TY - THES A1 - Wobbe, Christina T1 - Hochaufgelöste Mikroskopie mittels strukturierter Beleuchtung zur altersabhängigen Akkumulation autofluoreszierender Granula im retinalen Pigmentepithel des Menschen T1 - High-resolution microscopy using structured illumination for age-dependent accumulation of autofluorescent granules in human retinal pigment epithelium N2 - Die Technik der strukturierten Beleuchtungsmikroskopie (structured illumination microscopy, SIM) ist eine etablierte ultrastrukturelle Aufnahmemethode, die der hochauflösenden Visualisierung intrazellulärer Strukturen dient. In der Ophthalmologie findet diese Art der Bildgebung bisher wenig Anwendung. SIM ermöglicht die histologische Darstellung retinaler Strukturen, wie der Zellen des humanen retinalen Pigmentepithels (RPE). In den Zellen des RPE reichern sich Granula an, die für die Autofluoreszenz-Bildgebung von Bedeutung sind. Anhand der Morphologie und autofluoreszierenden Merkmale lassen sich grundsätzlich drei Granulatypen im RPE unterscheiden: Melanosomen (M), Melanolipofuszin (ML)- und Lipofuszin (L)-Granula. Die Anwendung der SIM ermöglicht die präzise Darstellung und Differenzierung dieser autofluoreszierenden Strukturen, sowie die Bestimmung ihrer Anzahl und Lokalisation. Ziel der Arbeit ist die Darstellung der im humanen RPE lokalisierten Granula mithilfe der SIM. Anhand der unterschiedlichen Autofluoreszenz (AF) der Granula können diese innerhalb des RPE-Zellkörpers klassifiziert, sowie deren Anzahl und Dichte analysiert werden. Diese Analyse wird in Altersgruppen und Retinalokalisationen differenziert. Zudem sind direkte Vergleiche zwischen der Histologie (SIM, ex vivo) und klinischen Aufnahmen (Fundusautofluoreszenz, in vivo) kaum existent. Durch Ermittlung der Gesamt-AF pro Zelle in Korrelation zu der intrazellulären Granuladichte und -verteilung soll eine neue Interpretationsebene ermöglicht werden. Diese Arbeit soll helfen anhand der gewonnenen Daten die Stoffwechselmechanismen der Retina und deren Einfluss auf die Fundusautofluoreszenz (FAF) besser verstehen zu können. Sie soll insbesondere dazu beitragen bestehende und neue klinische FAF-Bildgebungsverfahren zu validieren, die Diagnostik pathologischer Prozesse der Retina zu optimieren und sowohl eine möglichst frühe Erkennung als auch präzise Prognostik zu ermöglichen. Zudem sollen die Daten eine belastbare Basis darstellen, um die mit einem hohen Zeitaufwand verbundene manuelle Zellanalyse einer geschulten künstlichen Intelligenz zu überlassen. Damit könnte der Analyseprozess von Gewebeproben immens beschleunigt werden und in seiner Effizienz maximiert werden. N2 - Structured illumination microscopy (SIM) is an established ultrastructural imaging technique for high-resolution visualization of intracellular structures. So far, this type of imaging has not been used much in ophthalmology. SIM enables the histological visualization of retinal structures, such as the cells of the hu- man retinal pigment epithelium (RPE). Granules accumulate in the cells of the RPE, which are important for autofluorescence imaging. Basically, three types of granules in the RPE can be distinguished on the basis of the morphology and autofluorescent characteristics: Melanosomes (M), Melanolipofuscin (ML) granules and Lipofuscin (L) granules. The use of SIM enables the precise representation and differentiation of these autofluorescent structures, as well as the determination of their number and localization. The aim of this work is to visualize the granules localized in human RPE using SIM. Based on the different autofluorescence (AF) of the granules, they can be classified within the RPE cell body and their number and density can be analyzed. This analysis is differentiated into age groups and retinal localizations. In addition, direct comparisons between histology (SIM, ex vivo) and clinical images (fundus autofluorescence, in vivo) hardly exist. By determining the total AF per cell in correlation to the intracellular granule density and distribution, a new level of interpretation should be made possible. This work will help to understand the metabolic mechanisms of the retina and their influence on fundus autofluorescence (FAF). In particular, it should contribute to validating existing and new clinical FAF imaging methods, optimizing the diagnosis of pathological processes in the retina and enabling both early detection and precise prognosis. In addition, the data should provide a reliable basis for leaving the time-consuming manual cell analysis to a trained artificial intelligence. This could immensely accelerate the analysis process of tissue samples and maximize its efficiency. KW - Netzhaut KW - Retinales Pigmentepithel KW - Autofluoreszenz KW - structured illumination microscopy KW - Retina Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-321490 ER - TY - THES A1 - Willmann, Lukas T1 - Altersabhängige Makuladegeneration - Regeneration des retinalen Pigmentepithels durch Anregung zur Proliferation durch den Transkriptionsfaktor E2F2 T1 - Age-related macular degeneration - regeneration of retinal pigment epithelium by stimulation of proliferation by transcription factor E2F2 N2 - Altersbedingte Makuladegeneration (AMD) ist weltweit die häufigste Ursache von irreversibler Erblindung des alternden Menschen. Mit der anti-VEGF-Behandlung steht für die deutlich seltenere feuchte AMD eine zugelassene Therapie bereit, die deutlich häufigere trockene AMD entzieht sich aktuell jedoch jeglicher Therapie. Ein zentraler Pathomechanismus der AMD ist der progrediente Untergang des retinalen Pigmentepithels (RPE). Die Rarifizierung und letztendlich Atrophie des RPEs führt zum Untergang der funktionellen Einheit aus RPE, Photorezeptoren und Bruch’scher Membran und somit zum irreversiblen Funktionsverlust. Ein möglicher therapeutischer Ansatz, der progredienten Atrophie des RPEs entgegenzuwirken, ist, das prinzipiell post- mitotischen RPE zur Proliferation anzuregen. Grundlage unserer in vitro Untersuchungen ist das ARPE-19 Zellmodell. Um die Proliferation anzuregen wurden die RPE-Zellen mit E2F2, einem Zellzyklus- regulierendem Transkriptionsfaktor, transfiziert. Zunächst wurde ein nicht-proliferatives RPE-Zellmodell mit spontanem Wachstumsarrest etabliert. Innerhalb von zwei Wochen konnte die Ausbildung von Zonulae occludentes als Zeichen der Integrität des adhärenten Zellmonolayers beobachtet werden. Die chemische Transfektion von E2F2 unter einem CMV-Promoter führte zur Überexpression von E2F2-Protein. Der proliferationssteigernde Effekt von E2F2 konnte durch die Proliferationsmarker Cyclin D1 sowie Ki67, dem Anstieg der BrdU-Aufnahme und der nach Transfektion mit E2F2 zunehmenden Gesamtzellzahl nachgewiesen werden. Der Zellzahlerhöhung standen jedoch potentiell qualitative und funktionelle Einbußen entgegen. So zeigten sich nach Behandlung mit E2F2 die Zellviabilität reduziert und die Apoptoserate sowie die Permeabilität des Epithels erhöht. Diese Einschränkungen waren jedoch nur passager bis 7 Tage nach Transfektion sichtbar und reversibel. Unsere Ergebnisse weisen darauf hin, dass diese Defizite nicht durch E2F2 selbst, sondern durch das Transfektionsreagenz PEI bedingt waren. Weitere funktionelle Defizite könnten durch epithelial-mesenchymale Transition (EMT) verursacht werden. Hier zeigte sich durch E2F2 keine De-Differenzierung im Sinne einer typischen EMT-Marker- Expression. Die vorliegende Arbeit zeigt in einem in vitro Zellmodell die Grundlagen eines vielversprechenden Ansatzes zur Therapie der trockenen AMD: Durch Überexpression eines den Zellzyklus regulierenden Gens (hier E2F2) wurde die RPE-Regeneration angeregt. Analog zur schon zugelassenen Gentherapie des RPEs bei RPE65-assoziierten Netzhautdystrophien durch den Transfer von funktionstüchtigem RPE65-Gen mittels Adeno-assoziierten Viren könnte mittels E2F2, übertragen mit einem lentiviralen Verktor, eine Stimulation des RPEs zur Proliferation möglich sein. Entscheidend ist der möglichst gute Struktur- und Funktionserhalt des Photorezeptor-Bruch-Membran-RPE Komplexes. Eine Therapie sollte daher in frühen Krankheitsstadien erfolgen, um die Progression zu fortgeschrittenen Erkrankungsstadien mit irreversiblem Funktionsverlust zu verzögern oder zu verhindern. N2 - Age-related macular degeneration (AMD) is the leading cause of irreversible blindness in the ageing population worldwide. While for wet AMD an approved therapy is available in form of anti-VEGF treatment, the by far more common dry AMD is currently outside the scope of any therapy. A central pathomechanism of AMD is the progressive degeneration of the retinal pigment epithelium (RPE). Rarefication and finally atrophy of the RPE leads to the collapse of the functional unit consisting of RPE, photoreceptors and Bruch’s membrane, resulting in irreversible loss of function. A possible therapeutic strategy to prevent RPE atrophy is to stimulate the post-mitotic RPE to proliferate. The basis of our in vitro investigations is an ARPE-19 cell culture model. To stimulate proliferation, the RPE cells were transfected with E2F2, a cell cycle regulating transcription factor. First, a non-proliferative RPE cell model with spontaneous growth arrest was established. Within two weeks, the formation of zonulae occludentes was observed as a sign of the integrity of the adherent cell monolayer. Chemical transfection of E2F2 under a CMV promoter led to overexpression of E2F2 protein. The proliferation enhancing effect of E2F2 was demonstrated by proliferation markers cyclin D1 and Ki67, the increase in BrdU uptake, and the increase in total cell number after transfection with E2F2. However, the increase in cell proliferation was potentially offset by qualitative and functional losses. After treatment with E2F2, cell viability was reduced, and apoptosis rate and permeability of the epithelium were increased. These shortcomings were only temporarily detectable up to 7 days after transfection and were reversible. Our results suggest that these deficits were not caused by E2F2 itself, but by the transfection reagent PEI. Further functional deficits could be caused by epithelial-mesenchymal transition (EMT). Here, E2F2 did not show any de-differentiation in the form of typical EMT marker expression. The present study shows the basics of a promising approach for the therapy of dry AMD in an in vitro cell model: RPE regeneration was stimulated by overexpression of a gene regulating the cell cycle (here E2F2). Analogous to approved gene therapy of the RPE for RPE65-associated retinal dystrophies through transfer of functional RPE gene by adeno-associated viruses, a lentiviral vector delivering E2F2 could stimulate the RPE to proliferate. It is essential to preserve the structure and function of the photoreceptor-Bruch's membrane-RPE complex. Therapy therefore needs to take place in early stages of the disease to prevent or slow down progression to advanced stages with irreversible loss of function. KW - Netzhaut KW - Senile Makuladegeneration KW - In vitro KW - Regeneration KW - Makuladegeneration KW - E2F2 KW - transcription factor KW - RPE KW - retinal pigment epithelium KW - retina KW - Transkriptionsfaktor Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-291833 ER - TY - JOUR A1 - Waxman, Susannah A1 - Strzalkowska, Alicja A1 - Wang, Chao A1 - Loewen, Ralitsa A1 - Dang, Yalong A1 - Loewen, Nils A. T1 - Tissue-engineered anterior segment eye cultures demonstrate hallmarks of conventional organ culture JF - Graefe’s Archive for Clinical and Experimental Ophthalmology N2 - Background Glaucoma is a blinding disease largely caused by dysregulation of outflow through the trabecular meshwork (TM), resulting in elevated intraocular pressure (IOP). We hypothesized that transplanting TM cells into a decellularized, tissue-engineered anterior segment eye culture could restore the outflow structure and function. Methods Porcine eyes were decellularized with freeze–thaw cycles and perfusion of surfactant. We seeded control scaffolds with CrFK cells transduced with lentiviral vectors to stably express eGFP and compared them to scaffolds seeded with primary TM cells as well as to normal, unaltered eyes. We tracked the repopulation behavior, performed IOP maintenance challenges, and analyzed the histology. Results Transplanted cells localized to the TM and progressively infiltrated the extracellular matrix, reaching a distribution comparable to normal, unaltered eyes. After a perfusion rate challenge to mimic a glaucomatous pressure elevation, transplanted and normal eyes reestablished a normal intraocular pressure (transplanted = 16.5 ± 0.9 mmHg, normal = 16.9 ± 0.9). However, eyes reseeded with eGFP-expressing CrFK cells could not regulate IOP, remaining high and unstable (27.0 ± 6.2 mmHg) instead. Conclusion Tissue-engineered anterior segment scaffolds can serve as readily available, scalable ocular perfusion cultures. This could reduce dependency on scarce donor globes in outflow research and may allow engineering perfusion cultures with specific geno- and phenotypes. KW - ocular anterior segment perfusion culture KW - tissue engineering KW - aqueous humor outflow KW - trabecular meshwork Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-323845 VL - 261 IS - 5 ER - TY - JOUR A1 - Guggenberger, Konstanze V. A1 - Vogt, Marius L. A1 - Song, Jae W. A1 - Weng, Andreas M. A1 - Fröhlich, Matthias A1 - Schmalzing, Marc A1 - Venhoff, Nils A1 - Hillenkamp, Jost A1 - Pham, Mirko A1 - Meckel, Stephan A1 - Bley, Thorsten A. T1 - Intraorbital findings in giant cell arteritis on black blood MRI JF - European Radiology N2 - Objective Blindness is a feared complication of giant cell arteritis (GCA). However, the spectrum of pathologic orbital imaging findings on magnetic resonance imaging (MRI) in GCA is not well understood. In this study, we assess inflammatory changes of intraorbital structures on black blood MRI (BB-MRI) in patients with GCA compared to age-matched controls. Methods In this multicenter case-control study, 106 subjects underwent BB-MRI. Fifty-six patients with clinically or histologically diagnosed GCA and 50 age-matched controls without clinical or laboratory evidence of vasculitis were included. All individuals were imaged on a 3-T MR scanner with a post-contrast compressed-sensing (CS) T1-weighted sampling perfection with application-optimized contrasts using different flip angle evolution (SPACE) BB-MRI sequence. Imaging results were correlated with available clinical symptoms. Results Eighteen of 56 GCA patients (32%) showed inflammatory changes of at least one of the intraorbital structures. The most common finding was enhancement of at least one of the optic nerve sheaths (N = 13, 72%). Vessel wall enhancement of the ophthalmic artery was unilateral in 8 and bilateral in 3 patients. Enhancement of the optic nerve was observed in one patient. There was no significant correlation between imaging features of inflammation and clinically reported orbital symptoms (p = 0.10). None of the age-matched control patients showed any inflammatory changes of intraorbital structures. Conclusions BB-MRI revealed inflammatory findings in the orbits in up to 32% of patients with GCA. Optic nerve sheath enhancement was the most common intraorbital inflammatory change on BB-MRI. MRI findings were independent of clinically reported orbital symptoms. Key Points • Up to 32% of GCA patients shows signs of inflammation of intraorbital structures on BB-MRI. • Enhancement of the optic nerve sheath is the most common intraorbital finding in GCA patients on BB-MRI. • Features of inflammation of intraorbital structures are independent of clinically reported symptoms. KW - giant cell arteritis KW - magnetic resonance imaging KW - orbit KW - ophthalmic artery KW - optic nerve Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-324978 VL - 33 IS - 4 ER - TY - JOUR A1 - Breun, Maria A1 - Flock, Katharina A1 - Feldheim, Jonas A1 - Nattmann, Anja A1 - Monoranu, Camelia M. A1 - Herrmann, Pia A1 - Ernestus, Ralf-Ingo A1 - Löhr, Mario A1 - Hagemann, Carsten A1 - Stein, Ulrike T1 - Metastasis associated in colorectal cancer 1 (MACC1) mRNA expression is enhanced in sporadic vestibular schwannoma and correlates to deafness JF - Cancers N2 - Vestibular schwannoma (VS) are benign cranial nerve sheath tumors of the vestibulocochlear nerve. Their incidence is mostly sporadic, but they can also be associated with NF2-related schwannomatosis (NF2), a hereditary tumor syndrome. Metastasis associated in colon cancer 1 (MACC1) is known to contribute to angiogenesis, cell growth, invasiveness, cell motility and metastasis of solid malignant cancers. In addition, MACC1 may be associated with nonsyndromic hearing impairment. Therefore, we evaluated whether MACC1 may be involved in the pathogenesis of VS. Sporadic VS, recurrent sporadic VS, NF2-associated VS, recurrent NF2-associated VS and healthy vestibular nerves were analyzed for MACC1 mRNA and protein expression by quantitative polymerase chain reaction and immunohistochemistry. MACC1 expression levels were correlated with the patients’ clinical course and symptoms. MACC1 mRNA expression was significantly higher in sporadic VS compared to NF2-associated VS (p < 0.001). The latter expressed similar MACC1 concentrations as healthy vestibular nerves. Recurrent tumors resembled the MACC1 expression of the primary tumors. MACC1 mRNA expression was significantly correlated with deafness in sporadic VS patients (p = 0.034). Therefore, MACC1 might be a new molecular marker involved in VS pathogenesis. KW - vestibular schwannoma KW - metastasis associated in colorectal cancer 1 (MACC1) KW - pathogenesis KW - deafness KW - NF2-related schwannomatosis (NF2) KW - mRNA expression Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-362543 SN - 2072-6694 VL - 15 IS - 16 ER -