1. A major current goal of my Section is to make stem cell-derived photoreceptors that are well differentiated as indicated by the elaboration of outer segments. Such a culture system would be much better suited for retinal disease modeling, drug discoveries and provide donor tissues for transplantation. Given the dependence of photoreceptors on RPE, one of the critical components that is missing in current 3D retinal culture systems is a functioning RPE layer. Therefore, our long-term goal is to develop a photoreceptor-RPE co-culture system that replicate the in vivo configuration whereby RPE provide the critical support needed for photoreceptor outer segments morphogenesis and maintenance. In the past year we have completed a project in which stem cell derived RPE were differentiated on electrospun scaffold. We have tested and compared RPE cells grown on conventional Trans-well system and on electrospun polymer support, which better simulates the physical properties of the Brunchs membrane, and have demonstrated the suitability of the latter as a substrate for growing and differentiating RPE from stem cells. Our differentiated RPE cells correctly display RPE markers, express typical proteins of mature RPE cells, have polarity of mature RPE cells, and display distinct RPE morphology such as: forming necessary tight junctions between the cells required for epithelial monolayer and hexagonal shape. In the past year, we have greatly expanded our efforts towards producing retinal organoids from multiple iPSC lines including normal donors and disease carriers such as USH1C. To make the early steps of organoid generation simplified and reproducible, we investigated methodological improvements. We have devised a new method that consistently yields more retinal organoids and is easier to execute than established methods. We have also identified several variables that render certain iPSC lines much less efficient at producing retinal organoids. With our new methods, previously unproductive iPSC lines become highly productive. Our new protocols are thus more robust and will make the production of retinal organoids from iPSC easier and more predictable. These advances by our group have laid a solid foundation for achieving our long term goal of producing organoids with outer segments and for disease modeling/therapy studies (Manuscript in preparation and/or in progress, with John Wilson, Ryan Kelley, Florian Regent and in close collaboration with Dr. Swaroops Stem Cell group). 2. We have continued our study on protein post-translational modification in the cilia of photoreceptors and made significant new discoveries. The complex patterns of protein glutamylation contribute to the tubulin code that confers versatility to microtubule functions. Glutamylation is a form of post-translational modification initiated by the ligation of a single glutamate to the -carboxyl group of gene-encoded glutamate residues on target proteins known as monoglutamylation, and elongation of the branched peptide chains then generates polyglutamylation structures. Tubulin tyrosine ligase-like (TTLL) proteins are related enzymes that either initiate or elongate the glutamate side chains. Deglutamylases catalyzing the reverse reaction are members of the cytosolic carboxypeptidase (CCP) family, which similarly have preferential activities either to shorten long glutamate chains or remove the branching point glutamate. We show that cytosolic carboxypeptidase 5 (CCP5), the only CCP known to remove the branch point glutamate, is uniquely required for photoreceptor function and viability. In mice lacking CCP5, monoglutamylated tubulins are increased at the photoreceptor connecting cilia and axonemal microtubules but polyglutamylated tubulins remain unchanged. Photoreceptors degenerate soon after weaning with cones impacted more severely than rods. Prior to cell death there is marked ectopic accumulation of cone and rod opsins in the cell body. While increased tubulin monoglutamylation is seen systemically, mutant mice appear healthy other than retinal dystrophy and male infertility. These results are consistent with CCP5 being a critical deglutamulase responsible for removing the branch point glutamate in vivo, and support CCP5 mutations as a cause of human retinitis pigmentosa. The unexpected finding that an overt disease phenotype is restricted to retinal photoreceptors may be underscored by the exceptionally active transciliary trafficking of membrane receptors, and hence a greater sensitivity to changes in the tubulin code, relative to CNS neurons in general (Xun Sun et al., manuscript in preparation). 3. The primary cilia function as sensory antennae and play a critical signaling role in the development of multiple organs. Disruption of ciliary function underlies a variety of human diseases collectively known as ciliopathies. Sonic Hedgehog (SHH) signaling is one of the pathways mediated through primary cilia and regulates central nervous system development . FKBP8 null mutation in mice was previously shown to cause constitutive activation of SHH signaling in the neural tube leading to profound developmental defects, but the mechanism by which FKBP8 affects SHH signaling was unclear. We show that cilia morphogenesis in the neural tube and in fibroblasts of FKBP8 null mice remains intact. However, adenylyl cyclase III (AC3) fails to translocate to the ciliary membrane, thus abolishing cAMP synthesis and suppressing PKA activity. This leads to inhibition of the proteolytic processing of Gli transcription factors to the suppressor forms, which depends on PKA mediated phosphorylation. As generation of Gli repressors is quenched, SHH signaling in the cilia manifests constitutive activation, which explains the earlier observation in the FKBP null mutant mice. Using differentiated optic cups derived from FKBP8 null iPSCs, we were able to recapitulate this phenotype in photoreceptor connecting cilia. In summary, our study shows that the FKBP8 is essential for adenylate cycles to traffick into the cilia, and loss of FKBP8 disrupts ciliary signaling. (Philsang Hwang, in preparation).

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Veleri, Shobi; Nellissery, Jacob; Mishra, Bibhudatta et al. (2017) REEP6 mediates trafficking of a subset of Clathrin-coated vesicles and is critical for rod photoreceptor function and survival. Hum Mol Genet 26:2218-2230
Fan, Jianguo; Jia, Li; Li, Yan et al. (2017) Maturation arrest in early postnatal sensory receptors by deletion of the miR-183/96/182 cluster in mouse. Proc Natl Acad Sci U S A 114:E4271-E4280
Yu, Wenhan; Mookherjee, Suddhasil; Chaitankar, Vijender et al. (2017) Nrl knockdown by AAV-delivered CRISPR/Cas9 prevents retinal degeneration in mice. Nat Commun 8:14716
Shimada, Hiroko; Lu, Quanlong; Insinna-Kettenhofen, Christine et al. (2017) In Vitro Modeling Using Ciliopathy-Patient-Derived Cells Reveals Distinct Cilia Dysfunctions Caused by CEP290 Mutations. Cell Rep 20:384-396
Pawlyk, B S; Bulgakov, O V; Sun, X et al. (2016) Photoreceptor rescue by an abbreviated human RPGR gene in a murine model of X-linked retinitis pigmentosa. Gene Ther 23:196-204
Sun, Xun; Park, James H; Gumerson, Jessica et al. (2016) Loss of RPGR glutamylation underlies the pathogenic mechanism of retinal dystrophy caused by TTLL5 mutations. Proc Natl Acad Sci U S A 113:E2925-34
May-Simera, Helen L; Gumerson, Jessica D; Gao, Chun et al. (2016) Loss of MACF1 Abolishes Ciliogenesis and Disrupts Apicobasal Polarity Establishment in the Retina. Cell Rep 17:1399-1413
Liu, Chunqiao; Widen, Sonya A; Williamson, Kathleen A et al. (2016) A secreted WNT-ligand-binding domain of FZD5 generated by a frameshift mutation causes autosomal dominant coloboma. Hum Mol Genet 25:1382-91
Yadav, Sharda Prasad; Sharma, Neel Kamal; Liu, Chunqiao et al. (2016) Centrosomal protein CP110 controls maturation of the mother centriole during cilia biogenesis. Development 143:1491-501
Li, Tiansen (2015) Leber congenital amaurosis caused by mutations in RPGRIP1. Cold Spring Harb Perspect Med 5:

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