Pathognomonic macular ripples are revealed by polarized infrared retinal imaging.

A pathognomonic macular ripple sign has been reported with scanning laser ophthalmoscopy images in patients with foveal hypoplasia, though the optical basis of this sign is presently unknown. Here we present a case series of seven individuals with foveal hypoplasia (based on spectral domain optical coherence tomography). Each patient underwent infrared scanning laser ophthalmoscopy retinal imaging in both eyes, acquired with and without a polarization filter and assessment for a ripple-like effect in the fovea. On imaging, macular ripples were present in all eyes with foveal hypoplasia when using a polarization filter, but not when imaged without the filter. We conclude that the macular ripple sign is an imaging artifact attributable to the unique pattern of phase retardation of the Henle fiber layer in the setting of foveal hypoplasia. By utilizing a polarization filter with retinal photography, this feature can be exploited to promptly identify foveal hypoplasia in settings where OCT is not possible due to nystagmus.

CRB1 maculopathy presenting as fenestrated sheen macular dystrophy with 15-year follow-up.

INTRODUCTION: We present two patients, the proband and the affected sibling, with biallelic CRB1 mutations leading to a macular dystrophy. CASE PRESENTATION: We present two patients, the proband and the affected sibling, with biallelic CRB1 mutations leading to a macular dystrophy. With 15 years of follow-up for the proband, we illustrate the natural history of CRB1 maculopathy based on clinical examination, multimodal imaging, and electrophysiology. In addition, we demonstrate the wide phenotypic spectrum of the condition with the affected sister harboring the same variants but with much milder phenotypic manifestations. CONCLUSION: In addition to a previously described pathogenic variant, Ile167_Gly169del, one pathogenic missense variant in CRB1, Lys801Ter, not previously associated with macular dystrophy, is reported here. While CRB1 mutations have been more commonly described in retinitis pigmentosa (RP) and Leber congenital amaurosis (LCA), we demonstrate that mutations in CRB1 can cause a maculopathy with initial features similar to fenestrated sheen macular dystrophy (FSMD) that later evolves into severe macular atrophy.

Integration of genomics and transcriptomics predicts diabetic retinopathy susceptibility genes.

We determined differential gene expression in response to high glucose in lymphoblastoid cell lines derived from matched individuals with type 1 diabetes with and without retinopathy. Those genes exhibiting the largest difference in glucose response were assessed for association with diabetic retinopathy in a genome-wide association study meta-analysis. Expression quantitative trait loci (eQTLs) of the glucose response genes were tested for association with diabetic retinopathy. We detected an enrichment of the eQTLs from the glucose response genes among small association p-values and identified folliculin (FLCN) as a susceptibility gene for diabetic retinopathy. Expression of FLCN in response to glucose was greater in individuals with diabetic retinopathy. Independent cohorts of individuals with diabetes revealed an association of FLCN eQTLs with diabetic retinopathy. Mendelian randomization confirmed a direct positive effect of increased FLCN expression on retinopathy. Integrating genetic association with gene expression implicated FLCN as a disease gene for diabetic retinopathy.

One of the side effects of diabetes is loss of vision from diabetic retinopathy, which is caused by injury to the light sensing tissue in the eye, the retina. Almost all individuals with diabetes develop diabetic retinopathy to some extent, and it is the leading cause of irreversible vision loss in working-age adults in the United States. How long a person has been living with diabetes, the extent of increased blood sugars and genetics all contribute to the risk and severity of diabetic retinopathy. Unfortunately, virtually no genes associated with diabetic retinopathy have yet been identified. When a gene is activated, it produces messenger molecules known as mRNA that are used by cells as instructions to produce proteins. The analysis of mRNA molecules, as well as genes themselves, can reveal the role of certain genes in disease. The studies of all genes and their associated mRNAs are respectively called genomics and transcriptomics. Genomics reveals what genes are present, while transcriptomics shows how active genes are in different cells. Skol et al. developed methods to study genomics and transcriptomics together to help discover genes that cause diabetic retinopathy. Genes involved in how cells respond to high blood sugar were first identified using cells grown in the lab. By comparing the activity of these genes in people with and without retinopathy the study identified genes associated with an increased risk of retinopathy in diabetes. In people with retinopathy, the activity of the folliculin gene (FLCN) increased more in response to high blood sugar. This was further verified with independent groups of people and using computer models to estimate the effect of different versions of the folliculin gene. The methods used here could be applied to understand complex genetics in other diseases. The results provide new understanding of the effects of diabetes. They may also help in the development of new treatments for diabetic retinopathy, which are likely to improve on the current approach of using laser surgery or injections into the eye.

Simplex Crumbs Homologue 1 Maculopathy Masquerading as Juvenile X-Linked Retinoschisis in Male Patients.

We report two unrelated male patients presenting at a young age with decreased vision from a macular dystrophy due to biallelic CRB1 mutations. In addition to a previously-described pathogenic variant, Ile167_Gly169del, two new pathogenic missense variants in CRB1, Thr745Met, and Cys948Tyr are reported here. While CRB1 mutations have been more commonly described in retinitis pigmentosa (RP) and Leber's congenital amaurosis (LCA), we demonstrate that mutations in CRB1 can cause a maculopathy whose initial features can resemble juvenile X-linked retinoschisis (JXLRS). We show that the accompanying macular edema is responsive to carbonic anhydrase inhibitors. With long-term follow-up for each case, we illustrate the natural history of CRB1 maculopathy based on clinical examination and diagnostic imaging.

Linezolid-induced photoreceptor dysfunction masquerading as autoimmune retinopathy.

PURPOSE: To report a case of linezolid-induced reversible retinopathy. METHODS: Case report with literature review. RESULTS: Clinical examination and imaging are presented over a 7-month interval, from initial presentation to subsequent follow-up (6 months after discontinuation of linezolid). The subject was found to have not only an optic neuropathy but also severe reversible photoreceptor dysfunction as demonstrated by electrophysiologic testing. Upon discontinuation of linezolid, not only did the patient's visual acuity, visual fields, and visual evoked potential significantly improve, but the electroretinogram did as well. CONCLUSIONS: Linezolid has previously been reported to cause a toxic optic neuropathy. Reversible photoreceptor dysfunction on full-field electroretinography has never been reported in conjunction with linezolid toxicity. This novel case suggests that linezolid toxicity should be considered in cases of photoreceptor dysfunction.

Mutations in MERTK are not associated with age-related macular degeneration.

PURPOSE: To assess whether mutations in Mer tyrosine kinase (MERTK) are associated with age-related macular degeneration (AMD). METHODS: An association study using whole-genome sequencing was performed to determine whether rare variants in MERTK are associated with AMD. The data set included 4787 propensity score-matched case-control samples: 2394 AMD cases and 2393 controls. Whole-genome sequencing was performed and variants in MERTK were identified. Combined annotation-dependent depletion (CADD) scores and allele frequencies were calculated for each variant identified in MERTK. Student's t-test was used to assess the mean number of MERTK variants per subject between case and control cohorts (Bonferroni adjusted α = 0.0125). The number of subjects carrying at least one high CADD score loss-of-function or nonsynonymous mutation in each cohort was compared using Fisher's exact test (p < 0.05). RESULTS: No significant difference was found in the mean number of MERTK variants in AMD versus control subjects (p = 0.0502). Additionally, there was no significant difference between cohorts in the number of subjects with at least one high CADD score loss-of-function or nonsynonymous variant (p = 0.15 at CADD > 10 and p = 0.91 at CADD > 20). CONCLUSIONS: The present study provides a meaningfully negative result demonstrating that rare variants in MERTK are not associated with AMD. The study also demonstrates the role of large sample size genetic studies utilizing whole-genome sequencing as a powerful tool that can resolve clinically relevant questions regarding the genetic basis of ophthalmic disease.

A genome-wide association study suggests new evidence for an association of the NADPH Oxidase 4 (NOX4) gene with severe diabetic retinopathy in type 2 diabetes.

PURPOSE: Diabetic retinopathy is the most common eye complication in patients with diabetes. The purpose of this study is to identify genetic factors contributing to severe diabetic retinopathy. METHODS: A genome-wide association approach was applied. In the Genetics of Diabetes Audit and Research in Tayside Scotland (GoDARTS) datasets, cases of severe diabetic retinopathy were defined as type 2 diabetic patients who were ever graded as having severe background retinopathy (Level R3) or proliferative retinopathy (Level R4) in at least one eye according to the Scottish Diabetic Retinopathy Grading Scheme or who were once treated by laser photocoagulation. Controls were diabetic individuals whose longitudinal retinopathy screening records were either normal (Level R0) or only with mild background retinopathy (Level R1) in both eyes. Significant Single Nucleotide Polymorphisms (SNPs) were taken forward for meta-analysis using multiple Caucasian cohorts. RESULTS: Five hundred and sixty cases of type 2 diabetes with severe diabetic retinopathy and 4,106 controls were identified in the GoDARTS cohort. We revealed that rs3913535 in the NADPH Oxidase 4 (NOX4) gene reached a p value of 4.05 × 10-9 . Two nearby SNPs, rs10765219 and rs11018670 also showed promising p values (p values = 7.41 × 10-8 and 1.23 × 10-8 , respectively). In the meta-analysis using multiple Caucasian cohorts (excluding GoDARTS), rs10765219 and rs11018670 showed associations for diabetic retinopathy (p = 0.003 and 0.007, respectively), while the p value of rs3913535 was not significant (p = 0.429). CONCLUSION: This genome-wide association study of severe diabetic retinopathy suggests new evidence for the involvement of the NOX4 gene.

MACULAR DETACHMENT ASSOCIATED WITH ANOMALOUS OPTIC NERVES AND DURAL ECTASIA IN 49, XXXXY SYNDROME.

PURPOSE: To present a case of a patient with XXXXY syndrome, anomalous optic nerves, and dural ectasia in conjunction with macular detachment. METHODS: Case report. RESULTS: A 3-year-old boy with XXXXY chromosomal abnormality presented with bilateral maculopathy. On evaluation, he was found to have anomalous optic disks with serous detachment of the left eye. Magnetic resonance imaging of the brain revealed bilateral optic nerve dural ectasia without evidence of elevated intracranial pressure. CONCLUSION: XXXXY syndrome, like the related condition of Klinefelter syndrome, can manifest with ocular abnormalities. In the present case, the dural ectasia may have facilitated access of cerebrospinal fluid through anomalous optic nerves, resulting in neurosensory detachment.

A novel MERTK mutation causing retinitis pigmentosa.

PURPOSE: Retinitis pigmentosa (RP) is a genetically heterogeneous inherited retinal dystrophy. To date, over 80 genes have been implicated in RP. However, the disease demonstrates significant locus and allelic heterogeneity not entirely captured by current testing platforms. The purpose of the present study was to characterize the underlying mutation in a patient with RP without a molecular diagnosis after initial genetic testing. METHODS: Whole-exome sequencing of the affected proband was performed. Candidate gene mutations were selected based on adherence to expected genetic inheritance pattern and predicted pathogenicity. Sanger sequencing of MERTK was completed on the patient's unaffected mother, affected brother, and unaffected sister to determine genetic phase. RESULTS: Eight sequence variants were identified in the proband in known RP-associated genes. Sequence analysis revealed that the proband was a compound heterozygote with two independent mutations in MERTK, a novel nonsense mutation (c.2179C > T) and a previously reported missense variant (c.2530C > T). The proband's affected brother also had both mutations. Predicted phase was confirmed in unaffected family members. CONCLUSION: Our study identifies a novel nonsense mutation in MERTK in a family with RP and no prior molecular diagnosis. The present study also demonstrates the clinical value of exome sequencing in determining the genetic basis of Mendelian diseases when standard genetic testing is unsuccessful.

PERIPHERAL RETINOPATHY ASSOCIATED WITH APLASTIC ANEMIA.

PURPOSE: To report a case of severe, bilateral, rapidly progressing peripheral retinal nonperfusion associated with underlying aplastic anemia. METHODS: An interventional case report. RESULTS: A 4-year-old girl presented with decreased visual acuity. On clinical examination, she was found to have a RAPD, elevated intraocular pressure, 360° rubeosis, vitreous hemorrhage, severe exudative retinal detachment, and telangiectasia with severe peripheral retinal nonperfusion. Laboratory workup was significant for pancytopenia, and a bone marrow biopsy showed extreme hypocellularity with no malignant cells. The patient was diagnosed with primary aplastic anemia. She developed dramatic progression of retinal nonperfusion in the left eye, as well as in the fellow right eye. This bilateral retinopathy was poorly responsive to aggressive management, which included laser photocoagulation and intravitreal injections of anti-vascular endothelial growth factor medications. CONCLUSION: Asymmetric, bilateral quickly progressing peripheral retinal ischemia, in conjunction with pancytopenia and otherwise negative workup may be related to underlying bone marrow failure and aplastic anemia.

Lymphoblastoid Cell Lines as a Tool to Study Inter-Individual Differences in the Response to Glucose.

BACKGROUND: White blood cells have been shown in animal studies to play a central role in the pathogenesis of diabetic retinopathy. Lymphoblastoid cells are immortalized EBV-transformed primary B-cell leukocytes that have been extensively used as a model for conditions in which white blood cells play a primary role. The purpose of this study was to investigate whether lymphoblastoid cell lines, by retaining many of the key features of primary leukocytes, can be induced with glucose to demonstrate relevant biological responses to those found in diabetic retinopathy. METHODS: Lymphoblastoid cell lines were obtained from twenty-three human subjects. Differences between high and standard glucose conditions were assessed for expression, endothelial adhesion, and reactive oxygen species. RESULTS: Collectively, stimulation of the lymphoblastoid cell lines with high glucose demonstrated corresponding changes on molecular, cellular and functional levels. Lymphoblastoid cell lines up-regulated expression of a panel of genes associated with the leukocyte-mediated inflammation found in diabetic retinopathy that include: a cytokine (IL-1B fold change = 2.11, p-value = 0.02), an enzyme (PKCB fold change = 2.30, p-value = 0.01), transcription factors (NFKB-p50 fold change = 2.05, p-value = 0.01), (NFKB-p65 fold change = 2.82, p-value = 0.003), and an adhesion molecule (CD18 fold change = 2.59, 0.02). Protein expression of CD18 was also increased (p-value = 2.14x10-5). The lymphoblastoid cell lines demonstrated increased adhesiveness to endothelial cells (p = 1.28x10-5). Reactive oxygen species were increased (p = 2.56x10-6). Significant inter-individual variation among the lymphoblastoid cell lines in these responses was evident (F = 18.70, p < 0.0001). CONCLUSIONS: Exposure of lymphoblastoid cell lines derived from different human subjects to high glucose demonstrated differential and heterogeneous gene expression, adhesion, and cellular effects that recapitulated features found in the diabetic state. Lymphoblastoid cells may represent a useful tool to guide an individualized understanding of the development and potential treatment of diabetic complications like retinopathy.

BATTEN DISEASE CAUSED BY A NOVEL MUTATION IN THE PPT1 GENE.

PURPOSE: To report a case of Batten disease due to a previously unreported mutation in PPT1. METHODS: A 9-year-old girl presented with classic clinical findings of Batten Disease. RESULTS: Genetic testing for the mutations in the most common Batten disease gene, CLN3, was negative. Evaluation of a panel of genes known to be implicated in neuronal ceroid lipofuscinoses revealed disease causing mutations in PPT1, one of which was novel. CONCLUSION: Mutations in PPT1 typically cause the infantile form of neuronal ceroid lipofuscinosis. Clinical diagnosis of the juvenile form of neuronal ceroid lipofuscinosis, Batten disease, should still be considered in cases with negative CLN3 genetic testing. Batten disease can occur due to genetic heterogeneity. Testing of other members of the neuronal ceroid lipofuscinosis gene family can lead to confirmation of the correct diagnosis.

Role of FAM18B in diabetic retinopathy.

PURPOSE: Genome-wide association studies have suggested an association between a previously uncharacterized gene, FAM18B, and diabetic retinopathy. This study explores the role of FAM18B in diabetic retinopathy. An improved understanding of FAM18B could yield important insights into the pathogenesis of this sight-threatening complication of diabetes mellitus. METHODS: Postmortem human eyes were examined with immunohistochemistry and immunofluorescence for the presence of FAM18B. Expression of FAM18B in primary human retinal microvascular endothelial cells (HRMECs) exposed to hyperglycemia, vascular endothelial growth factor (VEGF), or advanced glycation end products (AGEs) was determined with quantitative reverse-transcription PCR (qRT-PCR) and/or western blot. The role of FAM18B in regulating human retinal microvascular endothelial cell viability, migration, and endothelial tube formation was determined following RNAi-mediated knockdown of FAM18B. The presence of FAM18B was determined with qRT-PCR in CD34+/VEGFR2+ mononuclear cells isolated from a cohort of 17 diabetic subjects with and without diabetic retinopathy. RESULTS: Immunohistochemistry and immunofluorescence demonstrated the presence of FAM18B in the human retina with prominent vascular staining. Hyperglycemia, VEGF, and AGEs downregulated the expression of FAM18B in HRMECs. RNAi-mediated knockdown of FAM18B in HRMECs contributed to enhanced migration and tube formation as well as exacerbating the hyperglycemia-induced decrease in HRMEC viability. The enhanced migration, tube formation, and decrease in the viability of HRMECs as a result of FAM18B downregulation was reversed with pyrrolidine dithiocarbamate (PDTC), a specific nuclear factor-kappa B (NF-κB) inhibitor. CD34+/VEGFR2+ mononuclear cells from subjects with proliferative diabetic retinopathy demonstrated significantly reduced mRNA expression of FAM18B compared to diabetic subjects without retinopathy. CONCLUSIONS: FAM18B is expressed in the retina. Diabetic culture conditions decrease the expression of FAM18B in HRMECs. The downregulation of FAM18B by siRNA in HRMECs results in enhanced migration and tube formation, but also exacerbates the hyperglycemia-induced decrease in HRMEC viability. The pathogenic changes observed in HRMECs as a result of FAM18B downregulation were reversed with PDTC, a specific NF-κB inhibitor. This study is the first to demonstrate a potential role for FAM18B in the pathogenesis of diabetic retinopathy.

Cytochrome P450 2C epoxygenases mediate photochemical stress-induced death of photoreceptors.

Degenerative loss of photoreceptors occurs in inherited and age-related retinal degenerative diseases. A chemical screen facilitates development of new testing routes for neuroprotection and mechanistic investigation. Herein, we conducted a mouse-derived photoreceptor (661W cell)-based high throughput screen of the Food and Drug Administration-approved Prestwick drug library to identify putative cytoprotective compounds against light-induced, synthetic visual chromophore-precipitated cell death. Different classes of hit compounds were identified, some of which target known genes or pathways pathologically associated with retinitis pigmentosa. Sulfaphenazole (SFZ), a selective inhibitor of human cytochrome P450 (CYP) 2C9 isozyme, was identified as a novel and leading cytoprotective compound. Expression of CYP2C proteins was induced by light. Gene-targeted knockdown of CYP2C55, the homologous gene of CYP2C9, demonstrated viability rescue to light-induced cell death, whereas stable expression of functional CYP2C9-GFP fusion protein further exacerbated light-induced cell death. Mechanistically, SFZ inhibited light-induced necrosis and mitochondrial stress-initiated apoptosis. Light elicited calcium influx, which was mitigated by SFZ. Light provoked the release of arachidonic acid from membrane phospholipids and production of non-epoxyeicosatrienoic acid metabolites. Administration of SFZ further stimulated the production of non-epoxyeicosatrienoic acid metabolites, suggesting a metabolic shift of arachidonic acid under inhibition of the CYP2C pathway. Together, our findings indicate that CYP2C genes play a direct causative role in photochemical stress-induced death of photoreceptors and suggest that the CYP monooxygenase system is a risk factor for retinal photodamage, especially in individuals with Stargardt disease and age-related macular degeneration that deposit condensation products of retinoids.