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116 results on '"Beck, Susanne C."'

2. Accessory heterozygous mutations in cone photoreceptor CNGA3 exacerbate CNG channel–associated retinopathy

Author

Burkard, Markus, Kohl, Susanne, Krätzig, Timm, Tanimoto, Naoyuki, Brennenstuhl, Christina, Bausch, Anne E, Junger, Katrin, Reuter, Peggy, Sothilingam, Vithiyanjali, Beck, Susanne C, Huber, Gesine, Ding, Xi-Qin, Mayer, Anja K, Baumann, Britta, Weisschuh, Nicole, Zobor, Ditta, Hahn, Gesa-Astrid, Kellner, Ulrich, Venturelli, Sascha, Becirovic, Elvir, Issa, Peter Charbel, Koenekoop, Robert K, Rudolph, Günther, Heckenlively, John, Sieving, Paul, Weleber, Richard G, Hamel, Christian, Zong, Xiangang, Biel, Martin, Lukowski, Robert, Seeliger, Matthias W, Michalakis, Stylianos, Wissinger, Bernd, and Ruth, Peter

Subjects
Genetics, Neurosciences, Brain Disorders, Eye Disease and Disorders of Vision, Aetiology, 2.1 Biological and endogenous factors, Eye, Amino Acid Substitution, Animals, Color Vision Defects, Cyclic Nucleotide-Gated Cation Channels, Disease Models, Animal, HEK293 Cells, Heterozygote, Humans, Ion Channel Gating, Mice, Mice, Transgenic, Mutation, Mutation, Missense, Retinal Cone Photoreceptor Cells, Retinal Diseases, Molecular genetics, Ophthalmology, Retinopathy, Medical and Health Sciences, Immunology
Abstract

Mutations in CNGA3 and CNGB3, the genes encoding the subunits of the tetrameric cone photoreceptor cyclic nucleotide-gated ion channel, cause achromatopsia, a congenital retinal disorder characterized by loss of cone function. However, a small number of patients carrying the CNGB3/c.1208G>A;p.R403Q mutation present with a variable retinal phenotype ranging from complete and incomplete achromatopsia to moderate cone dysfunction or progressive cone dystrophy. By exploring a large patient cohort and published cases, we identified 16 unrelated individuals who were homozygous or (compound-)heterozygous for the CNGB3/c.1208G>A;p.R403Q mutation. In-depth genetic and clinical analysis revealed a co-occurrence of a mutant CNGA3 allele in a high proportion of these patients (10 of 16), likely contributing to the disease phenotype. To verify these findings, we generated a Cngb3R403Q/R403Q mouse model, which was crossbred with Cnga3-deficient (Cnga3-/-) mice to obtain triallelic Cnga3+/- Cngb3R403Q/R403Q mutants. As in human subjects, there was a striking genotype-phenotype correlation, since the presence of 1 Cnga3-null allele exacerbated the cone dystrophy phenotype in Cngb3R403Q/R403Q mice. These findings strongly suggest a digenic and triallelic inheritance pattern in a subset of patients with achromatopsia/severe cone dystrophy linked to the CNGB3/p.R403Q mutation, with important implications for diagnosis, prognosis, and genetic counseling.

Published
2018

3. Targeted ablation of Crb2 in photoreceptor cells induces retinitis pigmentosa

Author

Alves, Celso Henrique, Pellissier, Lucie P, Vos, Rogier M, Garrido, Marina Garcia, Sothilingam, Vithiyanjali, Seide, Christina, Beck, Susanne C, Klooster, Jan, Furukawa, Takahisa, Flannery, John G, Verhaagen, Joost, Seeliger, Mathias W, and Wijnholds, Jan

Subjects
Biological Sciences, Genetics, Rare Diseases, Stem Cell Research - Nonembryonic - Non-Human, Neurosciences, Eye Disease and Disorders of Vision, Stem Cell Research, Neurodegenerative, Aetiology, 2.1 Biological and endogenous factors, Eye, Animals, Ependymoglial Cells, Female, Immunohistochemistry, Male, Membrane Proteins, Mice, Inbred C57BL, Mice, Knockout, Photoreceptor Cells, Retinitis Pigmentosa, Medical and Health Sciences, Genetics & Heredity
Abstract

In humans, the Crumbs homolog-1 (CRB1) gene is mutated in autosomal recessive Leber congenital amaurosis and early-onset retinitis pigmentosa. In mammals, the Crumbs family is composed of: CRB1, CRB2, CRB3A and CRB3B. Recently, we showed that removal of mouse Crb2 from retinal progenitor cells, and consequent removal from Müller glial and photoreceptor cells, results in severe and progressive retinal degeneration with concomitant loss of retinal function that mimics retinitis pigmentosa due to mutations in the CRB1 gene. Here, we studied the effects of cell-type-specific loss of CRB2 from the developing mouse retina using targeted conditional deletion of Crb2 in photoreceptors or Müller cells. We analyzed the consequences of targeted loss of CRB2 in the adult mouse retina using adeno-associated viral vectors encoding Cre recombinase and short hairpin RNA against Crb2. In vivo retinal imaging by means of optical coherence tomography on retinas lacking CRB2 in photoreceptors showed progressive thinning of the photoreceptor layer and cellular mislocalization. Electroretinogram recordings under scotopic conditions showed severe attenuation of the a-wave, confirming the degeneration of photoreceptors. Retinas lacking CRB2 in developing photoreceptors showed early onset of abnormal lamination, whereas retinas lacking CRB2 in developing Müller cells showed late onset retinal disorganization. Our data suggest that in the developing retina, CRB2 has redundant functions in Müller glial cells, while CRB2 has essential functions in photoreceptors. Our data suggest that short-term loss of CRB2 in adult mouse photoreceptors, but not in Müller glial cells, causes sporadic loss of adhesion between photoreceptors and Müller cells.

Published
2014

4. A retinal model of cerebral malaria

Author

Paquet-Durand, François, Beck, Susanne C., Das, Soumyaparna, Huber, Gesine, Le Chang, Schubert, Timm, Tanimoto, Naoyuki, Garcia-Garrido, Marina, Mühlfriedel, Regine, Bolz, Sylvia, Hoffmann, Wolfgang, Schraermeyer, Ulrich, Mordmüller, Benjamin, and Seeliger, Mathias W.

Published
2019
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8. Multiparametric Longitudinal Profiling of RCAS-tva-Induced PDGFB-Driven Experimental Glioma.

Author

Becker, Hannes, Castaneda-Vega, Salvador, Patzwaldt, Kristin, Przystal, Justyna M., Walter, Bianca, Michelotti, Filippo C., Canjuga, Denis, Tatagiba, Marcos, Pichler, Bernd, Beck, Susanne C., Holland, Eric C., la Fougère, Christian, and Tabatabai, Ghazaleh

Subjects
GLIOMAS, VIRAL tropism, PLATELET-derived growth factor, MAGNETIC resonance imaging, BRAIN tumors, ANIMAL models in research, GLIOBLASTOMA multiforme
Abstract

Glioblastomas are incurable primary brain tumors harboring a heterogeneous landscape of genetic and metabolic alterations. Longitudinal imaging by MRI and [18F]FET-PET measurements enable us to visualize the features of evolving tumors in a dynamic manner. Yet, close-meshed longitudinal imaging time points for characterizing temporal and spatial metabolic alterations during tumor evolution in patients is not feasible because patients usually present with already established tumors. The replication-competent avian sarcoma-leukosis virus (RCAS)/tumor virus receptor-A (tva) system is a powerful preclinical glioma model offering a high grade of spatial and temporal control of somatic gene delivery in vivo. Consequently, here, we aimed at using MRI and [18F]FET-PET to identify typical neuroimaging characteristics of the platelet-derived growth factor B (PDGFB)-driven glioma model using the RCAS-tva system. Our study showed that this preclinical glioma model displays MRI and [18F]FET-PET features that highly resemble the corresponding established human disease, emphasizing the high translational relevance of this experimental model. Furthermore, our investigations unravel exponential growth dynamics and a model-specific tumor microenvironment, as assessed by histology and immunochemistry. Taken together, our study provides further insights into this preclinical model and advocates for the imaging-stratified design of preclinical therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published
2022
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17. Mpp4 recruits Psd95 and Veli3 towards the photoreceptor synapse

Author

Aartsen, Wendy M., Kantardzhieva, Albena, Klooster, Jan, van Rossum, Agnes G.S.H., van de Pavert, Serge A., Versteeg, Inge, Cardozo, Bob Nunes, Tonagel, Felix, Beck, Susanne C., Tanimoto, Naoyuki, Seeliger, Mathias W., and Wijnholds, Jan

Published
2006

21. Long-term consequences of developmental vascular defects on retinal vessel homeostasis and function in a mouse model of Norrie disease.

Author

Beck, Susanne C., Feng, Yuxi, Sothilingam, Vithiyanjali, Garcia Garrido, Marina, Tanimoto, Naoyuki, Acar, Niyazi, Shan, Shenliang, Seebauer, Britta, Berger, Wolfgang, Hammes, Hans-Peter, and Seeliger, Mathias W.

Subjects
*VASCULAR diseases, *RETINAL blood vessels, *HOMEOSTASIS, *NORRIE'S disease, *DISEASE progression
Abstract

Loss of Norrin signalling due to mutations in the Norrie disease pseudoglioma gene causes severe vascular defects in the retina, leading to visual impairment and ultimately blindness. While the emphasis of experimental work so far was on the developmental period, we focus here on disease mechanisms that induce progression into severe adult disease. The goal of this study was the comprehensive analysis of the long-term effects of the absence of Norrin on vascular homeostasis and retinal function. In a mouse model of Norrie disease retinal vascular morphology and integrity were studied by means of in vivo angiography; the vascular constituents were assessed in detailed histological analyses using quantitative retinal morphometry. Finally, electroretinographic analyses were performed to assess the retinal function in adult Norrin deficient animals. We could show that the primary developmental defects not only persisted but developed into further vascular abnormalities and microangiopathies. In particular, the overall vessel homeostasis, the vascular integrity, and also the cellular constituents of the vascular wall were affected in the adult Norrin deficient retina. Moreover, functional analyses indicated to persistent hypoxia in the neural retina which was suggested as one of the major driving forces of disease progression. In summary, our data provide evidence that the key to adult Norrie disease are ongoing vascular modifications, driven by the persistent hypoxic conditions, which are ineffective to compensate for the primary Norrin-dependent defects. [ABSTRACT FROM AUTHOR]

Published
2017
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22. AAV-Mediated Gene Supplementation Therapy in Achromatopsia Type 2: Preclinical Data on Therapeutic Time Window and Long-Term Effects.

Author

Mühlfriedel, Regine, Naoyuki Tanimoto, Schön, Christian, Sothilingam, Vithiyanjali, Garrido, Marina Garcia, Beck, Susanne C., Huber, Gesine, Biel, Martin, Seeliger, Mathias W., and Michalakis, Stylianos

Subjects
COLOR blindness, EYE diseases, CYCLIC nucleotide-gated ion channels, THERAPEUTICS
Abstract

Achromatopsia type 2 (ACHM2) is a severe, inherited eye disease caused by mutations in the CNGA3 gene encoding the α subunit of the cone photoreceptor cyclic nucleotide-gated (CNG) channel. Patients suffer from strongly impaired daylight vision, photophobia, nystagmus, and lack of color discrimination. We have previously shown in the Cnga3 knockout (KO) mouse model of ACHM2 that gene supplementation therapy is effective in rescuing cone function and morphology and delaying cone degeneration. In our preclinical approach, we use recombinant adeno-associated virus (AAV) vector-mediated gene transfer to express the murine Cnga3 gene under control of the mouse blue opsin promoter. Here, we provide novel data on the efficiency and permanence of such gene supplementation therapy in Cnga3 KO mice. Specifically, we compare the influence of two different AAV vector capsids, AAV2/5 (Y719F) and AAV2/8 (Y733F), on restoration of cone function, and assess the effect of age at time of treatment on the long-term outcome. The evaluation included in vivo analysis of retinal function using electroretinography (ERG) and immunohistochemical analysis of vector-driven Cnga3 transgene expression. We found that both vector capsid serotypes led to a comparable rescue of cone function over the observation period between 4 weeks and 3 months post treatment. In addition, a clear therapeutic effect was present in mice treated at 2 weeks of age as well as in mice treated at 3 months of age at the first assessment at 4 weeks after treatment. Importantly, the effect extended in both cases over the entire observation period of 12 months post treatment. However, the average ERG amplitude levels differed between the two groups, suggesting a role of the absolute age, or possibly, the associated state of the degeneration, on the achievable outcome. In summary, we found that the therapeutic time window of opportunity for AAV-mediated Cnga3 gene supplementation therapy in the Cnga3 KO mouse model extends at least to an age of 3 months, but is presumably limited by the condition, number and topographical distribution of remaining cones at the time of treatment. No impact of the choice of capsid on the therapeutic success was detected. [ABSTRACT FROM AUTHOR]

Published
2017
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23. Mutations in the unfolded protein response regulator ATF6 cause the cone dysfunction disorder achromatopsia.

Author

Kohl, Susanne, Zobor, Ditta, Weisschuh, Nicole, Staller, Jennifer, Menendez, Irene Gonzalez, Beck, Susanne C, Garrido, Marina Garcia, Sothilingam, Vithiyanjali, Seeliger, Mathias W, Wissinger, Bernd, Hollander, Anneke I den, Lopez, Irma, Ren, Huanan, Koenekoop, Robert K, Moore, Anthony T, Webster, Andrew R, Michaelides, Michel, Zrenner, Eberhart, Kaufman, Randal J, and Tsang, Stephen H

Subjects
COLOR blindness, GENETIC mutation, HOMOZYGOSITY, ENDOPLASMIC reticulum, HOMEOSTASIS
Abstract

Achromatopsia (ACHM) is an autosomal recessive disorder characterized by color blindness, photophobia, nystagmus and severely reduced visual acuity. Using homozygosity mapping and whole-exome and candidate gene sequencing, we identified ten families carrying six homozygous and two compound-heterozygous mutations in the ATF6 gene (encoding activating transcription factor 6A), a key regulator of the unfolded protein response (UPR) and cellular endoplasmic reticulum (ER) homeostasis. Patients had evidence of foveal hypoplasia and disruption of the cone photoreceptor layer. The ACHM-associated ATF6 mutations attenuate ATF6 transcriptional activity in response to ER stress. Atf6−/− mice have normal retinal morphology and function at a young age but develop rod and cone dysfunction with increasing age. This new ACHM-related gene suggests a crucial and unexpected role for ATF6A in human foveal development and cone function and adds to the list of genes that, despite ubiquitous expression, when mutated can result in an isolated retinal photoreceptor phenotype. [ABSTRACT FROM AUTHOR]

Published
2015
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24. Scale Adjustments to Facilitate Two-Dimensional Measurements in OCT Images.

Author

Garcia Garrido, Marina, Mühlfriedel, Regine L., Beck, Susanne C., Wallrapp, Christine, and Seeliger, Mathias W.

Subjects
TWO-dimensional models, OPTICAL coherence tomography, IMAGE analysis, GREEN fluorescent protein, DATA analysis
Abstract

Purpose: To address the problem of unequal scales for the measurement of two-dimensional structures in OCT images, and demonstrate the use of intra¬ocular objects of known dimensions in the murine eye for the equal calibration of axes. Methods: The first part of this work describes the mathematical foundation of major distortion effects introduced by X-Y scaling differences. Illustrations were generated with CorelGraph X3 software. The second part bases on image data obtained with a HRA2 Spectralis (Heidelberg Engineering) in SV129 wild-type mice. Subretinally and intravitreally implanted microbeads, alginate capsules with a diameter of 154±5 μm containing GFP-marked mesenchymal stem cells (CellBeads), were used as intraocular objects for calibration. Results: The problems encountered with two-dimensional measurements in cases of unequal scales are demonstrated and an estimation of the resulting errors is provided. Commonly, the Y axis is reliably calibrated using outside standards like histology or manufacturer data. We show here that intraocular objects like dimensionally stable spherical alginate capsules allow for a two-dimensional calibration of the acquired OCT raw images by establishing a relation between X and Y axis data. For our setup, a correction factor of about 3.3 was determined using both epiretinally and subretinally positioned beads (3.350 ± 0.104 and 3.324 ± 0.083, respectively). Conclusions: In this work, we highlight the distortion-related problems in OCT image analysis induced by unequal X and Y scales. As an exemplary case, we provide data for a two-dimensional in vivo OCT image calibration in mice using intraocular alginate capsules. Our results demonstrate the need for a proper two-dimensional calibration of OCT data, and we believe that equal scaling will certainly improve the efficiency of OCT image analysis. [ABSTRACT FROM AUTHOR]

Published
2015
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25. Elk3 Deficiency Causes Transient Impairment in Post-Natal Retinal Vascular Development and Formation of Tortuous Arteries in Adult Murine Retinae.

Author

Weinl, Christine, Wasylyk, Christine, Garcia Garrido, Marina, Sothilingam, Vithiyanjali, Beck, Susanne C., Riehle, Heidemarie, Stritt, Christine, Roux, Michel J., Seeliger, Mathias W., Wasylyk, Bohdan, and Nordheim, Alfred

Subjects
RETINAL diseases, SERUM response factor, NEOVASCULARIZATION, MYOCARDIN, LABORATORY mice, VASCULAR endothelial growth factors
Abstract

Serum Response Factor (SRF) fulfills essential roles in post-natal retinal angiogenesis and adult neovascularization. These functions have been attributed to the recruitment by SRF of the cofactors Myocardin-Related Transcription Factors MRTF-A and -B, but not the Ternary Complex Factors (TCFs) Elk1 and Elk4. The role of the third TCF, Elk3, remained unknown. We generated a new Elk3 knockout mouse line and showed that Elk3 had specific, non-redundant functions in the retinal vasculature. In Elk3(−/−) mice, post-natal retinal angiogenesis was transiently delayed until P8, after which it proceeded normally. Interestingly, tortuous arteries developed in Elk3(−/−) mice from the age of four weeks, and persisted into late adulthood. Tortuous vessels have been observed in human pathologies, e.g. in ROP and FEVR. These human disorders were linked to altered activities of vascular endothelial growth factor (VEGF) in the affected eyes. However, in Elk3(−/−) mice, we did not observe any changes in VEGF or several other potential confounding factors, including mural cell coverage and blood pressure. Instead, concurrent with the post-natal transient delay of radial outgrowth and the formation of adult tortuous arteries, Elk3-dependent effects on the expression of Angiopoietin/Tie-signalling components were observed. Moreover, in vitro microvessel sprouting and microtube formation from P10 and adult aortic ring explants were reduced. Collectively, these results indicate that Elk3 has distinct roles in maintaining retinal artery integrity. The Elk3 knockout mouse is presented as a new animal model to study retinal artery tortuousity in mice and human patients. [ABSTRACT FROM AUTHOR]

Published
2014
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26. Towards a Quantitative OCT Image Analysis.

Author

Garcia Garrido, Marina, Beck, Susanne C., Mühlfriedel, Regine, Julien, Sylvie, Schraermeyer, Ulrich, and Seeliger, Mathias W.

Subjects
*RETINAL disease diagnosis, *OPTICAL coherence tomography, *QUANTITATIVE chemical analysis, *IMAGE analysis, *FOLLOW-up studies (Medicine), *IMAGE segmentation
Abstract

Background: Optical coherence tomography (OCT) is an invaluable diagnostic tool for the detection and follow-up of retinal pathology in patients and experimental disease models. However, as morphological structures and layering in health as well as their alterations in disease are complex, segmentation procedures have not yet reached a satisfactory level of performance. Therefore, raw images and qualitative data are commonly used in clinical and scientific reports. Here, we assess the value of OCT reflectivity profiles as a basis for a quantitative characterization of the retinal status in a cross-species comparative study. Methods: Spectral-Domain Optical Coherence Tomography (OCT), confocal Scanning-La­ser Ophthalmoscopy (SLO), and Fluorescein Angiography (FA) were performed in mice (Mus musculus), gerbils (Gerbillus perpadillus), and cynomolgus monkeys (Macaca fascicularis) using the Heidelberg Engineering Spectralis system, and additional SLOs and FAs were obtained with the HRA I (same manufacturer). Reflectivity profiles were extracted from 8-bit greyscale OCT images using the ImageJ software package (http://rsb.info.nih.gov/ij/). Results: Reflectivity profiles obtained from OCT scans of all three animal species correlated well with ex vivo histomorphometric data. Each of the retinal layers showed a typical pattern that varied in relative size and degree of reflectivity across species. In general, plexiform layers showed a higher level of reflectivity than nuclear layers. A comparison of reflectivity profiles from specialized retinal regions (e.g. visual streak in gerbils, fovea in non-human primates) with respective regions of human retina revealed multiple similarities. In a model of Retinitis Pigmentosa (RP), the value of reflectivity profiles for the follow-up of therapeutic interventions was demonstrated. Conclusions: OCT reflectivity profiles provide a detailed, quantitative description of retinal layers and structures including specialized retinal regions. Our results highlight the potential of this approach in the long-term follow-up of therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published
2014
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27. Targeted Ablation of Crb1 and Crb2 in Retinal Progenitor Cells Mimics Leber Congenital Amaurosis.

Author

Pellissier, Lucie P., Alves, Celso Henrique, Quinn, Peter M., Vos, Rogier M., Tanimoto, Naoyuki, Lundvig, Ditte M. S., Dudok, Jacobus J., Hooibrink, Berend, Richard, Fabrice, Beck, Susanne C., Huber, Gesine, Sothilingam, Vithiyanjali, Garcia Garrido, Marina, Le Bivic, André, Seeliger, Mathias W., and Wijnholds, Jan

Subjects
PROGENITOR cells, STEM cell research, CELL proliferation, PHOTORECEPTORS, SENSORY receptors
Abstract

Development in the central nervous system is highly dependent on the regulation of the switch from progenitor cell proliferation to differentiation, but the molecular and cellular events controlling this process remain poorly understood. Here, we report that ablation of Crb1 and Crb2 genes results in severe impairment of retinal function, abnormal lamination and thickening of the retina mimicking human Leber congenital amaurosis due to loss of CRB1 function. We show that the levels of CRB1 and CRB2 proteins are crucial for mouse retinal development, as they restrain the proliferation of retinal progenitor cells. The lack of these apical proteins results in altered cell cycle progression and increased number of mitotic cells leading to an increased number of late-born cell types such as rod photoreceptors, bipolar and Müller glia cells in postmitotic retinas. Loss of CRB1 and CRB2 in the retina results in dysregulation of target genes for the Notch1 and YAP/Hippo signaling pathways and increased levels of P120-catenin. Loss of CRB1 and CRB2 result in altered progenitor cell cycle distribution with a decrease in number of late progenitors in G1 and an increase in S and G2/M phase. These findings suggest that CRB1 and CRB2 suppress late progenitor pool expansion by regulating multiple proliferative signaling pathways. [ABSTRACT FROM AUTHOR]

Published
2013
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28. Successful Subretinal Delivery and Monitoring of MicroBeads in Mice.

Author

Fischer, M. Dominik, Goldmann, Tobias, Wallrapp, Christine, Mühlfriedel, Regine, Beck, Susanne C., Stern-Schneider, Gabi, Ueffing, Marius, Wolfrum, Uwe, and Seeliger, Mathias W.

Subjects
STEM cell research, LABORATORY rats, ELECTRON microscopy, SURGERY, THERAPEUTICS, BIOACTIVE compounds
Abstract

Background: To monitor viability of implanted genetically engineered and microencapsulated human stem cells (MicroBeads) in the mouse eye, and to study the impact of the beads and/or xenogenic cells on retinal integrity. Methodology/Principal Findings: MicroBeads were implanted into the subretinal space of SV126 wild type mice using an ab externo approach. Viability of microencapsulated cells was monitored by noninvasive retinal imaging (Spectralis™ HRA+OCT). Retinal integrity was also assessed with retinal imaging and upon the end of the study by light and electron microscopy. The implanted GFP-marked cells encapsulated in subretinal MicroBeads remained viable over a period of up to 4 months. Retinal integrity and viability appeared unaltered apart from the focal damage due to the surgical implantation, GFAP upregulation, and opsin mistargeting in the immediate surrounding tissue. Conclusions/Significance: The accessibility for routine surgery and its immune privileged state make the eye an ideal target for release system implants for therapeutic substances, including neurotrophic and anti-angiogenic compounds or protein based biosimilars. Microencapsulated human stem cells (MicroBeads) promise to overcome limitations inherent with single factor release systems, as they are able to produce physiologic combinations of bioactive compounds. [ABSTRACT FROM AUTHOR]

Published
2013
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29. PALS1 Is Essential for Retinal Pigment Epithelium Structure and Neural Retina Stratification.

Author

Park, Bokyung, Alves, Celso Henrique, Lundvig, Ditte M., Tanimoto, Naoyuki, Beck, Susanne C., Huber, Gesine, Richard, Fabrice, Klooster, Jan, Andlauer, Till F. M., Swindell, Eric C., Jamrich, Milan, Le Bivic, André, Seeliger, Mathias W., and Wijnholds, Jan

Subjects
RHODOPSIN, MEMBRANE proteins, CELL adhesion, EPITHELIUM, HOMOLOGY (Biology), PHOTORECEPTORS, GLIAL fibrillary acidic protein
Abstract

The membrane-associated palmitoylated protein 5 (MPP5 or PALS1) is thought to organize intracellular PALS1-CRB-MUPP1 protein scaffolds in the retina that are involved in maintenance of photoreceptor-Müller glia cell adhesion. In humans, the Crumbs homolog 1 (CRB1) gene is mutated in progressive types of autosomal recessive retinitis pigmentosa and Leber congenital amaurosis. However, there is no clear genotype-phenotype correlation for CRB1 mutations, which suggests that other components of the CRB complex may influence the severity of retinal disease. Therefore, to understand the physiological role of the Crumbs complex proteins, especially PALS1, we generated and analyzed conditional knockdown mice for Pals1. Small irregularly shaped spots were detected throughout the PALS1 deficient retina by confocal scanning laser ophthalmoscopy and spectral domain optical coherence tomography. The electroretinography a- and b-wave was severely attenuated in the aged mutant retinas, suggesting progressive degeneration of photoreceptors. The histological analysis showed abnormal retinal pigment epithelium structure, ectopic photoreceptor nuclei in the subretinal space, an irregular outer limiting membrane, half rosettes of photoreceptors in the outer plexiform layer, and a thinner photoreceptor synaptic layer suggesting improper photoreceptor cell layering during retinal development. The PALS1 deficient retinas showed reduced levels of Crumbs complex proteins adjacent to adherens junctions, upregulation of glial fibrillary acidic protein indicative of gliosis, and persisting programmed cell death after retinal maturation. The phenotype suggests important functions of PALS1 in the retinal pigment epithelium in addition to the neural retina. [ABSTRACT FROM AUTHOR]

Published
2011
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30. Novel Rodent Models for Macular Research.

Author

Huber, Gesine, Heynen, Severin, Imsand, Coni, vom Hagen, Franziska, Muehlfriedel, Regine, Tanimoto, Naoyuki, Yuxi Feng, Hammes, Hans-Peter, Grimm, Christian, Peichl, Leo, Seeliger, Mathias W., and Beck, Susanne C.

Subjects
RETINAL diseases, MACULA lutea, MONGOLIAN gerbil, PHODOPUS campbelli, SCANNING laser ophthalmoscopy, FLUORESCEIN, INDOCYANINE green, RETINAL angiography, LABORATORY rodents
Abstract

Background: Many disabling human retinal disorders involve the central retina, particularly the macula. However, the commonly used rodent models in research, mouse and rat, do not possess a macula. The purpose of this study was to identify small laboratory rodents with a significant central region as potential new models for macular research. Methodology/Principal Findings: Gerbillus perpallidus, Meriones unguiculatus and Phodopus campbelli, laboratory rodents less commonly used in retinal research, were subjected to confocal scanning laser ophthalmoscopy (cSLO), fluorescein and indocyanine green angiography, and spectral-domain optical coherence tomography (SD-OCT) using standard equipment (Heidelberg Engineering HRA1 and Spectralis™) adapted to small rodent eyes. The existence of a visual streak-like pattern was assessed on the basis of vascular topography, retinal thickness, and the topography of retinal ganglion cells and cone photoreceptors. All three species examined showed evidence of a significant horizontal streak-like specialization. cSLO angiography and retinal wholemounts revealed that superficial retinal blood vessels typically ramify and narrow into a sparse capillary net at the border of the respective area located dorsal to the optic nerve. Similar to the macular region, there was an absence of larger blood vessels in the streak region. Furthermore, the thickness of the photoreceptor layer and the population density of neurons in the ganglion cell layer were markedly increased in the visual streak region. Conclusions/Significance: The retinal specializations of Gerbillus perpallidus, Meriones unguiculatus and Phodopus campbelli resemble features of the primate macula. Hence, the rodents reported here may serve to study aspects of macular development and diseases like age-related macular degeneration and diabetic macular edema, and the preclinical assessment of therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published
2010
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31. Noninvasive, In Vivo Assessment of Mouse Retinal Structure Using Optical Coherence Tomography.

Author

Fischer, M. Dominik, Huber, Gesine, Beck, Susanne C., Tanimoto, Naoyuki, Muehlfriedel, Regine, Fahl, Edda, Grimm, Christian, Wenzel, Andreas, Remé, Charlotte E., Pavert, Serge A. van de, Wijnholds, Jan, Pacal, Marek, Bremner, Rod, and Seeliger, Mathias W.

Subjects
PREVENTIVE medicine, VISUAL pigments, VITAMIN A, TISSUES, MEDICAL radiography, TOMOGRAPHY, BODY fluid disorders, PHOTOBIOLOGY, RETINA cancer, CILIA & ciliary motion
Abstract

Background: Optical coherence tomography (OCT) is a novel method of retinal in vivo imaging. In this study, we assessed the potential of OCT to yield histology-analogue sections in mouse models of retinal degeneration. Methodology/Principal Findings: We achieved to adapt a commercial 3rd generation OCT system to obtain and quantify highresolution morphological sections of the mouse retina which so far required in vitro histology. OCT and histology were compared in models with developmental defects, light damage, and inherited retinal degenerations. In conditional knockout mice deficient in retinal retinoblastoma protein Rb, the gradient of Cre expression from center to periphery, leading to a gradual reduction of retinal thickness, was clearly visible and well topographically quantifiable. In Nrl knockout mice, the layer involvement in the formation of rosette-like structures was similarly clear as in histology. OCT examination of focal light damage, well demarcated by the autofluorescence pattern, revealed a practically complete loss of photoreceptors with preservation of inner retinal layers, but also more subtle changes like edema formation. In Crb1 knockout mice (a model for Leber's congenital amaurosis), retinal vessels slipping through the outer nuclear layer towards the retinal pigment epithelium (RPE) due to the lack of adhesion in the subapical region of the photoreceptor inner segments could be well identified. Conclusions/Significance: We found that with the OCT we were able to detect and analyze a wide range of mouse retinal pathology, and the results compared well to histological sections. In addition, the technique allows to follow individual animals over time, thereby reducing the numbers of study animals needed, and to assess dynamic processes like edema formation. The results clearly indicate that OCT has the potential to revolutionize the future design of respective short- and long-term studies, as well as the preclinical assessment of therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published
2009
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32. A Portable Albumin Binder from a DNA-Encoded Chemical Library.

Author

Dumelin, Christoph E., Trüssel, Sabrina, Buller, Fabian, Trachsel, Eveline, Bootz, Frank, Zhang, Yixin, Mannocci, Luca, Beck, Susanne C., Drumea-Mirancea, Mihaela, Seeliger, Mathias W., Baltes, Christof, Müggler, Thomas, Kranz, Felicitas, Rudin, Markus, Melkko, Samu, Scheuermann, Jörg, and Neri, Dario

Published
2008
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33. Uptake and nuclear transport of Neisseria lgA1 protease-associated α-proteins in human cells.

Author

Pohlner, Johannes, Langenberg, Uwe, Wölk, Uwe, Beck, Susanne C., and Meyer, Thomas F.

Subjects
NEISSERIA, PROTEOLYTIC enzymes, PROTEINS, CELLS, NEISSERIACEAE
Abstract

Pathogenic Neisseria species, the causative agents of gonorrhoea and bacterial meningitis, encode a family of polymorphic exo-proteins which are autoproteolytically processed into several distinct extracellular components, including an lgA1 protease and an α-protein. lgA1 protease, a putative virulence determinant, is a sequence-specific endopeptidase known to cleave human lgA1, but additional target proteins have been postulated. The physical linkage of lgA1 protease and α-protein suggests a functional relationship of both precursor components. Previous work has shown that α-protein is essential neither for extracellular transport nor for the proteolytic activity of lgA1 protease. Intriguingly, α-proteins carry amino acid sequences reminiscent of nuclear location signals of viral and eukaryotic proteins. Here we demonstrate the functionality of these nuclear location signal sequences in transfected eukaryotic cells. Chimeric α-proteins show nuclear transport and selectively associate with nucleolar structures. More importantly, native purified α-proteins are capable of entering certain human primary cells from the exterior via an endocytotic route and accumulate in the nuclei. The neisserial α-proteins share several features with eukaryotic transcription factors, such as the formation of dimers via a heptad repeat sequence. We propose a role for α-proteins in the regulation of host-cell functions. As the α-proteins are covalently connected with lgA1 protease they may also serve as carriers for the lgA1 protease into human cells where additional proteolytic targets may exist. Neisseria meningitidis, which locally colonizes the nasopharyngeal mucosa of many human individuals without apparently causing symptoms, secretes this nucleus-targeted factor in large quantities. [ABSTRACT FROM AUTHOR]

Published
1995
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34. Targeting CSF1R Alone or in Combination with PD1 in Experimental Glioma.

Author

Przystal, Justyna M., Becker, Hannes, Canjuga, Denis, Tsiami, Foteini, Anderle, Nicole, Keller, Anna-Lena, Pohl, Anja, Ries, Carola H., Schmittnaegel, Martina, Korinetska, Nataliya, Koch, Marilin, Schittenhelm, Jens, Tatagiba, Marcos, Schmees, Christian, Beck, Susanne C., Tabatabai, Ghazaleh, Kögel, Donat, Herold-Mende, Christel, Linder, Benedikt, and Kruyt, Frank A.E.

Subjects
BIOLOGICAL models, IN vivo studies, COLONY-stimulating factors (Physiology), ANIMAL experimentation, GLIOMAS, ANTINEOPLASTIC agents, MEMBRANE proteins, CELL lines, IMMUNOTHERAPY, MICE, PHARMACODYNAMICS
Abstract

Simple Summary: Glioblastomas are incurable tumors of the central nervous system. Currently, treatment strategies combine neurosurgical intervention, radiation therapy, and chemotherapy. Yet, clinical experience shows that tumors acquire escape mechanisms. Furthermore, the tumor-associated microenvironment, including macrophages expressing the receptor CSF1R, promote and nourish tumor cells. The so-called PD1/PDL1 axis is a major reason why tumors can grow with a "magic hat"; i.e., unrecognized from the immune system. The aim of our study was to assess treatment strategies that target macrophages in the microenvironment by blocking CSF1R alone or in combination with PD1 blockade. Using an immune competent mouse model and an ex vivo microtumor model using freshly resected glioblastoma material, we observed prolonged survival of treated mice and an improved "attack" of the immune system. We conclude that targeting CSF1R is a promising strategy that should be explored in clinical trials, potentially in combination with PD1 blockade. Glioblastoma is an aggressive primary tumor of the central nervous system. Targeting the immunosuppressive glioblastoma-associated microenvironment is an interesting therapeutic approach. Tumor-associated macrophages represent an abundant population of tumor-infiltrating host cells with tumor-promoting features. The colony stimulating factor-1/ colony stimulating factor-1 receptor (CSF-1/CSF1R) axis plays an important role for macrophage differentiation and survival. We thus aimed at investigating the antiglioma activity of CSF1R inhibition alone or in combination with blockade of programmed death (PD) 1. We investigated combination treatments of anti-CSF1R alone or in combination with anti-PD1 antibodies in an orthotopic syngeneic glioma mouse model, evaluated post-treatment effects and assessed treatment-induced cytotoxicity in a coculture model of patient-derived microtumors (PDM) and autologous tumor-infiltrating lymphocytes (TILs) ex vivo. Anti-CSF1R monotherapy increased the latency until the onset of neurological symptoms. Combinations of anti-CSF1R and anti-PD1 antibodies led to longterm survivors in vivo. Furthermore, we observed treatment-induced cytotoxicity of combined anti-CSF1R and anti-PD1 treatment in the PDM/TILs cocultures ex vivo. Our results identify CSF1R as a promising therapeutic target for glioblastoma, potentially in combination with PD1 inhibition. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Vax2 regulates retinoic acid distribution and cone opsin expression in the vertebrate eye.

Author

Alfanoi, Giovanna, Conte, Van, Caramico, Tiziana, Avellino, Raffaella, Arnò, Benedetta, Pizzo, Maria Teresa, Tanimoto, Naoyuki, Beck, Susanne C., Huber, Gesine, Dollé, Pascal, Seeliger, Mathias W., and Banfi, Sandro

Subjects
VERTEBRATES, TRETINOIN
Abstract

An abstract of the article "Vax2 regulates retinoic acid distribution and cone opsin expression in the vertebrate eye," by Giovanna Alfano and colleagues is presented.

Published
2011
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37. Relevance of Exocytotic Glutamate Release from Retinal Glia

Author

Slezak, Michal, Grosche, Antje, Niemiec, Aurore, Tanimoto, Naoyuki, Pannicke, Thomas, Münch, Thomas A., Crocker, Britni, Isope, Philippe, Härtig, Wolfgang, Beck, Susanne C., Huber, Gesine, Ferracci, Geraldine, Perraut, Martine, Reber, Michael, Miehe, Monique, Demais, Valérie, Lévêque, Christian, Metzger, Daniel, Szklarczyk, Klaudia, and Przewlocki, Ryszard

Subjects
*EXOCYTOSIS, *GLUTAMATE receptors, *ASTROCYTES, *NEURAL development, *RECOMBINASES, *NEURAL transmission, *LABORATORY mice
Abstract

Summary: Glial cells release molecules that influence brain development, function, and disease. Calcium-dependent exocytosis has been proposed as potential release mechanism in astroglia, but the physiological relevance of “gliotransmission” in vivo remains controversial. We focused on the impact of glial exocytosis on sensory transduction in the retina. To this end, we generated transgenic mice to block exocytosis by Cre recombinase-dependent expression of the clostridial botulinum neurotoxin serotype B light chain, which cleaves vesicle-associated membrane protein 1-3. Ubiquitous and neuronal toxin expression caused perinatal lethality and a reduction of synaptic transmission thus validating transgene function. Toxin expression in Müller cells inhibited vesicular glutamate release and impaired glial volume regulation but left retinal histology and visual processing unaffected. Our model to study gliotransmission in vivo reveals specific functions of exocytotic glutamate release in retinal glia. [ABSTRACT FROM AUTHOR]

Published
2012
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38. Restoration of Cone Vision in the CNGA3−/− Mouse Model of Congenital Complete Lack of Cone Photoreceptor Function.

Author

Michalakis, Stylianos, Mühlfriedel, Regine, Tanimoto, Naoyuki, Krishnamoorthy, Vidhyasankar, Koch, Susanne, Fischer, M. Dominik, Becirovic, Elvir, Lin Bai, Huber, Gesine, Beck, Susanne C., Fahl, Edda, Büning, Hildegard, Paquet-Durand, François, Xiangang Zong, Gollisch, Tim, Biel, Martin, and Seeliger, Mathias W.

Subjects
*PHOTORECEPTORS, *COLOR blindness, *VISION disorders, *GENE therapy, *CYCLIC nucleotides, *ANIMAL models in research
Abstract

Congenital absence of cone photoreceptor function is associated with strongly impaired daylight vision and loss of color discrimination in human achromatopsia. Here, we introduce viral gene replacement therapy as a potential treatment for this disease in the CNGA3−/− mouse model. We show that such therapy can restore cone-specific visual processing in the central nervous system even if cone photoreceptors had been nonfunctional from birth. The restoration of cone vision was assessed at different stages along the visual pathway. Treated CNGA3−/− mice were able to generate cone photoreceptor responses and to transfer these signals to bipolar cells. In support, we found morphologically that treated cones expressed regular cyclic nucleotide-gated (CNG) channel complexes and opsins in outer segments, which previously they did not. Moreover, expression of CNGA3 normalized cyclic guanosine monophosphate (cGMP) levels in cones, delayed cone cell death and reduced the inflammatory response of Müller glia cells that is typical of retinal degenerations. Furthermore, ganglion cells from treated, but not from untreated, CNGA3−/− mice displayed cone-driven, light-evoked, spiking activity, indicating that signals generated in the outer retina are transmitted to the brain. Finally, we demonstrate that this newly acquired sensory information was translated into cone-mediated, vision-guided behavior. [ABSTRACT FROM AUTHOR]

Published
2010
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39. Cystoid edema, neovascularization and inflammatory processes in the murine Norrin-deficient retina.

Author

Beck SC, Karlstetter M, Garcia Garrido M, Feng Y, Dannhausen K, Mühlfriedel R, Sothilingam V, Seebauer B, Berger W, Hammes HP, Seeliger MW, and Langmann T

Subjects
Animals, Blood-Retinal Barrier metabolism, Blood-Retinal Barrier pathology, Disease Models, Animal, Humans, Inflammation metabolism, Macular Edema metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Neovascularization, Pathologic metabolism, Retina metabolism, Retinal Degeneration metabolism, Retinal Degeneration pathology, Retinal Vessels metabolism, Retinal Vessels pathology, Visual Acuity physiology, Eye Proteins metabolism, Inflammation pathology, Macular Edema pathology, Neovascularization, Pathologic pathology, Nerve Tissue Proteins metabolism, Retina pathology
Abstract

Mutations in the Norrin (NDP) gene cause severe developmental blood vessel defects in the retina leading to congenital blindness. In the retina of Ndph-knockout mice only the superficial capillary network develops. Here, a detailed characterization of this mouse model at late stages of the disease using in vivo retinal imaging revealed cystoid structures that closely resemble the ovoid cysts in the inner nuclear layer of the human retina with cystoid macular edema (CME). In human CME an involvement of Müller glia cells is hypothesized. In Ndph-knockout retinae we could demonstrate that activated Müller cells were located around and within these cystoid spaces. In addition, we observed extensive activation of retinal microglia and development of neovascularization. Furthermore, ex vivo analyses detected extravasation of monocytic cells suggesting a breakdown of the blood retina barrier. Thus, we could demonstrate that also in the developmental retinal vascular pathology present in the Ndph-knockout mouse inflammatory processes are active and may contribute to further retinal degeneration. This observation delivers a new perspective for curative treatments of retinal vasculopathies. Modulation of inflammatory responses might reduce the symptoms and improve visual acuity in these diseases.

Published
2018
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40. Murine Autoimmune Optic Neuritis Is Not Phenotypically Altered by the Retinal Degeneration 8 Mutation.

Author

Stojic A, Fairless R, Beck SC, Sothilingam V, Weissgerber P, Wissenbach U, Gimmy V, Seeliger MW, Flockerzi V, Diem R, and Williams SK

Subjects
Animals, DNA, DNA Mutational Analysis, Disease Models, Animal, Electroretinography, Evoked Potentials, Visual physiology, Female, Genotype, Immunohistochemistry, In Situ Nick-End Labeling, Mice, Mice, Inbred C57BL, Mice, Knockout, Nerve Tissue Proteins metabolism, Optic Nerve physiopathology, Optic Neuritis diagnosis, Optic Neuritis immunology, Phenotype, Polymerase Chain Reaction, Retinal Ganglion Cells metabolism, Tomography, Optical Coherence methods, Autoimmune Diseases, Mutation, Nerve Tissue Proteins genetics, Optic Nerve pathology, Optic Neuritis genetics, Retinal Ganglion Cells pathology
Abstract

Purpose: To investigate whether the presence of the retinal degeneration 8 (rd8) mutation in C57BL/6 mice alters the phenotype of autoimmune optic neuritis (AON)., Methods: C57BL/6J and C57BL/6N mice were genotyped for the rd8 mutation and fundus analyses and examination of retinal layer morphology were performed in vivo by scanning laser ophthalmoscopy and optical coherence tomography. Visual function was assessed by recording electroretinographs, and visual evoked potentials and retinae and optic nerves were assessed histopathologically. Retinal ganglion cell numbers were determined by retrograde labeling with fluorogold. Mice were then immunized with myelin oligodendrocyte glycoprotein 35-55 to induce AON before assessment of retinal ganglion cell degeneration, inflammatory infiltration of retinae and optic nerves, and demyelination. Furthermore, visual function was assessed by visual evoked potentials., Results: All C57BL/6N mice were homozygous for the mutation (Crb1rd8/rd8) and had pathology typical of the rd8 mutation; however, this was not seen in the C57BL/6J (Crb1wt/wt) mice. Following induction of AON, no differences were seen between the Crb1rd8/rd8 and Crb1wt/wt mice regarding disease parameters nor regarding inner retinal degeneration either in the retina as a whole or in the inferior nasal quadrant., Conclusions: The presence of the rd8 mutation in C57BL/6 mice does not affect the course of AON and should not provide a confounding factor in the interpretation of experimental results obtained in this model. However, it could be dangerous in other models of ocular pathology.

Published
2017
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41. Influence of the β2-Subunit of L-Type Voltage-Gated Cav Channels on the Structural and Functional Development of Photoreceptor Ribbon Synapses.

Author

Katiyar R, Weissgerber P, Roth E, Dörr J, Sothilingam V, Garcia Garrido M, Beck SC, Seeliger MW, Beck A, Schmitz F, and Flockerzi V

Subjects
Animals, Blotting, Western, Electroretinography, Female, Immunohistochemistry, Male, Mice, Mice, Transgenic, Microscopy, Electron, Transmission, Presynaptic Terminals metabolism, Presynaptic Terminals ultrastructure, Retinal Cone Photoreceptor Cells ultrastructure, Retinal Rod Photoreceptor Cells ultrastructure, Synapses ultrastructure, Synaptic Transmission, Calcium Channels, L-Type metabolism, Retinal Cone Photoreceptor Cells metabolism, Retinal Rod Photoreceptor Cells metabolism, Synapses metabolism
Abstract

Purpose: The cacnb2 gene encodes the β2 subunit (Cavβ2) of voltage-gated Ca2+ channels in photoreceptors, and its targeted deletion in mice has previously been shown to cause altered retinal morphology and synaptic transmission. The purpose of this study was to provide a detailed morphologic study combined with experiments on the altered functions of photoreceptor ribbon synapses lacking Cavβ2., Methods: A cacnb2-deficient mouse strain was generated and deletion of the Cavβ2 in the retina documented by biochemical and immunhistochemical approaches. Ultrastructural changes of photoreceptor ribbon synapses were examined by electronmicroscopy and functional implications of the lack of Cavβ2 studied by depolarization-induced Ca2+ influx into isolated photoreceptor cells and electroretinography., Results: Voltage-gated Ca2+ influx into rod photoreceptors lacking Cavβ2 was abolished and the typical rod ribbon-type active zones were absent in Cavβ2-deficient retinas. The active zone and the architecture of the presynaptic terminals were severely altered in rod synapses. Cone photoreceptor and the bipolar cell ribbon synapses were largely spared from ultrastructural changes although peanut agglutinin (PNA) labelling and photopic ERG analyses demonstrated that also cone pathways were disturbed in Cavβ2-deficient retinas., Conclusions: The presence of the Cavβ2 is essential for the structural integrity and function of the rod photoreceptor synapse. The Cavβ2 is less essential for the morphology of cone and bipolar cell ribbon synapses, although the impaired photopic electroretinogram suggests a functional alteration also of the cone-mediated signaling in Cavβ2-deficient retinas.

Published
2015
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42. VEGF Mediates ApoE4-Induced Neovascularization and Synaptic Pathology in the Choroid and Retina.

Author

Antes R, Salomon-Zimri S, Beck SC, Garcia Garrido M, Livnat T, Maharshak I, Kadar T, Seeliger M, Weinberger D, and Michaelson DM

Subjects
Alzheimer Disease, Animals, Apolipoprotein E3 genetics, Apolipoprotein E3 metabolism, Apolipoprotein E4 genetics, Astrocytes pathology, Astrocytes physiology, Choroid blood supply, Choroid physiopathology, Choroidal Neovascularization metabolism, Choroidal Neovascularization pathology, Disease Models, Animal, Ependymoglial Cells pathology, Ependymoglial Cells physiology, Glial Fibrillary Acidic Protein metabolism, Mice, Inbred C57BL, Mice, Transgenic, Retina physiopathology, Retinal Neovascularization metabolism, Retinal Neovascularization pathology, Retinal Vessels pathology, Retinal Vessels physiopathology, Synapses physiology, Apolipoprotein E4 metabolism, Choroid pathology, Retina pathology, Synapses pathology, Vascular Endothelial Growth Factor A metabolism
Abstract

Apolipoprotein E4 (apoE4), the most prevalent genetic risk factor for Alzheimer's disease (AD), is associated with neuronal and vascular impairments. Recent findings suggest that retina of apoE4 mice have synaptic and functional impairments. We presently investigated the effects of apoE4 on retinal and choroidal vasculature and the possible role of VEGF in these effects. There were no histological differences between the retinal and choroidal vasculatures of naïve apoE3 and apoE4 mice. In contrast, laserdriven choroidal injury induced higher levels of choroidal neovascularization (CNV) in apoE4 than in apoE3 mice. These effects were associated with an inflammatory response and with activation of the Muller cells and asrocytic markers gluthatione synthetase and GFAP, all of which were more pronounced in the apoE4 mice. CNV also induced a transient increase in the levels of the synaptic markers synaptophysin and PSD95 which were however similar in the apoE4 and apoE3 naive mice. Retinal and choroidal VEGF and apoE levels were lower in naïve apoE4 than in corresponding apoE3 mice. In contrast, VEGF and apoE levels rose more pronouncedly following laser injury in the apoE4 than in apoE3 mice. Taken together, these findings suggest that the apoE4-induced retinal impairments, under basal conditions, may be related to reduced VEGF levels in the eyes of these mice. The hyper-neovascularization in the apoE4 mice might be driven by increased inflammation and the associated surge in VEGF following injury. Retinal and choroidal VEGF and apoE levels were lower in naïve apoE4 than in corresponding apoE3 mice. In contrast, VEGF and apoE levels rose more pronouncedly following laser injury in the apoE4 than in apoE3 mice. Taken together, these findings suggest that the apoE4-induced retinal impairments, under basal conditions, may be related to reduced VEGF levels in the eyes of these mice. The hyper-neovascularization in the apoE4 mice might be driven by increased inflammation and the associated surge in VEGF following injury.

Published
2015
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43. Gene therapy restores vision and delays degeneration in the CNGB1(-/-) mouse model of retinitis pigmentosa.

Author

Michalakis S, Koch S, Sothilingam V, Garcia Garrido M, Tanimoto N, Schulze E, Becirovic E, Koch F, Seide C, Beck SC, Seeliger MW, Mühlfriedel R, and Biel M

Subjects
Animals, Disease Models, Animal, Electroretinography, Maze Learning, Mice, Mice, Knockout, Retinal Degeneration genetics, Retinitis Pigmentosa genetics, Vision, Ocular physiology, Cyclic Nucleotide-Gated Cation Channels genetics, Dependovirus genetics, Nerve Tissue Proteins genetics, Recovery of Function genetics, Retinal Degeneration therapy, Retinal Rod Photoreceptor Cells physiology, Retinitis Pigmentosa therapy
Abstract

Retinitis pigmentosa (RP) is a severe retinal disease characterized by a progressive degeneration of rod photoreceptors and a secondary loss of cone function. Here, we used CNGB1-deficient (CNGB1(-/-)) mice, a mouse model for autosomal recessive RP, to evaluate the efficacy of adeno-associated virus (AAV) vector-mediated gene therapy for the treatment of RP. The treatment restored normal expression of rod CNG channels and rod-driven light responses in the CNGB1(-/-) retina. This led to a substantial delay of retinal degeneration and long-term preservation of retinal morphology. Finally, treated CNGB1(-/-) mice performed significantly better than untreated mice in a rod-dependent vision-guided behavior test. In summary, this study holds promise for the treatment of rod channelopathy-associated retinitis pigmentosa by AAV-mediated gene replacement.

Published
2014
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44. Targeted ablation of CRB1 and CRB2 in retinal progenitor cells mimics Leber congenital amaurosis.

Author

Pellissier LP, Alves CH, Quinn PM, Vos RM, Tanimoto N, Lundvig DM, Dudok JJ, Hooibrink B, Richard F, Beck SC, Huber G, Sothilingam V, Garcia Garrido M, Le Bivic A, Seeliger MW, and Wijnholds J

Subjects
Animals, Cell Cycle genetics, Cell Differentiation genetics, Cell Proliferation, Central Nervous System growth & development, Central Nervous System pathology, Disease Models, Animal, Gene Expression Regulation, Developmental, Humans, Leber Congenital Amaurosis metabolism, Leber Congenital Amaurosis pathology, Membrane Proteins antagonists & inhibitors, Membrane Proteins genetics, Mice, Mitosis genetics, Nerve Tissue Proteins antagonists & inhibitors, Nerve Tissue Proteins genetics, Retina cytology, Retina metabolism, Retinal Degeneration genetics, Retinal Degeneration pathology, Retinal Rod Photoreceptor Cells metabolism, Retinal Rod Photoreceptor Cells pathology, Stem Cells metabolism, Central Nervous System metabolism, Leber Congenital Amaurosis genetics, Membrane Proteins biosynthesis, Nerve Tissue Proteins biosynthesis, Retina growth & development
Abstract

Development in the central nervous system is highly dependent on the regulation of the switch from progenitor cell proliferation to differentiation, but the molecular and cellular events controlling this process remain poorly understood. Here, we report that ablation of Crb1 and Crb2 genes results in severe impairment of retinal function, abnormal lamination and thickening of the retina mimicking human Leber congenital amaurosis due to loss of CRB1 function. We show that the levels of CRB1 and CRB2 proteins are crucial for mouse retinal development, as they restrain the proliferation of retinal progenitor cells. The lack of these apical proteins results in altered cell cycle progression and increased number of mitotic cells leading to an increased number of late-born cell types such as rod photoreceptors, bipolar and Müller glia cells in postmitotic retinas. Loss of CRB1 and CRB2 in the retina results in dysregulation of target genes for the Notch1 and YAP/Hippo signaling pathways and increased levels of P120-catenin. Loss of CRB1 and CRB2 result in altered progenitor cell cycle distribution with a decrease in number of late progenitors in G1 and an increase in S and G2/M phase. These findings suggest that CRB1 and CRB2 suppress late progenitor pool expansion by regulating multiple proliferative signaling pathways., Competing Interests: The authors have declared that no competing interests exist.

Published
2013
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45. Gene therapy restores missing cone-mediated vision in the CNGA3-/- mouse model of achromatopsia.

Author

Michalakis S, Mühlfriedel R, Tanimoto N, Krishnamoorthy V, Koch S, Fischer MD, Becirovic E, Bai L, Huber G, Beck SC, Fahl E, Büning H, Schmidt J, Zong X, Gollisch T, Biel M, and Seeliger MW

Subjects
Animals, Color Vision genetics, Dependovirus genetics, Electroretinography, HEK293 Cells, Humans, Mice, Recombinant Proteins genetics, Recovery of Function genetics, Retinal Rod Photoreceptor Cells physiology, Color Vision Defects genetics, Color Vision Defects therapy, Cyclic Nucleotide-Gated Cation Channels genetics, Genetic Therapy methods, Retinal Cone Photoreceptor Cells physiology
Published
2012
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46. Degeneration of the mouse retina upon dysregulated activity of serum response factor.

Author

Sandström J, Heiduschka P, Beck SC, Philippar U, Seeliger MW, Schraermeyer U, and Nordheim A

Subjects
Animals, Disease Models, Animal, Electroretinography, Embryonic Stem Cells cytology, Embryonic Stem Cells metabolism, Eosine Yellowish-(YS), Gene Dosage, Gene Expression, Gene Expression Regulation, Developmental, Hematoxylin, Herpes Simplex Virus Protein Vmw65 genetics, Herpes Simplex Virus Protein Vmw65 metabolism, Mice, Mice, Mutant Strains growth & development, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Retina metabolism, Retinal Degeneration pathology, Transfection, Transgenes, Mice, Mutant Strains genetics, Retina pathology, Retinal Degeneration genetics, Serum Response Factor genetics, Serum Response Factor metabolism
Abstract

Purpose: Our aim was to generate and phenotypically characterize a transgenic mouse line expressing a constitutively active variant of the transcription regulatory protein serum response factor (SRF), namely the SRF-VP16 protein. This new mouse strain has been registered under the designation Gt(ROSA)26Sor(tm1(SRF-VP16)Antu). We found phenotypic changes upon ectopic expression of SRF-VP16, especially in the mouse retina., Methods: Using homologous recombination, we integrated an SRF-VP16 conditional (i.e., "flox-STOP" repressed) expression transgene into the Rosa26 locus of murine embryonic stem (ES) cells. These engineered ES cells were used to derive the Gt(ROSA)26Sor(tm1(SRF-VP16)Antu) mouse strain. Semiquantitative real-time PCR was used to determine expression of the SRF-VP16 transgene at the mRNA level, both in young (P20 and P30) and adult (six months old) Gt(ROSA)26Sor(tm1(SRF-VP16)Antu) mice. We also investigated the transcript levels of endogenous Srf and several SRF target genes. Retinal function was tested by electroretinography in both young and adult mice. Morphological abnormalities could be visualized by hematoxylin and eosin staining of sectioned, paraffin-embedded eye tissue samples. Scanning-laser ophthalmoscopy was used to investigate retinal vascularization and degeneration in adult mice., Results: We show that the SRF-VP16 mRNA is expressed to a low but significant degree in the retinas of young and adult animals of the Gt(ROSA)26Sor(tm1(SRF-VP16)Antu) mouse strain, even in the absence of Cre-mediated deletion of the "flox-STOP" cassette. In the retinas of these transgenic mice, endogenous Srf displays elevated transcript levels. Ectopic retinal expression of constitutively active SRF-VP16 is correlated with the malfunction of retinal neurons in both heterozygous and homozygous animals of both age groups (P20 and adult). Additionally, mislamination of retinal cell layers and cellular rosette formations are found in retinas of both heterozygous and homozygous animals of young age. In homozygous individuals, however, the cellular rosettes are more widespread over the fundus. At adult age, retinas both from animals that are heterozygous and homozygous for the floxSTOP/SRF-VP16 transgene display severe degeneration, mainly of the photoreceptor cell layer. Wild-type age-matched littermates, however, do not show any degeneration. The severity of the observed effects correlates with dosage of the transgene., Conclusions: This is the first report suggesting an influence of the transcription factor SRF on the development and function of the murine retina. Ectopic SRF-VP16 mRNA expression in the retinas of young animals is correlated with photoreceptor layer mislamination and impaired retinal function. At an advanced age of six months, degenerative processes are detected in SRF-VP16 transgenic retinas accompanied by impaired retinal function. The Gt(ROSA)26Sor(tm1(SRF-VP16)Antu) mouse strain represents a genetic SRF gain-of-function mouse model that will complement the current SRF loss-of-function models. It promises to provide new insight into the hitherto poorly defined role of SRF in retinal development and function, including potential contributions to ophthalmologic disorders. Furthermore, using conditional Cre-mediated activation of SRF-VP16, the described mouse strain will enable assessment of the impact of dysregulated SRF activity on the physiologic functions of various other organs.

Published
2011

47. Vax2 regulates retinoic acid distribution and cone opsin expression in the vertebrate eye.

Author

Alfano G, Conte I, Caramico T, Avellino R, Arnò B, Pizzo MT, Tanimoto N, Beck SC, Huber G, Dollé P, Seeliger MW, and Banfi S

Subjects
Animals, Animals, Genetically Modified, Cytochrome P-450 Enzyme System genetics, Cytochrome P-450 Enzyme System metabolism, Cytochrome P450 Family 26, Female, Gene Expression Profiling, Gene Expression Regulation, Developmental, Homeodomain Proteins genetics, In Situ Hybridization, Male, Mice, Mice, Knockout, Mice, Transgenic, Opsins genetics, Oryzias genetics, Oryzias growth & development, Oryzias metabolism, Pregnancy, Retinal Cone Photoreceptor Cells metabolism, Retinoic Acid 4-Hydroxylase, Rod Opsins genetics, Rod Opsins metabolism, Eye growth & development, Eye metabolism, Homeodomain Proteins metabolism, Opsins metabolism, Tretinoin metabolism
Abstract

Vax2 is an eye-specific homeobox gene, the inactivation of which in mouse leads to alterations in the establishment of a proper dorsoventral eye axis during embryonic development. To dissect the molecular pathways in which Vax2 is involved, we performed a transcriptome analysis of Vax2(-/-) mice throughout the main stages of eye development. We found that some of the enzymes involved in retinoic acid (RA) metabolism in the eye show significant variations of their expression levels in mutant mice. In particular, we detected an expansion of the expression domains of the RA-catabolizing enzymes Cyp26a1 and Cyp26c1, and a downregulation of the RA-synthesizing enzyme Raldh3. These changes determine a significant expansion of the RA-free zone towards the ventral part of the eye. At postnatal stages of eye development, Vax2 inactivation led to alterations of the regional expression of the cone photoreceptor genes Opn1sw (S-Opsin) and Opn1mw (M-Opsin), which were significantly rescued after RA administration. We confirmed the above described alterations of gene expression in the Oryzias latipes (medaka fish) model system using both Vax2 gain- and loss-of-function assays. Finally, a detailed morphological and functional analysis of the adult retina in mutant mice revealed that Vax2 is necessary for intraretinal pathfinding of retinal ganglion cells in mammals. These data demonstrate for the first time that Vax2 is both necessary and sufficient for the control of intraretinal RA metabolism, which in turn contributes to the appropriate expression of cone opsins in the vertebrate eye.

Published
2011
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48. In vivo assessment of retinal vascular wall dimensions.

Author

Fischer MD, Huber G, Feng Y, Tanimoto N, Mühlfriedel R, Beck SC, Tröger E, Kernstock C, Preising MN, Lorenz B, Hammes HP, and Seeliger MW

Subjects
Actins metabolism, Animals, Body Weights and Measures, Coloring Agents, Electroretinography, Fluorescein Angiography, Green Fluorescent Proteins metabolism, Humans, Indocyanine Green, Lasers, Mice, Mice, Inbred C57BL, Mice, Transgenic, Ophthalmoscopy, Retinal Artery metabolism, Retinal Vein metabolism, Tomography, Optical Coherence, Retinal Artery anatomy & histology, Retinal Vein anatomy & histology
Abstract

Purpose: Retinal blood vessel diameter and arteriovenous ratio (AVR) are commonly used diagnostic parameters. Because vascular walls are typically not visible in funduscopy, clinical AVR estimation is based on the lumen rather than the entire vessel diameter. Here the authors used a transgenic mouse model to quantify AVR in vivo based on total vessel dimensions (wall and lumen)., Methods: Confocal scanning laser ophthalmoscopy (cSLO) and indocyanine green angiography of the retinal vasculature were performed in wild-type and transgenic mice expressing green fluorescent protein (GFP) under the transcriptional control of the smooth muscle type α-actin (αSMA) promoter. Spectral-domain-OCT and ERG were performed to control for integrity of retinal structure and function in vivo and histology to demonstrate the location of GFP expression., Results: Native cSLO imaging and angiography yielded only inner vessel diameters similar to those observed through clinical funduscopy. In αSMA-GFP mice, autofluorescence imaging of the GFP-marked vascular walls also allowed the determination of outer vessel diameters. The mean AVR based on either inner diameter (AVR(id) = 0.72 ± 0.08) or outer diameter (AVR(od) = 0.97 ± 0.09) measurements were significantly different (P < 0.01)., Conclusions: Transgenic αSMA-GFP expression in murine vessel wall components allowed quantification of retinal vessel outer diameters in vivo. Although arterioles and venules differ in lumen and vessel wall width, they share a common outer diameter, leading to an AVR(od) close to unity. Because vessel walls are primary targets in common hypertensive and metabolic diseases, αSMA-GFP transgenic mice may prove valuable in the detailed assessment of such disorders in vivo.

Published
2010
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49. In vivo analysis of cone survival in mice.

Author

Beck SC, Schaeferhoff K, Michalakis S, Fischer MD, Huber G, Rieger N, Riess O, Wissinger B, Biel M, Bonin M, Seeliger MW, and Tanimoto N

Subjects
Animals, Carrier Proteins genetics, Carrier Proteins metabolism, Cell Survival physiology, Cone Opsins genetics, Cone Opsins metabolism, Electroretinography, Eye Proteins genetics, Eye Proteins metabolism, Female, Fluorescent Antibody Technique, Indirect, Follow-Up Studies, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Mutant Strains, Mice, Transgenic, Microscopy, Confocal, Retinal Cone Photoreceptor Cells cytology, Retinal Degeneration metabolism, cis-trans-Isomerases, Disease Models, Animal, Ophthalmoscopy, Retinal Cone Photoreceptor Cells physiology, Retinal Degeneration physiopathology
Abstract

Purpose: To identify individual cone photoreceptors in a transgenic mouse line in vivo based on selective expression of green fluorescent protein (GFP) using cSLO (confocal scanning laser ophthalmoscopy) and to use this approach to monitor cone cell fate in mouse models of retinal degeneration., Methods: Transgenic mice expressing GFP under the control of a red-green opsin promoter (RG-GFP mice) were analyzed in vivo with respect to GFP expression in cone cells using cSLO and functional integrity using electroretinography (ERG). Histology was performed to correlate the pattern of GFP expression with light microscopic data. Longitudinal monitoring of cone survival was evaluated in crossbreds of RG-GFP mice with cpfl1 and Rpe65(-/-) mutant mice, respectively., Results: The authors found that RG-GFP transgenic mice had a stable GFP expression that did not interfere with retinal function up to at least 3 months of age. Thus, a longitudinal analysis of cone degeneration in individual RG cpfl1 and RG Rpe65(-/-) cross-bred mice in vivo was successfully performed and demonstrated distinct time frames of cone survival in the particular mouse model., Conclusions: Monitoring GFP expression in cone photoreceptor cells, such as in the RG-GFP mouse, is a promising in vivo approach for the analysis of cone survival in mice.

Published
2010
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50. Structural and functional phenotyping in the cone-specific photoreceptor function loss 1 (cpfl1) mouse mutant - a model of cone dystrophies.

Author

Fischer MD, Tanimoto N, Beck SC, Huber G, Schaeferhoff K, Michalakis S, Riess O, Wissinger B, Biel M, Bonin M, and Seeliger MW

Subjects
Animals, Electroretinography, Green Fluorescent Proteins metabolism, Imaging, Three-Dimensional, Mice, Mice, Mutant Strains, Phenotype, Retina pathology, Retina physiopathology, Retinitis Pigmentosa pathology, Retinitis Pigmentosa physiopathology, Structure-Activity Relationship, Time Factors, Disease Models, Animal, Eye Proteins metabolism, Retinitis Pigmentosa metabolism
Abstract

Purpose: We performed a comprehensive in vivo assessment of retinal morphology and function in cpfl1 (cone photoreceptor function loss 1) mice to better define the disease process in this model of cone dystrophies., Methods: Mice were examined using electroretinography (ERG), confocal scanning laser ophthalmoscopy (cSLO), and spectral domain optical coherence tomography (SD-OCT). Cross-breeding cpfl1 mutants with mice expressing green fluorescent protein (GFP) under control of red-green cone opsin promoter allowed for an in vivo timeline analysis of number and distribution of cone photoreceptors using the autofluorescence (AF) mode of the cSLO., Results: Light-evoked responses of cone origin were practically absent in cpfl1 mice, whereas rod system function appeared normal. In vivo imaging revealed a progressive loss of cone photoreceptors with a major decline between PW4 and PW8, while retinal architecture and layering remained essentially intact., Discussion: While the absence of substantial light-evoked cone responses in the cpfl1 mice is evident from early on, the course of physical cone degeneration is protracted and has a major drop between PW4 and PW8. However, these changes do not lead to significant alterations in retinal architecture, probably due to the relatively low number and wide dissemination of cone photoreceptor cells within the afoveate mouse retina.

Published
2010
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