Project description:These data serve as a reference transcriptomic profile for adult mouse retinal Muller glia. Retinas were dissociated into single cell suspensions and sorted into two fractions: a Muller glia-enriched fraction on the basis of Muller glia-specific tdTomato expression and a second fraction containing the remaining retinal cells that were tdTomato-negative. Both fractions were sequenced.

Project description:In order to identify the miRNAs in adult light damaged Muller glia of the the neural retina, we isolated the Müller glia from Rlbp-CreER: Stopf/f-tdTomato by means of fluorescent activated cell sorting and analyzed their miRNAs using NanoStrings Technologies®. We compared the data to that from and Dicer1-CKO Müller glia and wild type glia Müller glia (GSE103098). We found three miRNAs potentially regulating genes involved in stress response in both data sets.

Project description:Retinitis Pigmentosa (RP) is a progressive retinal degeneration in which the retina loses nearly all of its photoreceptor cells and undergoes major structural changes. Little is known regarding the role the resident glia, the MM-CM-<ller glia, play in the progression of the disease. Here we define gene expression changes in MM-CM-<ller glial cells (MGCs) from two different mouse models of RP, the retinal degeneration 1 (rd1) and rhodopsin knock-out (Rhod-ko) models. The RNA repertoire of 28 single MGCs was comprehensively profiled, and a comparison was made between MGC from wild type (WT) and mutant retinas. Two time points were chosen for analysis, one at the peak of rod photoreceptor death and one during the period of cone photoreceptor death. MGCs have been shown to respond to retinal degeneration by undergoing gliosis, a process marked by the upregulation of GFAP. In this data, many additional transcripts were found to change. These can be placed into functional clusters, such as retinal remodeling, stress response, and immune related response. It is noteworthy that a high degree of heterogeneity among the individual cells was observed, possibly due to their different spatial proximities to dying cells, and/or inherent heterogeneity among MGCs. Retinas were dissociated and single Muller Glial Cells were picked under a dissecting microscope using a micropipette based on their distinct morphological shape. Single cell cDNAs were generated and genome wide profiles were obtained by hybridization to Affymetrix 430 2.0 microarrays. Data was normalized using MAS5.0 software. A total of 28 Muller Glial Cells were analyzed and confirmed post hoc by expression of known marker genes.

Project description:Purpose: scRNA-Seq was performed to profile changes in adult retina Muller glia cells and brain astrocytes after Ptbp1 deletion

Project description:In this work we identify genes differentially expressed in Muller glia form uninjured and injured retina with and without apobec2a knockdown

Project description:The study was aimed at comparing the transcriptome of MG cells of the retina with the progenitors derived from them after an injury. This information will help in the identification of factors that are responsible for the retinal regeneration. Muller glia were isolated by fluorescent activated cell sorting (FACS) using uninjured retinas from transgenice zebrafish (gfap:gfp) where green florescent protein (GFP) is under the control of the glial fibrillary acidic protein (gfap) promoter. MG-derived retinal progenitors were isolated by FACS at 4 days post retinal injury from 1016 tuba1a:gfp transgenic fish where GFP is driven by the tuba1a promoter which is specifically activated in these progenitors. Total RNA was isolated from these cell populations and subjected to microarray analysis to compare their transcriptomes. Samples were prepared in duplicate.

Project description:Retinal damage causes proliferation of Muller glia, but the degree of proliferation depends on mouse strains. Muller glial proliferation was significantly promoted by the addition of GSK3 inhibitor in 129, but not in B6. We used retinal explant culture as a model for retinal damage which caused preferential photoreceptor death in a few days. We used microarrays to detail the global programme of gene expression regulating the proliferative potential of Muller glia after retinal damage. Total RNA from intact whole retina, retinal tissue cultured for three days, and retinal tissue cultured with chir99021 for three days was used. Retinal tissues from 10 weeks old mice were used.

Project description:In this work we identify genes differentially expressed in Muller glia from uninjured retina in zebrafish treated with and without DAPT for 1 day.

Project description:In order to identify the mRNAs in adult light damaged Muller glia of the the neural retina, Müller glia from Hes-5 GFP reporter mice that were crossed with Swiss Webster mice were isolated by means of fluorescent activated cell sorting and analyzed their mRNAs using the Mouse Gene 1.0 ST microarray (Affymetrix). Differentially expressed genes were analyzed and compared to the genes found upregulated in the Dicer-cKO mouse (Wohl at el., 2017). miRNA:mRNA target tools were used to find potential miRNA targets of Muller glia miRNAs.

Project description:In this work we identify genes differentially expressed in Muller glia from uninjured retina in zebrafish treated with and without DN-MAML for 1 day.