Mutations in AGBL5 associated with Retinitis pigmentosa.

BACKGROUND: Retinitis pigmentosa (RP) is the leading cause of heritable retinal visual impairment. Clinically, it is characterized by a variable onset of progressive night blindness and visual field constriction. RP is characterized by wide genetic heterogeneity with a broad range of potential genes involved in the genesis of this disease. Very few cases have been reported of RP due to pathogenic variants in AGBL5. MATERIALS AND METHODS: We report two patients with RP and bilallelic pathogenic variants in AGBL5. RESULTS: Genetic sequencing showed one homozygous AGBL5 missense variant in one patient and a homozygous nonsense variant in the other. These patients presented with progressive peripheral vision loss and nyctalopia. Their RP phenotypes were similar to previous reports in literature. CONCLUSION: These two cases provide further evidence regarding the relationship of pathogenic variants in AGBL5 as a cause of autosomal recessive RP.

TWO CASES OF CRB1-RELATED RETINAL DYSTROPHY ASSOCIATED WITH RETINAL MASSES.

BACKGROUND/PURPOSE: Mutations in CRB1 are associated with variable severity in expression leading to apparent phenotypic diversity. We present two retinal findings. METHODS: We present two unrelated children with CRB1-related retinal dystrophy with a solitary mass visualized on fundoscopy. Both underwent a complete ophthalmologic examination including visual acuity assessment, optical coherence tomography, intravenous fluorescein angiography, and fundus autofluorescence. RESULTS: In one child, a gliotic mass was observed on the superior temporal vessel away from disk. On optical coherence tomography, the mass appeared to be located in the superficial retina and contained discrete internal moth-eaten optically empty spaces as previously reported in the astrocytic hamartomas of tuberous sclerosis. Fundus autofluorescence showed speckled hyperautofluorescence of the lesion. In the other child, there was a calcified mass within the nerve fiber layer just temporal to the optic nerve. On optical coherence tomography, this mass appeared irregular in shape, encapsulated, and had a heterogeneous disorganized interior with hyperreflective areas. CONCLUSION: In this report, we detail two presentations of CRB1-related retinal dystrophy: retinal astrocytic hamartoma and another form of superficial retinal hamartoma. We believe this may represent a manifestation of CRB1 mutations. Recognition of this finding may prevent unnecessary evaluation for tumor cause in patients with CRB1-related retinal dystrophy.

Novel CRB1 pathogenic variant in Chuuk families with Leber congenital amaurosis.

The purpose of this article is to determine the cause of Leber congenital amaurosis (LCA) in Chuuk state, Federated States of Micronesia (FSM). In this prospective observational case series, five patients with early-onset vision loss were examined in Chuuk state, FSM, during an ocular genetics visit to study the elevated incidence of microphthalmia. Because of their low vision these patients were incorrectly assumed to have microphthalmia. A complete ophthalmological exam established a clinical diagnosis of LCA. Candidate gene exons were sequenced with a targeted retinal dystrophy panel. Five subjects in three related families were diagnosed with LCA. All five were from Tonoas Island, within the Chuuk Lagoon, with ages ranging from 6 months to 16 years. DNA sequencing of affected individuals revealed a homozygous CRB1 NM_201253.3:c.3134del pathogenic variant, which was heterozygous in their parents. CRB1 genotypes were confirmed by a PCR restriction assay. We report identification of a founder pathogenic variant in CRB1 responsible for autosomal recessive LCA in this isolated community. This discovery will lead to appropriate recurrence risk counseling.

Genetics of the anterior segment dysgenesis.

The anterior segment dysgeneses are a broad group of heterogeneous disorders characterized by developmental abnormalities of the anterior segment of the eye, including primary congenital aphakia, Peters sequence, aniridia, and Axenfeld-Rieger spectrum. These conditions can have overlapping phenotypes and both genotypic and phenotypic heterogeneity. This article provides a strategy for both phenotyping and then genotyping using a targeted stepwise approach.

Severe Familial Exudative Vitreoretinopathy, Congenital Hearing Loss, and Developmental Delay in a Child With Biallelic Variants in FZD4.

Importance: Familial exudative vitreoretinopathy (FEVR) is a nonsyndromic autosomal dominant retinal disorder commonly caused by variants in the FZD4 gene. This study investigates the potential role beyond ocular abnormalities for FZD4 gene variants in patients with FEVR. Objective: To evaluate the role of FZD4 in symptoms beyond those associated with FEVR through a patient with biallelic variants in FZD4. Design, Setting, and Participants: This case series included the DNA testing and phenotyping of 1 patient proband and her parents, combined with signaling assays, to determine the association of patient-derived compound heterozygous variants on FZD4 signaling and biologic function. Main Outcomes and Measures: FZD4 genes were tested using next-generation sequencing and Sanger sequencing. Cell-based assays measured the effect of the variants on FZD4 signaling. Results: The proband presented with absent red reflexes from complete tractional retinal detachments diagnosed at 3 days of age and failed the newborn screening hearing test. Auditory brainstem response at 6 months of age showed bilateral mild to moderate high-frequency sensorineural hearing loss. The patient manifested developmental delays in speech and walking. Intravenous fluorescein angiography (IVFA) of the patient's parents detected stage 1 FEVR. Genetic testing revealed 2 FZD4 variants in the patient, each variant found in 1 parent. Signaling assays confirmed that the presence of both variants was associated with significantly worse signaling activity compared with the heterozygous state. Conclusions and Relevance: Results of this case series suggest that extraocular syndromic FEVR was associated with FZD4 variants. The decrease in FZD4 signaling owing to the biallelic nature of the disease resulted in hearing deficits, developmental delays, and a more severe retinal phenotype.

Ocular manifestations of Emanuel syndrome.

Emanuel syndrome is caused by a supernumerary der(22)t(11;22) and typically manifests with intellectual disability and craniofacial dysmorphism. Ocular abnormalities have infrequently been described. We report a 36-year-old man with severe intellectual disability, aphasia, and facial dysmorphism, with high myopia and juvenile open angle glaucoma (JOAG). Microarray analysis results included 47,XY,+der(22)t(11;22)(q23;q11.2), and a 269 kb deletion of 7q31.33(125,898,014-126,166,829). Two candidate genes were identified as possible etiologies for the ocular pathologies in our patient: a MFRP duplication on chromosome 11, which may play a role in high myopia and dysregulation of emmetropization, and a GRM8 deletion on chromosome 7, which may cause glutamate-induced excitotoxicity and therefore have a role in the development of JOAG, unrelated to the Emanuel syndrome genotype. We provide the first detailed description these ocular abnormalities in a patient with Emmanuel syndrome.

Ocular manifestations of PACS1 mutation.

Heterozygous mutation in the PACS1 (phosphofurin acidic cluster sorting proteins 1) gene is a known cause of developmental delay, multiple congenital anomalies, dysmorphism, and ocular abnormalities. We present the case of an affected 10-year-old girl, conceived by assisted reproductive technology, who has ocular coloboma and findings characteristic of PACS1 mutation.

Patients and animal models of CNGß1-deficient retinitis pigmentosa support gene augmentation approach.

Retinitis pigmentosa (RP) is a major cause of blindness that affects 1.5 million people worldwide. Mutations in cyclic nucleotide-gated channel ß 1 (CNGB1) cause approximately 4% of autosomal recessive RP. Gene augmentation therapy shows promise for treating inherited retinal degenerations; however, relevant animal models and biomarkers of progression in patients with RP are needed to assess therapeutic outcomes. Here, we evaluated RP patients with CNGB1 mutations for potential biomarkers of progression and compared human phenotypes with those of mouse and dog models of the disease. Additionally, we used gene augmentation therapy in a CNGß1-deficient dog model to evaluate potential translation to patients. CNGB1-deficient RP patients and mouse and dog models had a similar phenotype characterized by early loss of rod function and slow rod photoreceptor loss with a secondary decline in cone function. Advanced imaging showed promise for evaluating RP progression in human patients, and gene augmentation using adeno-associated virus vectors robustly sustained the rescue of rod function and preserved retinal structure in the dog model. Together, our results reveal an early loss of rod function in CNGB1-deficient patients and a wide window for therapeutic intervention. Moreover, the identification of potential biomarkers of outcome measures, availability of relevant animal models, and robust functional rescue from gene augmentation therapy support future work to move CNGB1-RP therapies toward clinical trials.

Spectrum of PEX1 and PEX6 variants in Heimler syndrome.

Heimler syndrome (HS) consists of recessively inherited sensorineural hearing loss, amelogenesis imperfecta (AI) and nail abnormalities, with or without visual defects. Recently HS was shown to result from hypomorphic mutations in PEX1 or PEX6, both previously implicated in Zellweger Syndrome Spectrum Disorders (ZSSD). ZSSD are a group of conditions consisting of craniofacial and neurological abnormalities, sensory defects and multi-organ dysfunction. The finding of HS-causing mutations in PEX1 and PEX6 shows that HS represents the mild end of the ZSSD spectrum, though these conditions were previously thought to be distinct nosological entities. Here, we present six further HS families, five with PEX6 variants and one with PEX1 variants, and show the patterns of Pex1, Pex14 and Pex6 immunoreactivity in the mouse retina. While Ratbi et al. found more HS-causing mutations in PEX1 than in PEX6, as is the case for ZSSD, in this cohort PEX6 variants predominate, suggesting both genes play a significant role in HS. The PEX6 variant c.1802G>A, p.(R601Q), reported previously in compound heterozygous state in one HS and three ZSSD cases, was found in compound heterozygous state in three HS families. Haplotype analysis suggests a common founder variant. All families segregated at least one missense variant, consistent with the hypothesis that HS results from genotypes including milder hypomorphic alleles. The clinical overlap of HS with the more common Usher syndrome and lack of peroxisomal abnormalities on plasma screening suggest that HS may be under-diagnosed. Recognition of AI is key to the accurate diagnosis of HS.

Organophosphate retinopathy.

Organophosphates have rarely been reported to cause various ocular sequelae including retinal degeneration. Retinal manifestations have been rarely reported and poorly characterized. We describe a case of a 76-year-old man with vision loss beginning in his 20s due to acute on chronic exposure to dimethoate, an organophosphate. He presented with bilateral geographic macular atrophy and midperipheral pigmentary clumping which we characterized by dilated fundoscopic examination, optical coherence tomography, and fundus autofluorescence.

Intraretinal cystoid spaces in a patient with retinitis pigmentosa due to mutation in the MAK gene.

BACKGROUND: Cystoid macular edema (CME) and non-leaking intraretinal cystoid spaces (ICS) have different pathophysiologic mechanisms. MATERIALS AND METHODS: We report a patient with retinitis pigmentosa (RP) with ICS due to a mutation in the male germ cell-associated kinase (MAK) gene. RESULTS: A 41-year-old Ashkenazi Jewish male was referred for abnormal visual field revealed by regular optometric examination. His visual acuity was 20/20 in each eye. Dilated examination revealed typical finding of RP. Optical coherence tomography showed cystoid changes in each fovea. Photoreceptors were also degenerated. Intravenous fluorescein angiography showed no leakage. Genetic testing identified a homozygous mutation in the MAK gene: a 353-bp Alu insertion (K429insAlu). CONCLUSIONS: Mak regulates microtubule stability via phosphorylating RP1. Abnormal Mak may impact retinal photoreceptor ciliary length and subcompartmentalization. Mak is required for the survival of photoreceptors in mice. ICS has been reported in other ciliopathies. We report the first case of ICS due to mutation in MAK.

Peters anomaly in cri-du-chat syndrome.

The cri-du-chat syndrome is a rare genetic disorder caused by deletions in the short arm of chromosome 5. It presents with a distinctive catlike high-pitched cry, psychomotor delays, microcephaly, craniofacial abnormalities, and, in many cases, ocular findings. We report the first child with cri-du-chat and the findings of unilateral corneal staphyloma due to Peters anomaly and retinal dysplasia.

Early onset ectopia lentis due to a FBN1 mutation with non-penetrance.

Isolated ectopia lentis is usually autosomal dominant and commonly due to the mutations of FBN1 gene. We report on a family with ectopia lentis. The propositus is a 6-year-old boy with bilateral superior-temporal ectopia lentis. His echocardiogram was normal and he did not meet the revised Ghent criteria for Marfan syndrome. Molecular genetic testing revealed c.1948 C>T (p.Arg650Cys) in FBN1. The mother has visual acuity of 20/20 with -4.50 right eye and -2.50 left eye. She has no evidence of ectopia lentis. DNA analysis revealed that she has the same FBN1 mutation. Seven other maternal family members also have ectopia lentis. In conclusion, we report on a case of early-onset autosomal dominant isolated ectopia lentis caused by FBN1 mutation that has previously been reported only in Marfan syndrome. The child's mother presumably represents a rare case of nonpenetrance.

Anirdia-like phenotype caused by 6p25 dosage aberrations.

Axenfeld-Rieger spectrum (ARS) includes the anterior segment abnormalities posterior embryotoxon, irido-corneal adhesions, corectopia, and other abnormalities of pupil size and shape. Glaucoma occurs in approximately 50% of affected children. It is often caused by mutations of FOXC1 or PITX2. Timing of expression and dosage of these transcription factors appear to be very critical in the development of the anterior segment. We report on one child with a deletion and another with a duplication involving 6p25, causing an anirdia-like phenotype. Classic anirdia is a pan-ophthalmic disorder caused by heterozygous mutations involving the paired homeobox gene PAX6 at 11p13. It is often associated with optic nerve hypoplasia, foveal hypoplasia, corneal pannus, nystagmus, and cataract. Microdeletion of 11p13 may be associated with life threatening Wilms tumor. Distinguishing these two syndromes has critical implications for prognosis and treatment. We demonstrate how chromosomal microarray can be instrumental in differentiating these phenotypes.

Retinal Dystrophy with Intraretinal Cystoid Spaces Associated with Mutations in the Crumbs Homologue (CRB1) Gene.

PURPOSE: To report the occurrence of intraretinal cystoid spaces presumably due to retinal degeneration caused by CRB1 mutations, and the response to treatment with carbonic anhydrase inhibitors. MATERIALS: Retrospective case series. METHODS: We report four patients with retinal degeneration and intraretinal cystoid spaces due to CRB1 mutation. Of these patients, three were treated with topical carbonic anhydrase inhibitors. One of these three patients was changed to oral carbonic anhydrase inhibitor. Best corrected visual acuity and quantitative and qualitative macular optical coherence tomography results were recorded. RESULTS: Three patients were compound heterozygous for CRB1 mutations, and one had two mutations one of which was not found in the father. A total of seven different mutations were detected. All patients treated with carbonic anhydrase inhibitors experienced an improvement in visual acuity and decreased central retinal thickness, except in one eye in which retinal thickness paradoxically increased. CONCLUSIONS: CRB1 mutations may be associated with intraretinal cystoid spaces. The use of carbonic anhydrase inhibitors can result in improved visual acuity in some patients.

Autosomal-dominant Leber Congenital Amaurosis Caused by a Heterozygous CRX Mutation in a Father and Son.

BACKGROUND: Leber congenital amaurosis (LCA) is most often an autosomal recessive disorder. We report a father and son with autosomal dominant LCA due to a mutation in the CRX gene. MATERIALS AND METHODS: DNA screening using an allele specific assay of 90 of the most common LCA-causing variations in the coding sequences of AIPL1, CEP290, CRB1, CRX, GUCY2D, RDH12 and RPE65 was performed on the father. Automated DNA sequencing of his son examining exon 3 of the CRX gene was subsequently performed. RESULTS: Both father and son have a heterozygous single base pair deletion of an adenine at codon 153 in the coding sequence of the CRX gene resulting in a frameshift mutation. CONCLUSION: Mutations involving the CRX gene may demonstrate an autosomal dominant inheritance pattern for LCA.

The cost of genetic testing for ocular disease: who pays?

PURPOSE OF REVIEW: To facilitate ophthalmologists' understanding on the cost of genetic testing in ocular disease, the complexities of insurance coverage and its impact on the availability of testing. RECENT FINDINGS: Many insurance carriers address coverage for genetic testing in written clinical policies. They provide criteria for medically necessary testing. These policies mostly cover testing for individuals who are symptomatic and in whom testing will have a direct impact on medical treatment. In cases in which no treatments are currently available, other than research trials, patients may have difficulty in getting insurance coverage for genetic testing. SUMMARY: Genetic testing for inherited eye diseases can be costly but has many benefits to patient care, including confirmation of a diagnosis, insight into prognostic information, and identification of associated health risks, inheritance patterns, and possible current and future treatments. As gene therapy advances progress, the availability for treatment in ocular diseases, coverage for genetic testing by third-party payers could increase on the basis of current clinical policies.

Lyonization in ophthalmology.

PURPOSE OF REVIEW: To describe the entity of Lyonization in ocular eye diseases, along with its clinical and counseling implications. RECENT FINDINGS: Several X-linked ocular diseases such as choroideremia, X-linked retinitis pigmentosa, and X-linked ocular albinism may have signs of Lyonization on ocular examination and diagnostic testing. These findings may aid in the proper diagnosis of ocular disease in both female carriers and their affected male relatives. SUMMARY: Manifestations of Lyonization in the eye may help in the diagnosis of X-linked ocular diseases which may lead to accurate diagnosis, appropriate molecular genetic testing and genetic counseling.