Project description:We show that Retinal pigment epithelium (RPE) secreted-factor, pigment epithelium derived factor (PEDF) secreted/derived from primary or iPSC-derived retinal pigment epithelium (RPE)RPE, dramatically inhibitsed the cell growth of iPSCs. PEDF was detected abundantly in culture supernatant media of primary and iPSC-derived RPE. We examined the gene expression in primary RPE and iPS-derived RPE. Two samples: RPE derived from 253G1 iPSC, Primary RPE.
Project description:We show that Retinal pigment epithelium (RPE) secreted-factor, pigment epithelium derived factor (PEDF) secreted/derived from primary or iPSC-derived retinal pigment epithelium (RPE)RPE, dramatically inhibitsed the cell growth of iPSCs. PEDF was detected abundantly in culture supernatant media of primary and iPSC-derived RPE. We examined the gene expression in primary RPE and iPS-derived RPE.
Project description:In order to facilitate understanding of pigment cell biology, we developed a method to concomitantly purify melanocytes, iridophores, and retinal pigmented epithelium from zebrafish, and analyzed their transcriptomes. Comparing expression data from these cell types and whole embryos allowed us to reveal gene expression co-enrichment in melanocytes and retinal pigmented epithelium, as well as in melanocytes and iridophores. We found 214 genes co-enriched in melanocytes and retinal pigmented epithelium, indicating the shared functions of melanin-producing cells. We found 62 genes significantly co-enriched in melanocytes and iridophores, illustrative of their shared developmental origins from the neural crest. This is also the first analysis of the iridophore transcriptome. Gene expression analysis for iridophores revealed extensive enrichment of specific enzymes to coordinate production of their guanine-based reflective pigment. We speculate the coordinated upregulation of specific enzymes from several metabolic pathways recycles the rate-limiting substrate for purine synthesis, phosphoribosyl pyrophosphate, thus constituting a guanine cycle. The purification procedure and expression analysis described here, along with the accompanying transcriptome-wide expression data, provide the first mRNA sequencing data for multiple purified zebrafish pigment cell types, and will be a useful resource for further studies of pigment cell biology. mRNA profiles of zebrafish pigment cells were generated using Illumina GAIIX sequencing
Project description:Among mammals, only primates including human possess a small central retinal region called the fovea, which mediates high acuity vision. As other mammals lack a fovea, molecular bases of its specialized function and dysfunction in retinal diseases remain poorly understood. By analyzing >165,000 single-cell transcriptomes from macaque fovea and peripheral retina, we identified and molecularly characterized >60 major cell types in each region. A few cell types are unique to each region, and there are also substantial differences in proportions and gene expression between corresponding types in the two areas, some of which can be related to functional differences. Comparison of macaque and mouse retinal taxonomies reveals both similarities and differences between species. Many molecular features of macaque retinal cell types are conserved in two other primates, marmosets and humans, and key human retinal disease-associated genes are expressed in specific macaque cell types
Project description:Among mammals, only primates including human possess a small central retinal region called the fovea, which mediates high acuity vision. As other mammals lack a fovea, molecular bases of its specialized function and dysfunction in retinal diseases remain poorly understood. By analyzing >165,000 single-cell transcriptomes from macaque fovea and peripheral retina, we identified and molecularly characterized >60 major cell types in each region. A few cell types are unique to each region, and there are also substantial differences in proportions and gene expression between corresponding types in the two areas, some of which can be related to functional differences. Comparison of macaque and mouse retinal taxonomies reveals both similarities and differences between species. Many molecular features of macaque retinal cell types are conserved in two other primates, marmosets and humans, and key human retinal disease-associated genes are expressed in specific macaque cell types
Project description:Transcriptional comparison of adult human primary Retinal Pigment Epithelium, human pluripotent stem cell-derived Retinal Pigment Epithelium, and ARPE19 cells
Project description:Mutations in pre-mRNA processing factors (PRPFs) cause autosomal dominant retinitis pigmentosa (RP), but it is unclear why mutations in ubiquitously expressed genes cause retinal disease. We have generated transcriptome profiles from RP11 (PRPF31-mutated) patient-derived retinal organoids and retinal pigment epithelium (RPE), as well as Prpf31+/- mouse tissues, which revealed that disrupted alternative splicing occurred for specific splicing programmes. Mis-splicing of genes encoding pre-mRNA splicing proteins was limited to patient-specific retinal cells and Prpf31+/- mouse retinae and RPE. Mis-splicing of genes implicated in ciliogenesis and cellular adhesion was associated with severe RPE defects that include disrupted apical-basal polarity, reduced trans-epithelial resistance and phagocytic capacity, and decreased cilia length and incidence. Disrupted cilia morphology also occurred in patient-derived photoreceptors, associated with progressive degeneration and cellular stress. In situ gene-editing of a pathogenic mutation rescued protein expression and key cellular phenotypes in RPE and photoreceptors, providing proof-of-concept for future therapeutic strategies.
