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4. Congenital microcoria deletion in mouse links Sox21 dysregulation to disease and suggests a role for TGFB2 in glaucoma and myopia

Author

Erjavec, Elisa, Angée, Clémentine, Hadjadj, Djihad, Passet, Bruno, David, Pierre, Kostic, Corinne, Dodé, Emmanuel, Zanlonghi, Xavier, Cagnard, Nicolas, Nedelec, Brigitte, Crippa, Sylvain V., Bole-Feysot, Christine, Zarhrate, Mohammed, Creuzet, Sophie, Castille, Johan, Vilotte, Jean-Luc, Calvas, Patrick, Plaisancié, Julie, Chassaing, Nicolas, Kaplan, Josseline, Rozet, Jean-Michel, and Fares Taie, Lucas

Published
2024
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12. Lentiviral Vectors for Ocular Gene Therapy.

Author

Arsenijevic, Yvan, Berger, Adeline, Udry, Florian, and Kostic, Corinne

Subjects
GENE therapy, MACULAR degeneration, STARGARDT disease, DIABETIC retinopathy, RETINAL degeneration, USHER'S syndrome, DYSTROPHY, RETROLENTAL fibroplasia
Abstract

This review offers the basics of lentiviral vector technologies, their advantages and pitfalls, and an overview of their use in the field of ophthalmology. First, the description of the global challenges encountered to develop safe and efficient lentiviral recombinant vectors for clinical application is provided. The risks and the measures taken to minimize secondary effects as well as new strategies using these vectors are also discussed. This review then focuses on lentiviral vectors specifically designed for ocular therapy and goes over preclinical and clinical studies describing their safety and efficacy. A therapeutic approach using lentiviral vector-mediated gene therapy is currently being developed for many ocular diseases, e.g., aged-related macular degeneration, retinopathy of prematurity, inherited retinal dystrophies (Leber congenital amaurosis type 2, Stargardt disease, Usher syndrome), glaucoma, and corneal fibrosis or engraftment rejection. In summary, this review shows how lentiviral vectors offer an interesting alternative for gene therapy in all ocular compartments. [ABSTRACT FROM AUTHOR]

Published
2022
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13. The connecting cilium inner scaffold provides a structural foundation that protects against retinal degeneration.

Author

Mercey, Olivier, Kostic, Corinne, Bertiaux, Eloïse, Giroud, Alexia, Sadian, Yashar, Gaboriau, David C. A., Morrison, Ciaran G., Chang, Ning, Arsenijevic, Yvan, Guichard, Paul, and Hamel, Virginie

Subjects
*RETINAL degeneration, *MICROTUBULES, *CILIA & ciliary motion, *EXPANSION microscopy, *RETINITIS pigmentosa, *ELECTRON microscopy, *PHOTORECEPTORS
Abstract

Inherited retinal degeneration due to loss of photoreceptor cells is a leading cause of human blindness. These cells possess a photosensitive outer segment linked to the cell body through the connecting cilium (CC). While structural defects of the CC have been associated with retinal degeneration, its nanoscale molecular composition, assembly, and function are barely known. Here, using expansion microscopy and electron microscopy, we reveal the molecular architecture of the CC and demonstrate that microtubules are linked together by a CC inner scaffold containing POC5, CENTRIN, and FAM161A. Dissecting CC inner scaffold assembly during photoreceptor development in mouse revealed that it acts as a structural zipper, progressively bridging microtubule doublets and straightening the CC. Furthermore, we show that Fam161a disruption in mouse leads to specific CC inner scaffold loss and triggers microtubule doublet spreading, prior to outer segment collapse and photoreceptor degeneration, suggesting a molecular mechanism for a subtype of retinitis pigmentosa. Inherited retinal degeneration due to loss of photoreceptor cells is a leading cause of human blindness. Ultrastructure expansion microscopy on mouse retina reveals the presence of a novel structure inside the photoreceptor connecting cilium, the inner scaffold, that protects the outer segment against degeneration. [ABSTRACT FROM AUTHOR]

Published
2022
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18. An in vitro Model of Human Retinal Detachment Reveals Successive Death Pathway Activations.

Author

Potic, Jelena, Mbefo, Martial, Berger, Adeline, Nicolas, Michael, Wanner, Dana, Kostic, Corinne, Matet, Alexandre, Behar-Cohen, Francine, Moulin, Alexandre, and Arsenijevic, Yvan

Subjects
RETINAL detachment, RHODOPSIN, CELL death, PHOTORECEPTORS, NEUROPROTECTIVE agents
Abstract

Purpose: was to create an in vitro model of human retinal detachment (RD) to study the mechanisms of photoreceptor death. Methods: Human retinas were obtained through eye globe donations for research purposes and cultivated as explants. Cell death was investigated in retinas with (control) and without retinal pigment epithelium (RPE) cells to mimic RD. Tissues were studied at different time points and immunohistological analyses for TUNEL, Cleaved caspase3, AIF, CDK4 and the epigenetic mark H3K27me3 were performed. Human and monkey eye globes with retinal detachment served as controls. Results: The number of TUNEL-positive cells, compared between 1 and 7 days, increased with time in both retinas with RPE (from 1.2 ± 0.46 to 8 ± 0.89, n = 4) and without RPE (from 2.6 ± 0.73 to 16.3 ± 1.27, p < 0.014). In the group without RPE, cell death peaked at day 3 (p = 0.014) and was high until day 7. Almost no Cleaved-Caspase3 signal was observed, whereas a transient augmentation at day 3 of AIF-positive cells was observed to be about 10-fold in comparison to the control group (n = 2). Few CDK4-positive cells were found in both groups, but significantly more in the RD group at day 7 (1.8 ± 0.24 vs. 4.7 ± 0.58, p = 0.014). The H3K27me3 mark increased by 7-fold after 5 days in the RD group (p = 0.014) and slightly decreased at day 7 and was also observed to be markedly increased in human and monkey detached retina samples. Conclusion: AIF expression coincides with the first peak of cell death, whereas the H3K27me3 mark increases during the cell death plateau, suggesting that photoreceptor death is induced by different successive pathways after RD. This in vitro model should permit the identification of neuroprotective drugs with clinical relevance. [ABSTRACT FROM AUTHOR]

Published
2020
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19. Maturation of the Pupil Light Reflex Occurs Until Adulthood in Mice.

Author

Kircher, Noémie, Crippa, Sylvain V., Martin, Catherine, Kawasaki, Aki, and Kostic, Corinne

Subjects
PHOTORECEPTORS, LABORATORY mice, PUPIL (Eye), PUPIL diseases, PUPILLARY reflex
Abstract

With respect to photoreceptor function, it is well known that electroretinogram (ERG) amplitudes decrease with age, but to our knowledge, studies describing age-related changes in the pupil light response (PLR) of mice are lacking. This study recorded the PLR and ERG in C57BL/6 and Sv129S6 wild-type mice at three different ages during early adulthood. Dark- and light-adapted PLR and ERG measurements were performed at 1, 2, and 4 months of age. For PLR measurements, we used either a red (622 nm) or blue (463 nm) light stimulus (500 ms) to stimulate one eye. We selected various light intensities ranging across almost 4 log units and subsequently classified them as low, medium, or high intensity. From the recorded PLR, we selected parameters to quantify the early and late phases of the response such as the baseline pupil size, the maximal constriction amplitude, the maximal velocity, the early partial dilation (area under the curve of the positive peak of the first derivative of PLR tracing), and the sustained constriction amplitude. For ERG measurements, both scotopic and photopic responses were recorded following stimulation with green light (520 nm) at preselected intensities. The amplitudes and latencies of the a-wave and the b-wave were also analyzed. In both strains, 1-month-old animals presented with a smaller baseline pupil diameter compared to that in 2- and 4-month-old mice. They also exhibited greater maximal constriction amplitude in response to red stimuli of medium intensity. Further, 1-month-old Sv129S6 mice responded with greater constriction amplitude to all other red and blue stimuli. One-month-old C57BL/6 mice also demonstrated faster early partial dilation and smaller sustained response to low blue stimuli. The ERG of 1-month-old C57BL/6 mice showed a greater scotopic a-wave amplitude compared to that of 2-month-old mice, whereas no significant differences were found in Sv129S6 mice. These results suggest that the functional maturation of the neuronal pathway that mediates the PLR continues after 1 month of age. In studies that measure PLR to determine retinal integrity in adult mice, it is thus important to determine normative values in animals of 2 months of age. [ABSTRACT FROM AUTHOR]

Published
2019
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20. Rai1 frees mice from the repression of active wake behaviors by light.

Author

Diessler, Shanaz, Kostic, Corinne, Arsenijevic, Yvan, Aki Kawasaki, and Franken, Paul

Subjects
*CIRCADIAN rhythms, *SMITH-Magenis syndrome, *HUMAN chromosome abnormalities, *SLEEP-wake cycle, *MELATONIN
Abstract

Besides its role in vision, light impacts physiology and behavior through circadian and direct (aka 'masking') mechanisms. In Smith-Magenis syndrome (SMS), the dysregulation of both sleep-wake behavior and melatonin production strongly suggests impaired non-visual light perception. We discovered that mice haploinsufficient for the SMS causal gene, Retinoic acid induced-1 (Rai1), were hypersensitive to light such that light eliminated alert and active-wake behaviors, while leaving time-spent-awake unaffected. Moreover, variables pertaining to circadian rhythm entrainment were activated more strongly by light. At the input level, the activation of rod/cone and suprachiasmatic nuclei (SCN) by light was paradoxically greatly reduced, while the downstream activation of the ventral-subparaventricular zone (vSPVZ) was increased. The vSPVZ integrates retinal and SCN input and, when activated, suppresses locomotor activity, consistent with the behavioral hypersensitivity to light we observed. Our results implicate Rai1 as a novel and central player in processing non-visual light information, from input to behavioral output. [ABSTRACT FROM AUTHOR]

Published
2017
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21. Occipital cortex activity in response to melanopsin in healthy humans.

Author

Minier, Astrid, Kostic, Corinne, Murray Micah, M., and Kawasaki, Aki

Subjects
*MELANOPSIN, *LATERAL geniculate body, *RETINAL ganglion cells, *VISUAL evoked potentials, *VISUAL pathways
Abstract

Purpose: Melanopsin‐expressing retinal ganglion cells (mRGCs) signal light information to the brain and mediate non‐visual physiologic responses. Animal studies suggest that melanopsin also influences the visual pathway via synaptic contacts in the lateral geniculate nucleus and the superior colliculus. In healthy and blind humans, blue light exposure results in modulation of occipital activity in neuroimaging studies, presumably from melanopsin interaction with photoreceptors. This study examined if melanopsin activation influences the visual evoked potential (VEP). Methods: We recorded VEPs to light flash stimuli to activate cones, rods and melanopsin in 30 healthy volunteers (red: 630 nm, blue: 445 nm, intensities: 0.00003 to 150 cd/m2). Dark adaptation was used to sensitize rods. At 2 log cd/m2, rods are saturated, and bright blue lights are considered more melanopsin activating. Under photopic conditions, red light activates M‐L cones. Amplitude and latency of the N2 and P2 components of the VEP were evaluated. Results: P2 obtained from the melanopsin stimulus presented under dark‐adaptation (MEL1) had the largest amplitude and shortest latency of all VEPs including the melanopsin stimulus presented non‐dark adapted condition (MEL2). There was no difference of N2 between MEL1 and MEL2 conditions. The latency of N2 and P2 from rods was longer than that from MEL1 and MEL2. P2 from MEL2 was equivalent in amplitude and latency to the P2 of the brightest cone stimulus (30 cd/m2 red light). Conclusion: Under non‐dark‐adapted conditions, bright blue light evokes a similar VEP as bright red light, suggesting that cones are the predominant influence in these conditions. However, bright blue light presented under dark adaptation modified the VEP latency and amplitude. As rod VEPs are distinguished by slow latencies, then we propose that these changes arise from mRGCs influence on cone‐mediated visual pathways to the occipital cortex. [ABSTRACT FROM AUTHOR]

Published
2022
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22. Amyloid Precursor-Like Protein 2 deletion-induced retinal synaptopathy related to congenital stationary night blindness: structural, functional and molecular characteristics.

Author

Dinet, Virginie, Ciccotosto, Giuseppe D., Delaunay, Kimberley, Borras, Céline, Ranchon-Cole, Isabelle, Kostic, Corinne, Savoldelli, Michèle, El Sanharawi, Mohamed, Jonet, Laurent, Pirou, Caroline, Na An, Abitbol, Marc, Arsenijevic, Yvan, Behar-Cohen, Francine, Cappai, Roberto, and Mascarelli, Frédéric

Subjects
AMYLOID beta-protein precursor, BLINDNESS, RETINA physiology, ELECTRON microscopy, PHOTORECEPTORS, SYNAPSES, BIPOLAR cells
Abstract

Background: Amyloid precursor protein knockout mice (APP-KO) have impaired differentiation of amacrine and horizontal cells. APP is part of a gene family and its paralogue amyloid precursor-like protein 2 (APLP2) has both shared as well as distinct expression patterns to APP, including in the retina. Given the impact of APP in the retina we investigated how APLP2 expression affected the retina using APLP2 knockout mice (APLP2-KO). Results: Using histology, morphometric analysis with noninvasive imaging technique and electron microscopy, we showed that APLP2-KO retina displayed abnormal formation of the outer synaptic layer, accompanied with greatly impaired photoreceptor ribbon synapses in adults. Moreover, APLP2-KO displayed a significant decease in ON-bipolar, rod bipolar and type 2 OFF-cone bipolar cells (36, 21 and 63 %, respectively). Reduction of the number of bipolar cells was accompanied with disrupted dendrites, reduced expression of metabotropic glutamate receptor 6 at the dendritic tips and alteration of axon terminals in the OFF laminae of the inner plexiform layer. In contrast, the APP-KO photoreceptor ribbon synapses and bipolar cells were intact. The APLP2-KO retina displayed numerous phenotypic similarities with the congenital stationary night blindness, a non-progressive retinal degeneration disease characterized by the loss of night vision. The pathological phenotypes in the APLP2-KO mouse correlated to altered transcription of genes involved in pre- and postsynatic structure/function, including CACNA1F, GRM6, TRMP1 and Gα0, and a normal scotopic a-wave electroretinogram amplitude, markedly reduced scotopic electroretinogram b-wave and modestly reduced photopic cone response. This confirmed the impaired function of the photoreceptor ribbon synapses and retinal bipolar cells, as is also observed in congenital stationary night blindness. Since congenital stationary night blindness present at birth, we extended our analysis to retinal differentiation and showed impaired differentiation of different bipolar cell subtypes and an altered temporal sequence of development from OFF to ON laminae in the inner plexiform layer. This was associated with the altered expression patterns of bipolar cell generation and differentiation factors, including MATH3, CHX10, VSX1 and OTX2. Conclusions: These findings demonstrate that APLP2 couples retina development and synaptic genes and present the first evidence that APLP2 expression may be linked to synaptic disease. [ABSTRACT FROM AUTHOR]

Published
2016
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23. Rapid Cohort Generation and Analysis of Disease Spectrum of Large Animal Model of Cone Dystrophy.

Author

Kostic, Corinne, Lillico, Simon Geoffrey, Crippa, Sylvain Vincent, Grandchamp, Nicolas, Pilet, Héloïse, Philippe, Stéphanie, Lu, Zen, King, Tim James, Mallet, Jacques, Sarkis, Chamsy, Arsenijevic, Yvan, and Whitelaw, Christopher Bruce Alexander

Subjects
*RETINAL degeneration, *EYE diseases, *TREATMENT of eye diseases, *LENTIVIRUSES, *MUTANT proteins, *GUANYLATE cyclase, *ANIMAL models in research, *PATIENTS
Abstract

Large animal models are an important resource for the understanding of human disease and for evaluating the applicability of new therapies to human patients. For many diseases, such as cone dystrophy, research effort is hampered by the lack of such models. Lentiviral transgenesis is a methodology broadly applicable to animals from many different species. When conjugated to the expression of a dominant mutant protein, this technology offers an attractive approach to generate new large animal models in a heterogeneous background. We adopted this strategy to mimic the phenotype diversity encounter in humans and generate a cohort of pigs for cone dystrophy by expressing a dominant mutant allele of the guanylate cyclase 2D (GUCY2D) gene. Sixty percent of the piglets were transgenic, with mutant GUCY2D mRNA detected in the retina of all animals tested. Functional impairment of vision was observed among the transgenic pigs at 3 months of age, with a follow-up at 1 year indicating a subsequent slower progression of phenotype. Abnormal retina morphology, notably among the cone photoreceptor cell population, was observed exclusively amongst the transgenic animals. Of particular note, these transgenic animals were characterized by a range in the severity of the phenotype, reflecting the human clinical situation. We demonstrate that a transgenic approach using lentiviral vectors offers a powerful tool for large animal model development. Not only is the efficiency of transgenesis higher than conventional transgenic methodology but this technique also produces a heterogeneous cohort of transgenic animals that mimics the genetic variation encountered in human patients. [ABSTRACT FROM AUTHOR]

Published
2013
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24. Retinal Degeneration Progression Changes Lentiviral Vector Cell Targeting in the Retina.

Author

Calame, Maritza, Cachafeiro, Maité, Philippe, Sté phanie, Schouwey, Karine, Tekaya, Meriem, Wanner, Dana, Sarkis, Chamsy, Kostic, Corinne, and Arsenijevic, Yvan

Subjects
EYE diseases, RETINAL (Visual pigment), DEGENERATION (Pathology), LABORATORY mice, PHOTORECEPTORS, NEUROGLIA, VISUAL pigments, MICROBIAL genetics
Abstract

In normal mice, the lentiviral vector (LV) is very efficient to target the RPE cells, but transduces retinal neurons well only during development. In the present study, the tropism of LV has been investigated in the degenerating retina of mice, knowing that the retina structure changes during degeneration. We postulated that the viral transduction would be increased by the alteration of the outer limiting membrane (OLM). Two different LV pseudotypes were tested using the VSVG and the Mokola envelopes, as well as two animal models of retinal degeneration: light-damaged Balb-C and Rhodopsin knockout (Rho-/-) mice. After light damage, the OLM is altered and no significant increase of the number of transduced photoreceptors can be obtained with a LV-VSVG-Rhop-GFP vector. In the Rho-/- mice, an alteration of the OLM was also observed, but the possibility of transducing photoreceptors was decreased, probably by ongoing gliosis. The use of a ubiquitous promoter allows better photoreceptor transduction, suggesting that photoreceptor-specific promoter activity changes during late stages of photoreceptor degeneration. However, the number of targeted photoreceptors remains low. In contrast, LV pseudotyped with the Mokola envelope allows a wide dispersion of the vector into the retina (corresponding to the injection bleb) with preferential targeting of Mü ller cells, a situation which does not occur in the wildtype retina. Mokola-pseudotyped lentiviral vectors may serve to engineer these glial cells to deliver secreted therapeutic factors to a diseased area of the retina. [ABSTRACT FROM AUTHOR]

Published
2011
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25. Gene Therapy Regenerates Protein Expression in Cone Photoreceptors in Rpe65R91W/R91W Mice.

Author

Kostic, Corinne, Crippa, Sylvain Vincent, Pignat, Vérène, Bemelmans, Alexis-Pierre, Samardzija, Marijana, Grimm, Christian, Wenzel, Andreas, and Arsenijevic, Yvan

Subjects
*PHOTORECEPTORS, *PHOTOBIOLOGY, *RODENTS, *INTERPHOTORECEPTOR matrix, *RETINAL degeneration
Abstract

Cone photoreceptors mediate visual acuity under daylight conditions, so loss of cone-mediated central vision of course dramatically affects the quality of life of patients suffering from retinal degeneration. Therefore, promoting cone survival has become the goal of many ocular therapies and defining the stage of degeneration that still allows cell rescue is of prime importance. Using the Rpe65R91W/R91W mouse, which carries a mutation in the Rpe65 gene leading to progressive photoreceptor degeneration in both patients and mice, we defined stages of retinal degeneration that still allow cone rescue. We evaluated the therapeutic window within which cones can be rescued, using a subretinal injection of a lentiviral vector driving expression of RPE65 in the Rpe65R91W/R91W mice. Surprisingly, when applied to adult mice (1 month) this treatment not only stalls or slows cone degeneration but, actually, induces cone-specific protein expression that was previously absent. Before the intervention only part of the cones (40% of the number found in wild-type animals) in the Rpe65R91W/R91W mice expressed cone transducin (GNAT2); this fraction increased to 64% after treatment. Correct S-opsin localization is also recovered in the transduced region. In consequence these results represent an extended therapeutic window compared to the Rpe65-/- mice, implying that patients suffering from missense mutations might also benefit from a prolonged therapeutic window. Moreover, cones are not only rescued during the course of the degeneration, but can actually recover their initial status, meaning that a proportion of altered cones in chromophore deficiency-related disease can be rehabilitated even though they are severely affected. [ABSTRACT FROM AUTHOR]

Published
2011
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26. Lentiviral Gene Transfer of Rpe65 Rescues Survival and Function of Cones in a Mouse Model of Leber Congenital Amaurosis.

Author

Bemelmans, Alexis-Pierre, Kostic, Corinne, Crippa, Sylvain V., Hauswirth, William W., Lem, Janis, Munier, Francis L., Seeliger, Mathias W., Wenzel, Andreas, and Arsenijevic, Yvan

Subjects
*GENETIC transformation, *LABORATORY rats, *BLINDNESS, *VISUAL pigments, *PHOTORECEPTORS
Abstract

Background RPE65 is specifically expressed in the retinal pigment epithelium and is essential for the recycling of 11-cis-retinal, the chromophore of rod and cone opsins. In humans, mutations in RPE65 lead to Leber congenital amaurosis or early-onset retinal dystrophy, a severe form of retinitis pigmentosa. The proof of feasibility of gene therapy for RPE65 deficiency has already been established in a dog model of Leber congenital amaurosis, but rescue of the cone function, although crucial for human high-acuity vision, has never been strictly proven. In Rpe65 knockout mice, photoreceptors show a drastically reduced light sensitivity and are subject to degeneration, the cone photoreceptors being lost at early stages of the disease. In the present study, we address the question of whether application of a lentiviral vector expressing the Rpe65 mouse cDNA prevents cone degeneration and restores cone function in Rpe65 knockout mice. Methods and Findings Subretinal injection of the vector in Rpe65-deficient mice led to sustained expression of Rpe65 in the retinal pigment epithelium. Electroretinogram recordings showed that Rpe65 gene transfer restored retinal function to a near-normal pattern. We performed histological analyses using cone-specific markers and demonstrated that Rpe65 gene transfer completely prevented cone degeneration until at least four months, an age at which almost all cones have degenerated in the untreated Rpe65-deficient mouse. We established an algorithm that allows prediction of the cone-rescue area as a function of transgene expression, which should be a useful tool for future clinical trials. Finally, in mice deficient for both RPE65 and rod transducin, Rpe65 gene transfer restored cone function when applied at an early stage of the disease. Conclusions By demonstrating that lentivirus-mediated Rpe65 gene transfer protects and restores the function of cones in the Rpe65-/- mouse, this study reinforces the therapeutic value of gene therapy for RPE65 deficiencies, suggests a cone-preserving treatment for the retina, and evaluates a potentially effective viral vector for this purpose. [ABSTRACT FROM AUTHOR]

Published
2006
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27. High Yield of Cells Committed to the Photoreceptor Fate from Expanded Mouse Retinal Stem Cells.

Author

Merhi-Soussi, Faten, Angénieux, Brigitte, Canola, Kriss, Kostic, Corinne, Tekaya, Meriem, Hornfeld, Dana, and Arsenijevic, Yvan

Subjects
STEM cells, PHOTORECEPTORS, LENTIVIRUSES, NEUROGLIA, CELL differentiation, FIBROBLAST growth factors, DEVELOPMENTAL neurobiology
Abstract

The purpose of the present work was to generate, from retinal stem cells (RSCs), a large number of cells committed toward the photoreceptor fate in order to provide an unlimited cell source for neurogenesis and transplantation studies. We expanded RSCs (at least 34 passages) sharing characteristics of radial glial cells and primed the cells in vitro with fibroblast growth factor (FGF)-2 for 5 days, after which cells were treated with the B27 supplement to induce cell differentiation and maturation. Upon differentiation, cells expressed cell type-specific markers corresponding to neurons and glia. We show by immunocytochemistry analysis that a subpopulation of differentiated cells was committed to the photoreceptor lineage given that these cells expressed the photoreceptor proteins recoverin, peripherin, and rhodopsin in a same ratio. Furthermore, cells infected during the differentiation procedure with a lentiviral vector expressing green fluorescent protein (GFP) under the control of either the rhodopsin promoter or the interphotoreceptor retinoidbinding protein (IRBP) promoter, expressed GFP. FGF-2 priming increased neuronal differentiation while decreasing glia generation. Reverse transcription-polymerase chain reaction analyses revealed that the differentiated cells expressed photoreceptor-specific genes such as Crx, rhodopsin, peripherin, IRBP, and phosphodiesterase-α. Quantification of the differentiated cells showed a robust differentiation into the photoreceptor lineage: Approximately 25%–35% of the total cells harbored photoreceptor markers. The generation of a significant number of nondifferentiated RSCs as well as differentiated photoreceptors will enable researchers to determine via transplantation studies which cells are the most adequate to integrate a degenerating retina. [ABSTRACT FROM AUTHOR]

Published
2006
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28. Bmil Loss Produces an Increase in Astroglial Cells and a Decrease in Neural Stem Cell Population and Proliferation.

Author

Zencak, Dusan, Lingbeek, Merel, Kostic, Corinne, Tekaya, Meriem, Tanger, Ellen, Hornfeld, Dana, Jaquet, Muriel, Munier, Francis L., Schorderet, Daniel F., Van Lohuizen, Maarten, and Arsenijevic, Yvan

Subjects
CELL cycle, CELLULAR aging, BRAIN, ASTROCYTES
Abstract

The polycomb transcriptional repressor Bmi1 promotes cell cycle progression, controls cell senescence, and is implicated in brain development. Loss of Bmi1 leads to a decreased brain size and causes progressive ataxia and epilepsy. Recently, Bmi1 was shown to control neural stem cell (NSC) renewal. However, the effect of Bmi1 loss on neural cell fate in vivo and the question whether the action of Bmi1 was intrinsic to the NSCs remained to be investigated. Here, we show that Bmi1 is expressed in the germinal zone in vivo and in NSCs as well as in progenitors proliferating in vitro, but not in differentiated cells. Loss of Bmi1 led to a decrease in proliferation in zones known to contain progenitors: the newborn cortex and the newborn and adult subventricular zone. This decrease was accentuated in vitro, where we observed a drastic reduction in NSC proliferation and renewal because of NSC-intrinsic effects of Bmi1 as shown by the means of RNA interference. Bmi1-/- mice also presented more astrocytes at birth, and a generalized gliosis at postnatal day 30. At both stages, colocalization of bromodeoxyuridine and GFAP demonstrated that Bmi1 loss did not prevent astrocyte precursor proliferation. Supporting these observations, Bmi1-/- neurospheres generate preferentially astrocytes probably attributable to a different responsiveness to environmental factors. Bmi1 is therefore necessary for NSC renewal in a cell-intrinsic mode, whereas the altered cell pattern of the Bmi1-/- brain shows that in vivo astrocyte precursors can proliferate in the absence of Bmi1. [ABSTRACT FROM AUTHOR]

Published
2005
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29. Enhancer of Zeste Homolog 2 (EZH2) Contributes to Rod Photoreceptor Death Process in Several Forms of Retinal Degeneration and Its Activity Can Serve as a Biomarker for Therapy Efficacy.

Author

Mbefo, Martial, Berger, Adeline, Schouwey, Karine, Gérard, Xavier, Kostic, Corinne, Beryozkin, Avigail, Sharon, Dror, Dolfuss, Hélène, Munier, Francis, Tran, Hoai Viet, van Lohuizen, Maarten, Beltran, William A., and Arsenijevic, Yvan

Subjects
RETINAL degeneration, INTRAVITREAL injections, LABORATORY mice, BIOMARKERS, GENETIC mutation, PHOTORECEPTORS
Abstract

Inherited retinal dystrophies (IRD) are due to various gene mutations. Each mutated gene instigates a specific cell homeostasis disruption, leading to a modification in gene expression and retinal degeneration. We previously demonstrated that the polycomb-repressive complex-1 (PRC1) markedly contributes to the cell death process. To better understand these mechanisms, we herein study the role of PRC2, specifically EZH2, which often initiates the gene inhibition by PRC1. We observed that the epigenetic mark H3K27me3 generated by EZH2 was progressively and strongly expressed in some individual photoreceptors and that the H3K27me3-positive cell number increased before cell death. H3K27me3 accumulation occurs between early (accumulation of cGMP) and late (CDK4 expression) events of retinal degeneration. EZH2 hyperactivity was observed in four recessive and two dominant mouse models of retinal degeneration, as well as two dog models and one IRD patient. Acute pharmacological EZH2 inhibition by intravitreal injection decreased the appearance of H3K27me3 marks and the number of TUNEL-positive cells revealing that EZH2 contributes to the cell death process. Finally, we observed that the absence of the H3K27me3 mark is a biomarker of gene therapy treatment efficacy in XLRPA2 dog model. PRC2 and PRC1 are therefore important actors in the degenerative process of multiple forms of IRD. [ABSTRACT FROM AUTHOR]

Published
2021
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31. 419. Rescue of Cone Photoreceptors after Lentiviral Gene Transfer of Rpe65 cDNA in Knockout Mouse Models of Leber Congenital Amaurosis.

Author

Bemelmans, Alexis-Pierre, Kostic, Corinne, Hornfeld, Dana, Tekaya, Meriem, Crippa, Sylvain V., Hauswirth, William W., Lem, Janis, Seeliger, Mathias, Wenzel, Andreas, and Arsenijevic, Yvan

Subjects
*PHOTORECEPTORS, *GENETIC transformation, *RETINOIDS, *RETINAL degeneration, *GENE therapy, *GENETIC engineering, *VISUAL acuity
Abstract

Gene transfer is a promising approach for single gene defects occurring in several retinal degenerations, such as Leber congenital amaurosis (LCA), a group of severe retinal dystrophies affecting children. About 10% of LCA cases are due to a mutation in RPE65, a key enzyme for the metabolism of Vitamin A during the visual cycle. The consequence of RPE65 deficiency is a lack of the 11-cis- retinal chromophore at the photoreceptor level and an associated retinal degeneration. Gene therapy in dogs lacking RPE65 protein restores visual function on the long term (Acland et al., Nat Genet 28: 92; Narfstrom et al., Invest Ophthalmol Vis Sci 44: 1663). However no confirmed indications on cone rescue and cone function restoration, necessary for day vision and high visual acuity, have been reported in the different animal models used in gene therapy studies. To evaluate the efficiency of Rpe65 replacement by gene transfer in rodent models of LCA, we have constructed a lentiviral vector expressing the Rpe65 mouse cDNA under the control of a promoter fragment from the human RPE65 gene. We studied the therapeutic efficiency of this vector in the Rpe65 knockout mouse as well as in the Rpe65/Gnat1a double knockout mouse, to reveal the effect of Rpe65 gene transfer on the cone photoreceptors. Gnat1a-/- mice do not have any rod function. Thus, any photoreceptor activity occurring in the Rpe65/Gnat1a double knockout background after Rpe65 gene replacement should arise from cone photoreceptors.The therapeutic lentiviral vector (LV-RPE65) as well as a control vector encoding GFP (LV-GFP) were delivered by subretinal injection. We evaluated the retinal function by electroretinogram recordings at different times after vector injection, and following the last ERG, the animals were sacrificed to study transgene expression and photoreceptor survival at the histological level. Treatment of Rpe65-/- mice at postnatal day 5 revealed that lentiviral-mediated transfer of Rpe65 cDNA restores the ERG response. Furthermore, after treatment at the same age, Rpe65/Gnat1a double knockout mice displayed a clear ERG response, thus demonstrating that LV-RPE65 treatment allows to rescue the cone function. At the histological level, analysis of Rpe65-/- treated mice revealed a robust cone rescue exceeding the transduced area of the retina, and lasting until at least four months of age, the latest time-point examined. This study demonstrates for the first time that Rpe65 gene transfer in rodent models of LCA improves the function and the survival of cone photoreceptors. Furthermore, this provides evidence that HIV-1-derived vectors are suitable for such gene replacement strategy.Molecular Therapy (2006) 13, S161–S161; doi: 10.1016/j.ymthe.2006.08.483 [ABSTRACT FROM AUTHOR]

Published
2006
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