that are: i) highly expressed in CECs from both young donors and old donors; ii) expressed in CECs in vivo and in vitro; and iii) not expressed in corneal stroma keratocytes and the activated corneal stroma fibroblasts. These were SLC4A11, COL8A2 and CYYR1. The use of this panel of genes in combination reliably ascertains the identity of the CEC cell type. A total of 20 donor corneas consisting of 10 single donor corneas and 5 paired donor corneas were used in this study. Donor age ranged from 19 - 76. This RNA-seq study included 15 pooled corneas (5 each) used form CEC old, CEC young and stroma samples.

Project description:Purpose: Klf5 plays a critical role in the mouse ocular surface (Kenchegowda et al., 2011. Dev Biol. 356:5-18). Here, we compare wild-type (WT) and Klf5-conditional null (Klf5CN) corneal gene expression at postnatal day-11 (PN11) and PN56 to identify the Klf5-target genes. Methods: Gene expression was compared using Affymetrix microarrays with QPCR validation. Transient transfection assays examined the effect of Klf5 on selected target gene promoter activities. Whole-mount corneal immunofluorescent staining examined neovascularization and CD45+ macrophage influx. Results: Expression of 714 and 753 genes was increased, and 299 and 210 genes decreased in PN11 and PN56 Klf5CN corneas, respectively, with 366 concordant increases, 72 concordant decreases and 3 discordant changes. Canonical pathway analysis identified 35 and 34 significantly (p<0.001) enriched pathways at PN11 and PN56, respectively, with 24 common pathways. PN56 Klf5CN corneas shared 327 increases and 91 decreases with the previously described Klf4CN corneas (Swamynathan et al., 2008. IOVS 49:3360-70). Angiogenesis and immune response-related genes were affected consistent with lymphangiogenesis and macrophage influx in Klf5CN corneas, respectively. Expression of 1574 genes was increased and 1915 decreased, in the WT PN56 compared with PN11 corneas. Expression of many collagens, matrix metalloproteinases and other extracellular matrix associated genes decreased in WT corneas between PN11 and PN56, while that of solute carrier family members increased. Conclusions: Differences in PN11 and PN56 corneal Klf5-target genes reveal dynamic changes in Klf5 functions during corneal maturation. Klf4- and Klf5-target genes do not overlap, consistent with their non-redundant roles in the mouse cornea.

Project description:When recruiting Balb/c mice for projects concerning corneas, we found that some mice presented corneal abnormality mimicking human corneal degenerations. The mice were unilaterally or bilaterally affected. The corneas of unilaterally affected mice were collected and pooled respectively into Normal and Degenerative samples. RNA was prepared and subjected to dual-labeling microarray analysis using the Capital Bio work station.