Bernard Puech

Natural history of Alström syndrome in early childhood: onset with dilated cardiomyopathy.

Alström syndrome is an autosomal recessive disorder characterized by cone-rod dystrophy, obesity, hearing impairment, and diabetes caused by insulin resistance. By reviewing the charts of eight patients followed for periods of 2 to 22 years, we established the natural history of this syndrome during childhood. Five patients, in four families, were seen between the ages of 3 weeks and 4 months with a dilated cardiomyopathy, a previously unrecognized feature of the syndrome. Photophobia and nystagmus were first documented in the eight patients between the ages of 5 months and 15 months. In all patients, electroretinography initially showed a severe cone impairment with mild (2/8) or no (6/8) rod involvement. Electroretinograms, obtained again at ages 9 to 22 years for four patients, revealed extinguished rod-and-cone responses. Obesity developed during childhood in seven patients, in at least three of them before age 2 years. Hearing impairment (5/8) and diabetes/glucose intolerance (4/8) were diagnosed at the end of the first decade or during the second decade. This constellation of features should facilitate early diagnosis of the syndrome.

Systematic Screening of BEST1 and PRPH2 in Juvenile and Adult Vitelliform Macular Dystrophies: A Rationale for Molecular Analysis

PURPOSE To evaluate a genetic approach of BEST1 and PRPH2 screening according to age of onset, family history, and Arden ratio in patients with juvenile vitelliform macular dystrophy (VMD2) or adult-onset vitelliform macular dystrophy (AVMD), which are characterized by autofluorescent deposits. DESIGN Clinical, electrophysiologic, and molecular retrospective study. PARTICIPANTS The database of a clinic specialized in genetic sensory diseases was screened for patients with macular vitelliform dystrophy. Patients with an age of onset less than 40 years were included in the VMD2 group (25 unrelated patients), and patients with an age of onset more than 40 years were included in the AVMD group (19 unrelated patients). METHODS Clinical, fundus photography, and electro-oculogram (EOG) findings were reviewed. Mutation screening of BEST1 and PRPH2 genes was systematically performed. MAIN OUTCOME MEASURES Relevance of age of onset, family history, and Arden ratio were reviewed. RESULTS Patients with VMD2 carried a BEST1 mutation in 60% of the cases. Seven novel mutations in BEST1 (p.V9L, p.F80V, p.I73V, p.R130S, pF298C, pD302A, and p.179delN) were found. Patients with VMD2 with a positive family history or a reduced Arden ratio carried a BEST1 mutation in 70.5% of cases and in 83% if both criteria were fulfilled. Patients with AVMD carried a PRPH2 mutation in 10.5% of cases and did not carry a BEST1 mutation. The probability of finding a PRPH2 mutation increased in the case of a family history (2/5 patients). Electro-oculogram was normal in 3 of 15 patients with BEST1 mutations and reduced in the 3 patients with PRPH2 mutations. CONCLUSIONS Age of onset is a major criterion to distinguish VMD2 from AVMD. Electro-oculogram is not as relevant because decreased or normal Arden ratios have been associated with mutations in both genes and diseases. A positive family history increased the probability of finding a mutation. BEST1 screening should be recommended to patients with an age of onset less than 40 years, and PRPH2 screening should be recommended to patients with an age of onset more than 40 years. For an onset between 30 and 40 years, PRPH2 can be screened if no mutation has been detected in BEST1. FINANCIAL DISCLOSURE(S) The author(s) have no proprietary or commercial interest in any materials discussed in this article.

North Carolina Macular Dystrophy Is Caused by Dysregulation of the Retinal Transcription Factor PRDM13.

PURPOSE To identify specific mutations causing North Carolina macular dystrophy (NCMD). DESIGN Whole-genome sequencing coupled with reverse transcription polymerase chain reaction (RT-PCR) analysis of gene expression in human retinal cells. PARTICIPANTS A total of 141 members of 12 families with NCMD and 261 unrelated control individuals. METHODS Genome sequencing was performed on 8 affected individuals from 3 families affected with chromosome 6-linked NCMD (MCDR1) and 2 individuals affected with chromosome 5-linked NCMD (MCDR3). Variants observed in the MCDR1 locus with frequencies <1% in published databases were confirmed using Sanger sequencing. Confirmed variants absent from all published databases were sought in 8 additional MCDR1 families and 261 controls. The RT-PCR analysis of selected genes was performed in stem cell-derived human retinal cells. MAIN OUTCOME MEASURES Co-segregation of rare genetic variants with disease phenotype. RESULTS Five sequenced individuals with MCDR1-linked NCMD shared a haplotype of 14 rare variants spanning 1 Mb of the disease-causing allele. One of these variants (V1) was absent from all published databases and all 261 controls, but was found in 5 additional NCMD kindreds. This variant lies in a DNase 1 hypersensitivity site (DHS) upstream of both the PRDM13 and CCNC genes. Sanger sequencing of 1 kb centered on V1 was performed in the remaining 4 NCMD probands, and 2 additional novel single nucleotide variants (V2 in 3 families and V3 in 1 family) were identified in the DHS within 134 bp of the location of V1. A complete duplication of the PRDM13 gene was also discovered in a single family (V4). The RT-PCR analysis of PRDM13 expression in developing retinal cells revealed marked developmental regulation. Next-generation sequencing of 2 individuals with MCDR3-linked NCMD revealed a 900-kb duplication that included the entire IRX1 gene (V5). The 5 mutations V1 to V5 segregated perfectly in the 102 affected and 39 unaffected members of the 12 NCMD families. CONCLUSIONS We identified 5 rare mutations, each capable of arresting human macular development. Four of these strongly implicate the involvement of PRDM13 in macular development, whereas the pathophysiologic mechanism of the fifth remains unknown but may involve the developmental dysregulation of IRX1.

Kjellin Syndrome: Long-term Neuro-ophthalmologic Follow-up and Novel Mutations in the SPG11 Gene

OBJECTIVE Kjellins syndrome is a hereditary neuro-ophthalmologic syndrome. We describe the clinical phenotypes of 7 patients, identifying the responsible mutations for 4 of them. A 10-year ophthalmologic and neurologic follow-up of 5 patients allowed us to describe the diseases characteristics, early symptoms and progression, associated ocular signs, and retinal changes in carriers. DESIGN Retrospective clinical study and molecular genetics investigation. PARTICIPANTS The records of 7 patients with Kjellins syndrome were analyzed retrospectively. METHODS All patients underwent full neurologic and ophthalmologic examinations. The neurologic examinations included assessments of initial symptoms, intelligence quotient tests, psychologic tests, and either magnetic resonance imaging or computed tomography. The ophthalmologic examinations included visual acuity on an Early Treatment Diabetic Retinopathy Study chart, intraocular pressure color vision assessment, slit-lamp and fundus examination, Goldmann perimetry, fundus autofluorescence, optical coherence tomography and fluorescein angiography, electro-oculography, electroretinography, and flash visual evoked potentials. Direct sequencing of the SPG11 and SPG15 genes and gene-dosage analysis for the former were performed for 4 of these index patients. MAIN OUTCOME MEASURES Identification of new mutations in the SPG11 gene, validating its implication in Kjellins syndrome. RESULTS The first signs appear before the age of 10 years, with late verbal development and difficulty running and walking. Life expectancy is between 30 and 40 years. The secondary ophthalmologic symptoms only moderately affect visual acuity. In addition to the classic symptoms, 3 of the 7 patients displayed small whitish lens opacities, and 3 neurologically unaffected parents (father or mother), all heterozygous carriers, exhibited whitish retinal dots. All the patients who were tested carried SPG11, not SPG15, mutations. CONCLUSIONS Neurologic signs of SPG11 mutations emerge in early infancy, with walking and language difficulties. Onset of paraplegia occurs at the end of the first decade or during the second decade. Retinal changes, an integral part of SPG11 mutations in this series of patients, are only observed once the paraplegia has become apparent.

Spectrum of SPATA7 mutations in Leber congenital amaurosis and delineation of the associated phenotype.

Leber congenital amaurosis (LCA) is the earliest and most severe retinal degeneration. It may present as a congenital stationary cone‐rod dystrophy (LCA type I) or a progressive yet severe rod‐cone dystrophy (LCA type II). Twelve LCA genes have been identified, three of which account for Type I and nine for LCA type II. All proteins encoded by these genes but two are preferentially expressed in the retina and are responsible for non‐syndromic LCA only. By contrast LCA5 and CEP290 are widely expressed and mutations in this latter result in a variety of phenotypes from non‐syndromic retinal degeneration to pleiotropic disorders including senior‐Loken (SNLS) and Joubert syndromes (JBTS). Recently, mutations in the widely expressed gene SPATA7 were reported to cause LCA or juvenile retinitis pigmentosa. The purpose of this study was i) to determine the level of expression of two major alternative SPATA7 transcripts in a large range of tissues and ii) to assess the involvement of this novel gene in a large cohort of unrelated patients affected with LCA (n = 134). Here, we report high SPATA7expression levels in retina, brain and testis with differential expression of the two transcripts. SPATA7 mutations were identified in few families segregating non‐syndromic LCA (n = 4/134). Six different mutations were identified, four of which are novel; All affected both SPATA7 transcripts. The clinical evaluation of patients suggested that SPATA7 mutations account for the rod‐cone dystrophy type of the disease.

Enrichment of LOVD-USHbases with 152 USH2A Genotypes Defines an Extensive Mutational Spectrum and Highlights Missense Hotspots

Alterations of USH2A, encoding usherin, are responsible for more than 70% of cases of Usher syndrome type II (USH2), a recessive disorder that combines moderate to severe hearing loss and retinal degeneration. The longest USH2A transcript encodes usherin isoform b, a 5,202‐amino‐acid transmembrane protein with an exceptionally large extracellular domain consisting notably of a Laminin N‐terminal domain and numerous Laminin EGF‐like (LE) and Fibronectin type III (FN3) repeats. Mutations of USH2A are scattered throughout the gene and mostly private. Annotating these variants is therefore of major importance to correctly assign pathogenicity. We have extensively genotyped a novel cohort of 152 Usher patients and identified 158 different mutations, of which 93 are newly described. Pooling this new data with the existing pathogenic variants already incorporated in USHbases reveals several previously unappreciated features of the mutational spectrum. We show that parts of the protein are more likely to tolerate single amino acid variations, whereas others constitute pathogenic missense hotspots. We have found, in repeated LE and FN3 domains, a nonequal distribution of the missense mutations that highlights some crucial positions in usherin with possible consequences for the assessment of the pathogenicity of the numerous missense variants identified in USH2A.

Frequency and Clinical Pattern of Vitelliform Macular Dystrophy Caused by Mutations of Interphotoreceptor Matrix IMPG1 and IMPG2 Genes

PURPOSE To assess the frequency of and to characterize the clinical spectrum and optical coherence tomography findings of vitelliform macular dystrophy linked to IMPG1 and IMPG2, 2 new causal genes expressed in the interphotoreceptor matrix. DESIGN Retrospective epidemiologic, clinical, electrophysiologic, and molecular genetic study. PARTICIPANTS The database of a national referral center specialized in genetic sensory diseases was screened for patients with a macular vitelliform dystrophy without identified mutation or small deletion or large rearrangement in BEST1 and PRPH2 genes. Forty-nine families were included. METHODS Clinical, imaging, and electro-oculogram findings were reviewed. Mutation screening of IMPG1 and IMPG2 genes were performed systematically. MAIN OUTCOME MEASURES Frequency, inheritance, and clinical pattern of vitelliform dystrophy associated with IMPG1 and IMPG2 mutations were characterized. RESULTS IMPG1 was the causal gene in 3 families (IMPG1 1-3, 11 patients) and IMPG2 in a fourth family (2 patients). With an autosomal dominant transmission, families 1 and 2 had the c.713T→G (p.Leu238Arg) mutation in IMPG1 and family 4 had the c.3230G→T (p.Cys1077Phe) mutation in IMPG2. Patients with IMPG1 or IMPG2 mutations had a late onset and moderate visual impairment (mean visual acuity, 20/40; mean age of onset, 42 years), even in the sporadic case of family 3 with a presumed recessive transmission (age at onset, 38 years; mean visual acuity, 20/50). Drusen-like lesions adjacent to the vitelliform deposits were observed in 9 of 13 patients. The vitelliform material was above the retinal pigment epithelium (RPE) at any stage of the macular dystrophy, and this epithelium was well preserved and maintained its classical reflectivity on spectral-domain optical coherence tomography (SD-OCT). Electro-oculogram results were normal or borderline in 9 cases. CONCLUSIONS IMPG1 and IMPG2 are new causal genes in 8% of families negative for BEST1 and PRPH2 mutations. These genes should be screened in adult-onset vitelliform dystrophy with (1) moderate visual impairment, (2) drusen-like lesions, (3) normal reflectivity of the RPE line on SD-OCT, and (4) vitelliform deposits located between ellipsoid and interdigitation lines on SD-OCT. These clinical characteristics are not observed in the classical forms of BEST1 or PRPH2 vitelliform dystrophies.

High prevalence of PRPH2 in autosomal dominant retinitis pigmentosa in France and characterization of biochemical and clinical features.

PURPOSE To assess the prevalence of PRPH2 in autosomal dominant retinitis pigmentosa (adRP), to report 6 novel mutations, to characterize the biochemical features of a recurrent novel mutation, and to study the clinical features of adRP patients. DESIGN Retrospective clinical and molecular genetic study. METHODS Clinical investigations included visual field testing, fundus examination, high-resolution spectral-domain optical coherence tomography (OCT), fundus autofluorescence imaging, and electroretinogram (ERG) recording. PRPH2 was screened by Sanger sequencing in a cohort of 310 French families with adRP. Peripherin-2 protein was produced in yeast and analyzed by Western blot. RESULTS We identified 15 mutations, including 6 novel and 9 previously reported changes in 32 families, accounting for a prevalence of 10.3% in this adRP population. We showed that a new recurrent p.Leu254Gln mutation leads to protein aggregation, suggesting abnormal folding. The clinical severity of the disease in examined patients was moderate with 78% of the eyes having 1-0.5 of visual acuity and 52% of the eyes retaining more than 50% of the visual field. Some patients characteristically showed vitelliform deposits or macular involvement. In some families, pericentral RP or macular dystrophy were found in family members while widespread RP was present in other members of the same families. CONCLUSIONS The mutations in PRPH2 account for 10.3% of adRP in the French population, which is higher than previously reported (0%-8%) This makes PRPH2 the second most frequent adRP gene after RHO in our series. PRPH2 mutations cause highly variable phenotypes and moderate forms of adRP, including mild cases, which could be underdiagnosed.

Achromatopsie congénitale : intérêt de l'électrorétinogramme pour le diagnostic précoce

But Apprecier la valeur de l’electroretinogramme (ERG) pour le diagnostic precoce des differentes formes d’achromatopsie. Introduction L’achromatopsie est une des causes de mal voyance congenitale hereditaire. Elle est evoquee devant un nystagmus, un comportement de cecite ou une photophobie. Seul l’ERG peut permettre d’en affirmer le diagnostic chez le bebe. Patients et methodes Etude retrospective chez 30 patients adresses pour bilan de nystagmus ou de cecite. Ils ont eu un examen ophtalmologique, une etude de la vision des couleurs et un ERG. Celui-ci est realise chez les sujets de plus de 6 ans selon le protocole de l’ISCEV. Chez le petit enfant, un protocole simplifie est utilise. Le stimulateur est un flash a diodes electroluminescentes. Un ERG de controle est effectue a distance. Resultats La morphologie de l’ERG est identique chez les enfants et les adultes. Elle est en faveur d’une achromatopsie complete : les composantes scotopiques obtenues apres adaptation a l’obscurite sont normales alors que les composantes photopiques enregistrees apres une adaptation a la lumiere suffisante pour inhiber les bâtonnets ne sont pas detectables. Les tests de vision des couleurs confirment ce diagnostic ; pourtant certains patients denomment correctement la plupart les couleurs. Conclusion Les procedures d’ERG que nous utilisons chez le bebe sont fiables pour diagnostiquer une achromatopsie. Il n’est pas possible d’affirmer qu’ils le sont pour differencier une achromatopsie complete d’une achromatopsie incomplete.

A new autosomal dominant eye and lung syndrome linked to mutations in TIMP3 gene.

To revisit the autosomal dominant Sorsby fundus dystrophy (SFD) as a syndromic condition including late-onset pulmonary disease. We report clinical and imaging data of ten affected individuals from 2 unrelated families with SFD and carrying heterozygous TIMP3 mutations (c.572A > G, p.Y191C, exon 5, in family 1 and c.113C > G, p.S38C, exon 1, in family 2). In family 1, all SFD patients older than 50 (two generations) had also a severe emphysema, despite no history of smoking or asthma. In the preceding generation, the mother died of pulmonary emphysema and she was blind after the age of 50. Her two great-grandsons (<20 years), had abnormal Bruch Membrane thickness, a sign of eye disease. In family 2, eye and lung diseases were also associated in two generations, both occurred later, and lung disease was moderate (bronchiectasis). This is the first report of a syndromic SFD in line with the mouse model uncovering the role of TIMP3 in human lung morphogenesis and functions. The TIMP3 gene should be screened in familial pulmonary diseases with bronchiectasis, associated with a medical history of visual loss. In addition, SFD patients should be advised to avoid tobacco consumption, to practice sports, and to undergo regular pulmonary examinations.