Quercetin Impairs the Growth of Uveal Melanoma Cells by Interfering with Glucose Uptake and Metabolism.

Monosomy 3 in uveal melanoma (UM) increases the risk of lethal metastases, mainly in the liver, which serves as the major site for the storage of excessive glucose and the metabolization of the dietary flavonoid quercetin. Although primary UMs with monosomy 3 exhibit a higher potential for basal glucose uptake, it remains unknown as to whether glycolytic capacity is altered in such tumors. Herein, we initially analyzed the expression of n = 151 genes involved in glycolysis and its interconnected branch, the "pentose phosphate pathway (PPP)", in the UM cohort of The Cancer Genome Atlas Study and validated the differentially expressed genes in two independent cohorts. We also evaluated the effects of quercetin on the growth, survival, and glucose metabolism of the UM cell line 92.1. The rate-limiting glycolytic enzyme PFKP was overexpressed whereas the ZBTB20 gene (locus: 3q13.31) was downregulated in the patients with metastases in all cohorts. Quercetin was able to impair proliferation, viability, glucose uptake, glycolysis, ATP synthesis, and PPP rate-limiting enzyme activity while increasing oxidative stress. UMs with monosomy 3 display a stronger potential to utilize glucose for the generation of energy and biomass. Quercetin can prevent the growth of UM cells by interfering with glucose metabolism.

Islet Co-Expression of CD133 and ABCB5 in Human Retinoblastoma Specimens.

BACKGROUND: The role of CD133 und ABCB5 is discussed in treatment resistance in several types of cancer. The objective of this study was to evaluate whether CD133+/ABCB5+ colocalization differs in untreated, in beam radiation treated, and in chemotherapy treated retinoblastoma specimens. Additionally, CD133, ABCB5, sphingosine kinase 1, and sphingosine kinase 2 gene expression was analyzed in WERI-RB1 (WERI RB1) and etoposide-resistant WERI RB1 subclones (WERI ETOR). METHODS: Active human untreated retinoblastoma specimens (n = 12), active human retinoblastoma specimens pretreated with beam radiation before enucleation (n = 8), and active human retinoblastoma specimens pretreated with chemotherapy before enucleation (n = 7) were investigated for localization and expression of CD133 and ABCB5 by immunohistochemistry. Only specimens with IIRC D, but not E, were included in this study. Furthermore, WERI RB1 and WERI ETOR cell lines were analyzed for CD133, ABCB5, sphingosine kinase 1, and sphingosine kinase 2 by the real-time polymerase chain reaction (RT-PCR). RESULTS: Immunohistochemical analysis revealed the same amount of CD133+/ABCB5+ colocalization islets in untreated and treated human retinoblastoma specimens. Quantitative RT-PCR analysis showed a statistically significant upregulation of CD133 in WERI ETOR (p = 0.002). No ABCB5 expression was detected in WERI RB1 and WERI ETOR. On the other hand, SPHK1 (p = 0.0027) and SPHK2 (p = 0.017) showed significant downregulation in WERI ETOR compared to WERI RB1. CONCLUSIONS: CD133+/ABCB5+ co-localization islets were noted in untreated and treated human retinoblastoma specimens. Therefore, we assume that CD133+/ABCB5+ islets might play a role in retinoblastoma genesis, but not in retinoblastoma treatment resistance.

A Narrative Review - Therapy Options and Therapy Failure in Retinoblastoma.

Retinoblastoma (RB) management has evolved over the last three decades. Goals of modern RB treatment are first to protect life and prevent metastatic disease, then preservation of the globe and useful vision. With modern treatment protocols and early disease detection success rates can reach up to 100% of disease-free-globe and eye preservation. Treatment of advanced cases remains complex, requiring aggressive chemotherapy or/and external beam radiation. Treatment protocols are extremely diverse and dependent on local resources thus success rates are variable. Here we review narratively current treatment protocols and failure rates based on a PubMed search using keywords of retinoblastoma, retinoblastoma seed, retinoblastoma treatment, enucleation.

Protein Profiling of WERI-RB1 and Etoposide-Resistant WERI-ETOR Reveals New Insights into Topoisomerase Inhibitor Resistance in Retinoblastoma.

Chemotherapy resistance is one of the reasons for eye loss in patients with retinoblastoma (RB). RB chemotherapy resistance has been studied in different cell culture models, such as WERI-RB1. In addition, chemotherapy-resistant RB subclones, such as the etoposide-resistant WERI-ETOR cell line have been established to improve the understanding of chemotherapy resistance in RB. The objective of this study was to characterize cell line models of an etoposide-sensitive WERI-RB1 and its etoposide-resistant subclone, WERI-ETOR, by proteomic analysis. Subsequently, quantitative proteomics data served for correlation analysis with known drug perturbation profiles. Methodically, WERI-RB1 and WERI-ETOR were cultured, and prepared for quantitative mass spectrometry (MS). This was carried out in a data-independent acquisition (DIA) mode. The raw SWATH (sequential window acquisition of all theoretical mass spectra) files were processed using neural networks in a library-free mode along with machine-learning algorithms. Pathway-enrichment analysis was performed using the REACTOME-pathway resource, and correlated to the molecular signature database (MSigDB) hallmark gene set collections for functional annotation. Furthermore, a drug-connectivity analysis using the L1000 database was carried out to associate the mechanism of action (MOA) for different anticancer reagents to WERI-RB1/WERI-ETOR signatures. A total of 4756 proteins were identified across all samples, showing a distinct clustering between the groups. Of these proteins, 64 were significantly altered (q < 0.05 & log2FC |>2|, 22 higher in WERI-ETOR). Pathway analysis revealed the "retinoid metabolism and transport" pathway as an enriched metabolic pathway in WERI-ETOR cells, while the "sphingolipid de novo biosynthesis" pathway was identified in the WERI-RB1 cell line. In addition, this study revealed similar protein signatures of topoisomerase inhibitors in WERI-ETOR cells as well as ATPase inhibitors, acetylcholine receptor antagonists, and vascular endothelial growth factor receptor (VEGFR) inhibitors in the WERI-RB1 cell line. In this study, WERI-RB1 and WERI-ETOR were analyzed as a cell line model for chemotherapy resistance in RB using data-independent MS. Analysis of the global proteome identified activation of "sphingolipid de novo biosynthesis" in WERI-RB1, and revealed future potential treatment options for etoposide resistance in RB.

CXCR4, CXCR5 and CD44 May Be Involved in Homing of Lymphoma Cells into the Eye in a Patient Derived Xenograft Homing Mouse Model for Primary Vitreoretinal Lymphoma.

Background: Primary vitreoretinal lymphoma (PVRL), a rare malignancy of the eye, is strongly related to primary central nervous system lymphoma (PCNSL). We hypothesized that lymphoma cells disseminate to the CNS and eye tissue via distinct homing receptors. The objective of this study was to test expression of CXCR4, CXCR5, CXCR7 and CD44 homing receptors on CD20 positive B-lymphoma cells on enucleated eyes using a PCNSL xenograft mouse model. Methods: We used indirect immunofluorescence double staining for CD20/CXCR4, CD20/CXCR5, CD20/CXCR7 and CD20/CD44 on enucleated eyes of a PCNSL xenograft mouse model with PVRL phenotype (PCNSL group) in comparison to a secondary CNS lymphoma xenograft mouse model (SCNSL group). Lymphoma infiltration was evaluated with an immunoreactive score (IRS). Results: 11/13 paired eyes of the PCNSL but none of the SCNSL group were infiltrated by CD20-positive cells. Particularly the choroid and to a lesser extent the retina of the PCNSL group were infiltrated by CD20+/CXCR4+, CD20+/CXCR5+, few CD20+/CD44+ but no CD20+/CXCR7+ cells. Expression of CXCR4 (p = 0.0205), CXCR5 (p = 0.0004) and CD44 (p < 0.0001) was significantly increased in the PCNSL compared to the SCNSL group. Conclusions: CD20+ PCNSL lymphoma cells infiltrating the eye co-express distinct homing receptors such as CXCR4 and CXCR5 in a PVRL homing mouse model. These receptors may be involved in PVRL homing into the eye.

[Benign Tumors of the Eyelid]. / Benigne Lidtumoren.

Benign tumors of the eyelids are manifold. They can severely impair the anatomical unit of upper and lower eyelid, which basically serves to protect the eyeball. Furthermore, they can induce reduction of visual acuity or cause a subjectively more or less strong aesthetic disturbance of appearance. Patients may visit the ophthalmologist by themselves or referred by a dermatologist or a general practitioner. Therefore, knowledge of the clinical signs and symptoms of benign tumors are mandatory to discriminate against malign tumors or to identify possible associated disease. In this article, the incidence, clinic, risk factors, symptomatology, histopathologic features, and probabilities of malignant transformation and recurrence of the most common benign eyelid tumors are presented. Objective of this article is to illustrate when to do further work-up to rule out systemic disease and when to do biopsy to rule out malignancy. Finally, the publication is giving an outlook on the use of artificial intelligence to diagnose lid tumors in the future.

Primary Vitreoretinal Lymphoma Therapy Monitoring: Significant Vitreous Haze Reduction After Intravitreal Rituximab.

BACKGROUND/AIMS: Intravitreal rituximab is an off-label treatment option for primary vitreoretinal lymphoma (PVRL). The objective of this study was to monitor the therapeutic response and safety profile of intravitreal rituximab in a cohort of PVRL patients. METHODS: In this retrospective, uncontrolled, open label, multicentre study, 20 eyes from 15 consecutive patients diagnosed with PRVL received at least one intravitreal injection of 1mg in 0.1ml rituximab. Biodata of the PVRL patients was recorded as well as visual acuity and vitreous haze score immediately before rituximab intravitreal injection and at follow-up examinations. Intravitreal rituximab safety data was also recorded. Additional rituximab injections were made during control visits on a pro re nata (PRN) regime using increased vitreous haze to indicate recurrence. RESULTS: There was significant vitreous haze reduction (p=0.0002) followed by significant improvement of visual acuity (mean best visual acuity before therapy 0.57 logMAR, after therapy 0.20 logMAR (p=0.0228) during the follow-up time up to 4 years. Only mild ocular side effects were reported. Median follow-up time was 565 days (range, 7-1253 days). CONCLUSION: Intravitreal rituximab therapy shows promising PVRL regression without any severe side effects. Although our clinical data support rituximab as intravitreal therapy in PVRL disease, further study is warranted.

VEGF receptor 2 inhibitor nintedanib completely reverts VEGF-A165-induced disturbances of barriers formed by retinal endothelial cells or long-term cultivated ARPE-19 cells.

Various severe ocular diseases are associated with an elevated intravitreal expression of VEGF-A which increases the permeability of retinal endothelial cells (REC) or retinal pigment epithelial (RPE) cells in vivo and in vitro. Inhibition of VEGF receptor 2 (VEGFR2) is sufficient to completely prevent VEGF-A165-induced dysfunctions of barriers formed by long-term cultivated, immortal human ARPE-19 cells or immortalized bovine retinal endothelial cells (iBREC). Extended exposure to VEGF-A could result in additional activation of other growth factor receptors, potentially promoting synergistic effects of corresponding factors on various cellular processes including angiogenesis. Based on these observations, we investigated whether blocking of VEGFR2 is also sufficient to revert VEGF-A-induced changes of the barriers consisting of iBREC (i.e. inner blood-retina barrier) or ARPE-19 cells (i.e. outer blood-retina barrier) in vitro. Alterations of confluent monolayers' properties induced by treatment with VEGF-A165 for one day followed by addition of small molecule inhibitors of the VEGFR2 were determined by continuous cell index (CI) measurements using the microelectronic biosensor system for cell-based assays xCELLigence. VEGF-A165 induced a long-lasting drop of the otherwise high CI of iBREC accompanied by reduced expression of the tight junction (TJ) protein claudin-1 and subtle changes of the plasma membrane localizations of TJ-protein claudin-5 and of vascular endothelial cadherin. Blocking mainly VEGFR2 with 10 nM nintedanib, 10 nM tivozanib or 500 nM ZM323881 efficiently reverted these changes within one day; higher concentrations of nintedanib or additional inhibition of neuropilin-1 were not superior. Interestingly, the CI of short-term cultivated, confluent ARPE-19 cells slightly increased in the presence of VEGF-A165, but was not changed by nintedanib. In contrast, VEGF-A165 markedly reduced the transepithelial electrical resistance of ARPE-19 cells cultivated on porous membrane inserts for three weeks, which was also accompanied by a significant loss of the then strongly plasma membrane-expressed TJ-protein ZO-1. These alterations were completely reverted within one day by 10 nM nintedanib of which higher concentrations were not superior. None of the inhibitors tested diminished the strong barrier properties of iBREC or long-term cultivated ARPE-19 cells. Taken together, inhibition of VEGFR2 efficiently reverts VEGF-A165-induced barrier disturbances of both cell types forming and regulating the inner and outer blood-retina barrier. As synergistic actions of growth factors seem to play only a minor role in inducing a barrier dysfunction, specific inhibition of VEGFR2 could be an interesting option to treat VEGF-A-induced macular edema without obvious effects on vitality and functions of REC and RPE cells.

Monosomy-3 Alters the Expression Profile of the Glucose Transporters GLUT1-3 in Uveal Melanoma.

Monosomy-3 in uveal melanoma (UM) cells increases the risk of fatal metastases. The gene encoding the low-affinity glucose transporter GLUT2 resides on chromosome 3q26.2. Here, we analyzed the expression of the glucose transporters GLUT1, GLUT2, and GLUT3 with regard to the histological and clinical factors by performing immunohistochemistry on the primary tumors of n = 33 UM patients. UMs with monosomy-3 exhibited a 57% lower immunoreactivity for GLUT2 and a 1.8×-fold higher ratio of GLUT1 to total GLUT1-3. The combined levels of GLUT1-3 proteins were reduced in the irradiated but not the non-irradiated tumors with monosomy-3. GLUT3 expression was stronger in the irradiated samples with disomy-3 versus monosomy-3, but the ratio of the GLUT3 isoform to total GLUT1-3 did not differ with regard to the monosomy-3 status in the irradiated or non-irradiated subgroups. Systemic metastases were associated with the presence of monosomy-3 in the primary and circulating tumor cells as well as a higher GLUT1 ratio. Upregulation of the high-affinity glucose transporter GLUT1 possibly as a compensation for the low-affinity isoform GLUT2 may be enhancing the basal glucose uptake in the UM cells with monosomy-3. Prevention of hyperglycemia might, therefore, be a valuable approach to delay the lethal UM metastases.

Evaluating Retinal and Choroidal Perfusion Changes After Ocular Massage of Healthy Eyes Using Optical Coherence Tomography Angiography.

Background and objectives: Ocular massage (OM) is used as a treatment option for acute retinal artery occlusion, under the assumption that it induces vessel dilatation and enhances perfusion. Since evidence of ocular perfusion alteration due to OM is lacking, we investigate the impact of OM on the hemodynamics of the posterior pole in healthy eyes in a noninvasive fashion by using optical coherence tomography angiography (OCTA). Materials and Methods: A prospective study was conducted on healthy volunteers, each of whom underwent measurements of intraocular pressure (IOP), central macular thickness (CMT), subfoveal choroidal thickness (SFCT), radial peripapillary capillary perfusion (RPCP), superficial capillary plexus perfusion (SCPP), deep capillary plexus perfusion (DCPP), choriocapillaris perfusion (CCP), Sattler's layer perfusion (SLP) and Haller's layer perfusion (HLP) before and after OM. OM was performed for 2 min, consisting of 10-s turns of compression and decompression of the globe. Results: A total of 21 eyes from 21 participants (median age 29) were included. After OM, IOP significantly declined (p < 0.001), while SFCT (p < 0.005), SCPP (p < 0.001), DCPP (p = 0.004) and CCP (p = 0.008) significantly increased. CMT, RPCP, SLP and HLP did not show any significant alteration due to OM. Changes in SCPP correlated positively with changes in CCP and vice versa. Conclusions: OCTA-based analysis in healthy adults following OM demonstrated a significant increase of retinal perfusion values, assumed to be due to failure of autoregulatory mechanisms. These findings may indicate a positive effect of OM as a treatment option for patients with acute retinal artery occlusion.

[Patient-Reported Treatment Satisfaction with Stereotactic Radiotherapy in Neovascular Age-Related Macular Degeneration]. / Patientenzufriedenheit nach stereotaktischer Radiotherapie bei exsudativer altersbedingter Makuladegeneration.

BACKGROUND: Stereotactic radiotherapy (SRT) in conjunction with the common intravitreal injections (IVI) is a new adjuvant approach in neovascular age-related macular degeneration (AMD) patients. The aim of our study was to investigate factors influencing patient satisfaction one year after SRT. METHODS: A questionnaire was administered to 35 AMD patients who had consecutively undergone SRT using the IRay®-device at the Department of Ophthalmology, University of Lübeck. In addition to descriptive statistics, responses were evaluated by correlation analysis. Moreover, subgroup analyses were performed, using a classification of IVI responders (annual injection rate after SRT ≤ 3), visual acuity (VA) responders (VA improvement ≥ 0.2 logMAR) and double responders (annual injection rate after SRT ≤ 3 as well as VA improvement ≥ 0.2 logMAR). RESULTS: The response rate was 86%. With respect to their treatment expectations, twice as many patients hoped to receive less injections instead of a better vision. Those hoping for less injections were significantly more satisfied with their clinical outcome. In addition, IVI-responders were significantly more satisfied than IVI-non-responders, while VA-responders were not, compared to VA-non-responders. CONCLUSIONS: Patient satisfaction seems to depend on patients' comprehension of how SRT affects their disease and what kinds of expectations were set. It is of utmost importance to provide the patients with adequate and comprehensible education and to define realistic goals prior to SRT.

Fc Receptor Inhibition Reduces Susceptibility to Oxidative Stress in Human RPE Cells Treated with Bevacizumab, but not Aflibercept.

BACKGROUND/AIMS: VEGF-A is induced by oxidative stress, and functions as a survival factor for various cell types, including retinal pigment epithelial (RPE) cells. Anti-vascular endothelial growth factor (VEGF) drugs like aflibercept and bevacizumab have shown to be most effective in treating neovascular age-related macular degeneration (AMD), however uptake of the drugs might lead to interference with cell physiology. Herein, we evaluated the significance of the Fc receptor (FcR) within this context and moreover explored the impact of VEGF inhibition under normal conditions as well as under oxidative stress, in terms of potential adverse effects. METHODS: ARPE-19 (human RPE) cells were treated with aflibercept and bevacizumab in presence or absence of H2O2 as oxidative stress stimulus. After 24h cells were evaluated for drug uptake, VEGF-A expression and secretion, levels of intracellular reactive oxygen species (ROS) as well as cell proliferation. Experiments were repeated with cells being pre-incubated with an FcR inhibitor prior to drug application. RESULTS: Both drugs inhibited extracellular levels of VEGF-A and were taken up into the RPE, resulting in significantly reduced intracellular levels of VEGF-A. When oxidative stress was applied, intracellular ROS levels in cells treated with both drugs rose, and cell proliferation was reduced. Prior incubation with the FcR inhibitor lessened the uptake of bevacizumab, but not aflibercept into RPE cells, and simultaneously enhanced cell survival under oxidative stress conditions. CONCLUSIONS: Our results indicate that uptake and accumulation of aflibercept and bevacizumab within RPE cells affect the intracellular VEGF-A metabolism negatively, leading to a biologically relevant reduced cell survival under oxidative stress. The FcR plays a substantial role in the uptake of bevacizumab, but not aflibercept, which allows an enhanced RPE cell survival through FcR blockage in an environment dominated by oxidative stress, as clinically significant for various inflammatory retinal disorders.

Ranibizumab interacts with the VEGF-A/VEGFR-2 signaling pathway in human RPE cells at different levels.

Vascular endothelial growth factor (VEGF) secreted by the retinal pigment epithelium (RPE) plays an important role in ocular homeostasis, but also in diseases, most notably age-related macular degeneration (AMD). To date, anti-VEGF drugs like ranibizumab have been shown to be most effective in treating these pathologic conditions. However, clinical trials suggest that the RPE could degenerate and perish through anti-VEGF treatment. Herein, we evaluated possible pathways and outcomes of the interaction between ranibizumab and human RPE cells (ARPE-19). Results indicate that ranibizumab affects the VEGF-A metabolism in RPE cells from an extra- as well as intracellular site. The drug is taken up into the cells, with the VEGF receptor 2 (VEGFR-2) being involved, and decreases VEGF-A protein levels within the cells as well as extracellularly. Oxidative stress plays a key role in various inflammatory disorders of the eye. Our results suggest that oxidative stress inhibits RPE cell proliferation. This anti-proliferative effect on RPE cells is significantly enhanced through ranibizumab, which does not inhibit RPE cell proliferation substantially in absence of relevant oxidative stress. Therefore, we emphasize that anti-VEGF treatment should be selected carefully in AMD patients with preexistent extensive RPE atrophy.

The effect of disease-modifying antirheumatic drugs on retinal function in the electrophysiological ex vivo model of the isolated perfused vertebrate retina.

BACKGROUND: Disease-modifying antirheumatic drugs (DMARDs) have been suggested in the treatment of inflammatory ophthalmological diseases. The aim of the present study was to investigate the effects of these DMARDs on bovine retinal function. METHODS: Bovine retina preparations were perfused with a standard solution. After recording stable electroretinograms the nutrient solution was substituted by a DMARD medium with varying concentrations of different drugs (etanercept and infliximab) for 30 min. Afterwards b-wave recovery was observed. RESULTS: Significant decreases in the b-wave amplitude (p < 0.05) were found for etanercept 0.5 mg/ml (p = 0.0022). Infliximab 2 mg/ml (p = 0.1276) did not result in any statistically significant b-wave reduction. CONCLUSION: The presented data suggest that infliximab might have the better safety profile than etanercept.