Leber congenital amaurosis.

Leber's congenital amaurosis (LCA) is the earliest and most severe form of all inherited retinal dystrophies responsible for congenital blindness. Genetic heterogeneity of LCA has been suspected since the report by Waardenburg of normal children born to affected parents. In 1995, we localized the first disease causing gene, LCA1, to chromosome 17p13 and confirmed the genetic heterogeneity. In 1996, we ascribed LCA1 to mutations in the photoreceptor-specific guanylate cyclase gene (retGC1). RetGC1 is an essential protein implicated in the phototransduction cascade, especially in the recovery of the dark state after the excitation process of photoreceptor cells by light stimulation. In 1997, mutations in a second gene were reported in LCA, the RPE65 gene, which is the first specific retinal pigment epithelium gene. The protein RPE65 is implicated in the metabolism of vitamin A, the precursor of the photoexcitable retinal pigment (rhodopsin). Finally, a third gene, CRX, implicated in photoreceptor development, has been suspected of causing a few cases of LCA. Taken together, these three genes account for only 27% of LCA cases in our series. The three genes encode proteins that are involved in completely different physiopathologic pathways. Based on these striking differences of physiopathologic processes, we reexamined all clinical physiopathological discrepancies and the results strongly suggested that retGC1 gene mutations are responsible for congenital stationary severe cone-rod dystrophy, while RPE65 gene mutations are responsible for congenital severe but progressive rod-cone dystrophy. It is of tremendous importance to confirm and to refine these genotype-phenotype correlations on a large scale in order to anticipate the final outcome in a blind infant, on the one hand, and to further guide genetic studies in older patients on the other hand.     

Molecular genetics of Leber congenital amaurosis

Leber congenital amaurosis (LCA) is the most common inherited cause of blindness in childhood and is characterised by a severe retinal dystrophy before the age of one year. Six genes have been identified that together account for approximately half of all LCA patients. These genes are expressed preferentially in the retina or the retinal pigment epithelium. Their putative functions are quite diverse and include retinal embryonic development (CRX), photoreceptor cell structure (CRB1), phototransduction (GUCY2D), protein trafficking (AIPL1, RPGRIP1), and vitamin A metabolism (RPE65). The molecular data for CRB1 and RPE65 support previous hypotheses that LCA can represent the severe end of a spectrum of retinal dystrophies. Given the diverse mechanisms underlying the disease, future therapies of LCA may need to be tailored to certain genetically defined subgroups. Based on experimental evidence in mice and dogs, patients with disturbed retinal metabolism of vitamin A through a mutation in the RPE65 gene will likely be the first candidates for future therapeutic trials.     

Concordance and recessive inheritance of Leber congenital amaurosis

Pedigrees were obtaines on 43 patients with confirmed Leber congenital amaurosis, a rare form of blindness caused by congenital dysfunction of the retina. All of the pedigrees were consistent with autosomal recessive inheritance and the segregation frequency using classical segregation analysis was 0.24 ± 0.07. Six of the 7 affected sib pairs were concordant in regards to systemic abnormalities. Despite previous reports that Leber congenital amaurosis can be inherited either as an autosomal dominant or recessive condition, our findings support only an autosomal recessive inheritance of this disorder. © 1993 Wiley-Liss, Inc.     

Two sib cases of Leber congenital amaurosis with cerebellar vermis hypoplasia and multiple systemic anomalies

Leber's congenital amaurosis (LCA), a type of congenital blindness, is clinically and genetically heterogeneous and often associated with systemic anomalies. We report on two sisters who were born to a consanguineous couple and had retinitis pigmentosa-like pigmented retinal lesions, alternating exotropia, bilateral cataracts, and anomalous coarse facies characterized by deformed skull with narrow forehead, low anterior hairline, hypertelorism, short philtrum, thin upper lip, and prominent jaw; cerebellar vermis hypoplasia; dilatation of the fourth ventricle; severe mental retardation; tremor; brisk deep tendon reflexes and abnormal behavior; and skeletal abnormalities such as limited extension of elbow and/or finger joints and talipes equinovalgus. Skin defect and renal anomalies were seen in only one patient. Our patients are the first familial LCA associated with cerebellar vermis hypoplasia, and the disease involving particular multiple systemic anomalies may represent a distinct clinical entity. Am. J. Med. Genet. 78: 429–432, 1998. © 1998 Wiley-Liss, Inc.     

Novel NMNAT1 mutations causing Leber congenital amaurosis identified

NMNAT1 mutations cause Leber congenital amaurosis Falk et al. (2012) Nature Genetics 44: 1040–1045 Mutations in NMNAT1 cause Leber congenital amaurosis and identify a new disease pathway for retinal degeneration Koenekoop et al. (2012) Nature Genetics 44: 1035–1039     

Current perspectives in Leber congenital amaurosis type 8 mouse modeling

Mutations in the CRB1 (Crumbs homolog 1) cause rare retinal diseases like retinitis pigmentosa type 12 (RP12) and Leber congenital amaurosis type 8 (LCA8). RP12 results in progressively worsening peripheral vision, whereas LCA8 causes severe visual impairment at birth or in early life. While several mouse models have been proposed for RP12, few replicate the full spectrum of human LCA8 pathology, such as disorganized retinal layering, abnormal retinal thickening, pigmentary defects, hyperreflective lesions, and severely attenuated electroretinogram responses at birth. Six models have been proposed utilizing the Cre-loxP system to delete candidate genes in specific retinal cell types and developmental stages. The model ablating Crb1 and its homolog Crb2 (using mRx-Cre) from the beginning of the eye development is the most complete as it shows blindness during the eye-opening stage, pigmentary defects in the RPE, ganglion cell layer heterotopia, disruption of retinal lamination, and acellular patches. LCA8 represents a unique type of retinal dystrophy among LCA subtypes, driven by dysfunctional retinal progenitor cells during eye development. In contrast, other LCA types and RP12 are caused by photoreceptor defects. Therefore, the most accurate LCA8-like mouse model must target both alleles of the Crb1 and Crb2 genes in the optic vesicle or earlier.     

Massively parallel sequencing for early molecular diagnosis in Leber congenital amaurosis

PurposeLeber congenital amaurosis (LCA) is a rare congenital retinal dystrophy associated with 16 genes. Recent breakthroughs in LCA gene therapy offer the first prospect of treating inherited blindness, which requires an unequivocal and early molecular diagnosis. While present genetic tests do not address this due to a tremendous genetic heterogeneity, massively parallel sequencing (MPS) strategies might bring a solution. Here, we developed a comprehensive molecular test for LCA based on targeted MPS of all exons of 16 known LCA genes.MethodsWe designed a unique and flexible workflow for targeted resequencing of all 236 exons from 16 LCA genes based on quantitative PCR (qPCR) amplicon ligation, shearing, and parallel sequencing of multiple patients on a single lane of a short-read sequencer. Twenty-two prescreened LCA patients were included, five of whom had a known molecular cause.ResultsValidation of 107 variations was performed as proof of concept. In addition, the causal genetic defect and a single heterozygous mutation were identified in 3 and 5, respectively, of 17 patients without previously identified mutations.ConclusionWe propose a novel targeted MPS-based approach that is suitable for accurate, fast, and cost-effective early molecular testing in LCA, and easily applicable in other genetic disorders.Genet Med 2012:14(6):576–585     

Hypomorphic mutations identified in the candidate Leber congenital amaurosis gene CLUAP1

PurposeLeber congenital amaurosis (LCA) is an early-onset form of retinal degeneration. Six of the 22 known LCA genes encode photoreceptor ciliary proteins. Despite the identification of 22 LCA genes, the genetic basis of ~30% of LCA patients remains unknown. We sought to investigate the cause of disease in the remaining 30% by examining cilia-associated genes.MethodsWhole-exome sequencing was performed on an LCA cohort of 212 unsolved probands previously screened for mutations in known retinal-disease genes. Immunohistochemistry using mouse retinas was used to confirm protein localization and zebrafish were used to perform rescue experiments.ResultsA homozygous nonsynonymous mutation was found in a single proband in CLUAP1, a gene required for ciliogenesis and cilia maintenance. Cluap1 knockout zebrafish exhibit photoreceptor cell death as early as 5 days after fertilization, and rescue experiments revealed that our proband’s mutation is significantly hypomorphic.ConclusionConsistent with the knowledge that CLUAP1 plays an important role in cilia function and that cilia are critical to photoreceptor function, our results indicate that hypomorphic mutations in CLUAP1 can result in dysfunctional photoreceptors without systemic abnormalities. This is the first report linking mutations in CLUAP1 to human disease and establishes CLUAP1 as a candidate LCA gene.Genet Med18 10, 1044–1051.     

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.     

Four novel mutations in the RPE65 gene in patients with Leber congenital amaurosis

Leber congenital amaurosis (LCArpar; is a heterogeneous disorder representing the congenital forms of retinitis pigmentosa accounting for about 5% of all retinal dystrophies. The RPE65 gene product is required for regeneration of the visual pigment for phototransduction. Defects in the RPE65 gene have so far been shown to account for ～10 % of known cases of LCA. Here we describe four additional novel mutations in the RPE65 gene (c.889delA, c.131G>A, c.1249G>C, c.430T>G) and several novel polymorphisms in a large series of LCA patients. Hum Mutat 18:164, 2001. © 2001 Wiley‐Liss, Inc.     

Linkage studies and mutation analysis of the PDEB gene in 23 families with Leber congenital amaurosis.

The phenotype in the rd mouse is similar to the clinical presentation of Leber congenital amaurosis (LCA) in humans. Recently a nonsense mutation in the beta subunit of the cGMP phosphodiesterase (Pdeb) gene has been defined as the cause for the rd phenotype in the mouse and has raised the question as to whether mutations in the human PDEB gene might cause LCA. We have previously cloned and characterized the human homologue of the mouse Pdeb gene and have mapped it to chromosome 4p16.3. In this study, a total of 23 LCA families of various ethnic backgrounds have been investigated. Linkage analysis using highly polymorphic (CA)n microsatellites has excluded the PDEB gene as a cause for LCA in 6 families. In the remaining 17 families, we have searched for mutations in the 22 exons of the PDEB gene using single-strand gel electrophoresis (SSGE). Multiple exonic polymorphisms have been determined. However, no DNA changes in the PDEB gene have been identified in our study population which could be causative for the LCA phenotype.     

TUBB4B gene mutation in Leber phenotype of congenital amaurosis syndrome associated with early-onset deafness

Beta-tubulin 4B isotype is one of the subunits of microtubules encoded by TUBB4B gene on chromosome 9, which is responsible for the maintenance of microtubule stability. In humans, mutations in microtubule-encoding genes have been associated with several tubulinopathies with very heterogeneous symptoms. So far, only two missense mutations in TUBB4B gene have been found to have pathological implications in this disorder. Here we report a Hungarian family with three affected members, mother and her 12- and 14-year-old children, who suffer from ophthalmologic and hearing impairments probably due to c.1171C > T missense variant in the TUBB4B gene. The presented case is the second report, and unique in the literature because of three affected family members carrying the same mutation and the family provides evidence for a quite similar but not identical phenotype of LCAEOD in subjects carrying this mutation.     

Usher syndrome and Leber congenital amaurosis are molecularly linked via a novel isoform of the centrosomal ninein-like protein

Usher syndrome (USH) and Leber congenital amaurosis (LCA) areautosomal recessive disorders resulting in syndromic and non-syndromicforms of blindness. In order to gain insight into the pathogenicmechanisms underlying retinal degeneration, we searched forinteracting proteins of USH2A isoform B (USH2A^isoB) and theLCA5-encoded protein lebercilin. We identified a novel isoformof the centrosomal ninein-like protein, hereby named Nlp isoformB (Nlp^isoB), as a common interactor. Although we identifiedthe capacity of this protein to bind calcium with one of itsthree EF-hand domains, the interacton with USH2A^isoB did notdepend on this. Upon expression in ARPE-19 cells, recombinantNlp^isoB, lebercilin and USH2A^isoB were all found to co-localizeat the centrosomes. Staining of retinal sections with specificantibodies against all three proteins revealed their co-localizationat the basal bodies of the photoreceptor-connecting cilia. Basedon this subcellular localization and the nature of their previouslyidentified binding partners, we hypothesize that the pathogenicmechanisms for LCA and USH show significant overlap and involvedefects in ciliogenesis, cilia maintenance and intraflagellarand/or microtubule-based transport. The direct association ofNlp^isoB with USH2A^isoB and lebercilin indicates that Nlp canbe considered as a novel candidate gene for USH, LCA and alliedretinal ciliopathies.     

Leber congenital amaurosis: comprehensive survey of the genetic heterogeneity, refinement of the clinical definition, and genotype-phenotype correlations as a strategy for molecular diagnosis

Leber congenital amaurosis (LCA) is the earliest and most severe form of all inherited retinal dystrophies, responsible for congenital blindness. Disease-associated mutations have been hitherto reported in seven genes. These genes are all expressed preferentially in the photoreceptor cells or the retinal pigment epithelium but they are involved in strikingly different physiologic pathways resulting in an unforeseeable physiopathologic variety. This wide genetic and physiologic heterogeneity that could largely increase in the coming years, hinders the molecular diagnosis in LCA patients. The genotyping is, however, required to establish genetically defined subgroups of patients ready for therapy. Here, we report a comprehensive mutational analysis of the all known genes in 179 unrelated LCA patients, including 52 familial and 127 sporadic (27/127 consanguineous) cases. Mutations were identified in 47.5% patients. GUCY2D appeared to account for most LCA cases of our series (21.2%), followed by CRB1 (10%), RPE65 (6.1%), RPGRIP1 (4.5%), AIPL1 (3.4%), TULP1 (1.7%), and CRX (0.6%). The clinical history of all patients with mutations was carefully revisited to search for phenotype variations. Sound genotype-phenotype correlations were found that allowed us to divide patients into two main groups. The first one includes patients whose symptoms fit the traditional definition of LCA, i.e., congenital or very early cone-rod dystrophy, while the second group gathers patients affected with severe yet progressive rod-cone dystrophy. Besides, objective ophthalmologic data allowed us to subdivide each group into two subtypes. Based on these findings, we have drawn decisional flowcharts directing the molecular analysis of LCA genes in a given case. These flowcharts will hopefully lighten the heavy task of genotyping new patients but only if one has access to the most precise clinical history since birth.     

Novel high-throughput SNP genotyping cosegregation analysis for genetic diagnosis of autosomal recessive retinitis pigmentosa and Leber congenital amaurosis

Retinitis pigmentosa (RP), the major cause of blindness in adults, is an extremely heterogeneous monogenic disorder. More than 32 causative genes have been identified, 18 of which are involved in autosomal recessive RP (arRP); however, more than 50% of the cases remain unassigned. There are no major causative genes identified for arRP nor any prevalent mutations, which make mutational screening of the already reported RP genes extremely time consuming and costly. Nonetheless, this step is unavoidable for genetic diagnosis of patients and potential carriers, and it is a prerequisite before approaching the identification of new RP genes and loci. We have designed an innovative high-throughput time- and cost-effective strategy for cosegregation analysis of 22 genes of arRP and Leber congenital amaurosis (LCA; an autosomal recessive retinal dystrophy that shares some of the RP genes and traits) by SNP genotyping. This novel indirect method has been validated in a panel of 54 consanguineous and nonconsanguineous arRP families. In a single and fast genotyping step: 1) we discarded all the 22 candidate genes in 13% of the pedigrees, highlighting the families of choice to search for novel arRP genes/loci; 2) we excluded an average of 18-19 genes per family, thus diminishing the number of genes to screen for pathogenic mutations; and 3) we identified CERKL as the causative RP gene in a family in which this candidate had been previously discarded by microsatellite cosegregation analysis. This type of approach can also be applied to other nonretinal diseases with high genetic heterogeneity, such as hereditary deafness or Parkinson disease.     

Joubert syndrome associated with Leber amaurosis and multicystic kidneys

We describe a boy with manifestations of Joubert syndrome, Leber congenital amaurosis, and multicystic kidneys. In infants with unexplained neonatal tachypnea and late developmental delay, absence or hypoplasia of the cerebellar vermis should be sought. Joubert syndrome probably is an autosomal recessive disorder. In the subsequent pregnancy of the propositus' mother, we were able to make a prenatal diagnosis of Joubert syndrome, one of the first to be reported. © 1993 Wiley-Liss, Inc.