O. Roche

Generalized arterial calcification of infancy and pseudoxanthoma elasticum can be caused by mutations in either ENPP1 or ABCC6.

Spontaneous pathologic arterial calcifications in childhood can occur in generalized arterial calcification of infancy (GACI) or in pseudoxanthoma elasticum (PXE). GACI is associated with biallelic mutations in ENPP1 in the majority of cases, whereas mutations in ABCC6 are known to cause PXE. However, the genetic basis in subsets of both disease phenotypes remains elusive. We hypothesized that GACI and PXE are in a closely related spectrum of disease. We used a standardized questionnaire to retrospectively evaluate the phenotype of 92 probands with a clinical history of GACI. We obtained the ENPP1 genotype by conventional sequencing. In those patients with less than two disease-causing ENPP1 mutations, we sequenced ABCC6. We observed that three GACI patients who carried biallelic ENPP1 mutations developed typical signs of PXE between 5 and 8 years of age; these signs included angioid streaks and pseudoxanthomatous skin lesions. In 28 patients, no disease-causing ENPP1 mutation was found. In 14 of these patients, we detected pathogenic ABCC6 mutations (biallelic mutations in eight patients, monoallelic mutations in six patients). Thus, ABCC6 mutations account for a significant subset of GACI patients, and ENPP1 mutations can also be associated with PXE lesions in school-aged children. Based on the considerable overlap of genotype and phenotype of GACI and PXE, both entities appear to reflect two ends of a clinical spectrum of ectopic calcification and other organ pathologies, rather than two distinct disorders. ABCC6 and ENPP1 mutations might lead to alterations of the same physiological pathways in tissues beyond the artery.

Mainzer-Saldino syndrome is a ciliopathy caused by IFT140 mutations.

Mainzer-Saldino syndrome (MSS) is a rare disorder characterized by phalangeal cone-shaped epiphyses, chronic renal failure, and early-onset, severe retinal dystrophy. Through a combination of ciliome resequencing and Sanger sequencing, we identified IFT140 mutations in six MSS families and in a family with the clinically overlapping Jeune syndrome. IFT140 is one of the six currently known components of the intraflagellar transport complex A (IFT-A) that regulates retrograde protein transport in ciliated cells. Ciliary abundance and localization of anterograde IFTs were altered in fibroblasts of affected individuals, a result that supports the pivotal role of IFT140 in proper development and function of ciliated cells.

Mutations in NMNAT1 cause Leber congenital amaurosis with early-onset severe macular and optic atrophy

In addition to its activity in nicotinamide adenine dinucleotide (NAD+) synthesis, the nuclear nicotinamide mononucleotide adenyltransferase NMNAT1 acts as a chaperone that protects against neuronal activity–induced degeneration. Here we report that compound heterozygous and homozygous NMNAT1 mutations cause severe neonatal neurodegeneration of the central retina and early-onset optic atrophy in 22 unrelated individuals. Their clinical presentation is consistent with Leber congenital amaurosis and suggests that the mutations affect neuroprotection of photoreceptor cells.

Ophthalmologic findings in suspected child abuse victims with subdural hematomas

PURPOSE Shaken baby syndrome consists of intracranial and intraocular hemorrhages in young children in the absence of signs of direct head trauma. Because it has major medicolegal implications, it must be distinguished from accidental trauma. This study aimed to determine the ophthalmologic manifestations and their natural course in child abuse victims and whether ophthalmologic examination can help to distinguish shaken babies from children with accidental impact head trauma. DESIGN Prospective comparative observational case series. METHODS A prospective study was conducted from January 1996 to September 2001 on 241 consecutive infants hospitalized for a subdural hematoma to determine the frequency and the type of ocular abnormalities encountered. At admission, 186 children were highly presumed to have been shaken (group 1), 38 children had signs of direct head trauma without any relevant history of trauma (group 2), some of them having been possibly shaken, whereas 7 children had proven severe accidental head trauma (group 3). RESULTS Intraocular hemorrhages were the main finding. Their shape, laterality, and size were not significantly different in groups 1 and 2. However they were significantly more frequent in nonaccidental head trauma than in infants with head impact (77.5% versus 20%). None of the group 3 children had intraocular hemorrhage. Eighty-two percent of intraocular hemorrhages resolved within 4 weeks. CONCLUSIONS Intraocular hemorrhages are frequent in shaken babies but not specific of this syndrome. When associated with a subdural hematoma, they are strongly suggestive of shaken neglect. They are rare in pediatric accidental head trauma.

TMEM126A, Encoding a Mitochondrial Protein, Is Mutated in Autosomal-Recessive Nonsyndromic Optic Atrophy

Nonsyndromic autosomal-recessive optic neuropathies are rare conditions of unknown genetic and molecular origin. Using an approach of whole-genome homozygosity mapping and positional cloning, we have identified the first gene, to our knowledge, responsible for this condition, TMEM126A, in a large multiplex inbred Algerian family and subsequently in three other families originating from the Maghreb. TMEM126A is conserved in higher eukaryotes and encodes a transmembrane mitochondrial protein of unknown function, supporting the view that mitochondrial dysfunction may be a hallmark of inherited optic neuropathies including isolated autosomal-recessive forms.

Recessive and Dominant De Novo ITPR1 Mutations Cause Gillespie Syndrome.

Gillespie syndrome (GS) is a rare variant form of aniridia characterized by non-progressive cerebellar ataxia, intellectual disability, and iris hypoplasia. Unlike the more common dominant and sporadic forms of aniridia, there has been no significant association with PAX6 mutations in individuals with GS and the mode of inheritance of the disease had long been regarded as uncertain. Using a combination of trio-based whole-exome sequencing and Sanger sequencing in five simplex GS-affected families, we found homozygous or compound heterozygous truncating mutations (c.4672C>T [p.Gln1558(∗)], c.2182C>T [p.Arg728(∗)], c.6366+3A>T [p.Gly2102Valfs5(∗)], and c.6664+5G>T [p.Ala2221Valfs23(∗)]) and de novo heterozygous mutations (c.7687_7689del [p.Lys2563del] and c.7659T>G [p.Phe2553Leu]) in the inositol 1,4,5-trisphosphate receptor type 1 gene (ITPR1). ITPR1 encodes one of the three members of the IP3-receptors family that form Ca(2+) release channels localized predominantly in membranes of endoplasmic reticulum Ca(2+) stores. The truncation mutants, which encompass the IP3-binding domain and varying lengths of the modulatory domain, did not form functional channels when produced in a heterologous cell system. Furthermore, ITPR1 p.Lys2563del mutant did not form IP3-induced Ca(2+) channels but exerted a negative effect when co-produced with wild-type ITPR1 channel activity. In total, these results demonstrate biallelic and monoallelic ITPR1 mutations as the underlying genetic defects for Gillespie syndrome, further extending the spectrum of ITPR1-related diseases.

Nutritional optic neuropathies

Nutritional deficiency may be the cause of a genuine optic neuropathy, sometimes associated with involvement of the peripheral nervous system. Nutritional optic neuropathies are usually bilateral, painless, chronic, insidious and slowly progressive. Most often, they present as a non-specific retrobulbar optic neuropathy. The differential diagnosis with other causes of optic nerve involvement, in particular of toxic origin, may be particularly difficult. Nutritional deficits are often associated with toxic effects from alcohol and tobacco; therefore, the separation of the nutritional and toxic components is often illusory and artificial. The pathophysiological mechanisms involved in nutritional -- and toxic -- optic neuropathies affect biochemical pathways involved in cell energetic production, correction of oxidative stress and quenching of free radicals. The recognition of these mechanisms could provide future therapeutic alternatives. Currently, the treatment is limited to the intensive use of vitamins with variable results in individual cases, and to the implementation of preventive measures, when feasible.

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.

Mapping of a congenital microcoria locus to 13q31-q32.

Congenital microcoria is an autosomal dominant disorder characterized by a pupil with a diameter <2 mm. It is thought to be due to a maldevelopment of the dilator pupillae muscle of the iris, and it is associated with juvenile-onset glaucoma. A total genome search for the location of the congenital microcoria gene was launched in a single large family. We found linkage between the disease and markers located on 13q31-q32 (Zmax = 9.79; theta = 0). Haplotype analysis narrowed the linked region to an interval <8 cM between markers D13S1239 proximally and D13S1280 distally.

Traumatismes oculaires perforants de l'enfant: Étude rétrospective de 57 cas

PURPOSE: The purpose of this study was to investigate the current causes and outcomes of open eye injuries in children. PATIENTS AND METHODS: We reviewed the hospital records of 57 patients under 14 years of age who were treated for open globe injuries at Edouard Herriot Hospital, Lyon, France, between January 1999 and December 2003. RESULTS: This review includes 57 patients: 41 males and 16 females. The mean age at admission was 6.8 +/- 3.5 years. The injury involved the right eye in 27 cases and the left eye in 30 cases. Sharp or pointed objects accounted for the majority of injuries. The most common location for a perforating ocular injury to occur was at home. Wounds involved the cornea in 41 cases. There was iris hernia in 21 cases, hyphema in 15 cases, vitreous prolapse in 14 cases, lens damage in 12 cases, and shallow anterior chamber in 11 cases. The most frequent complication was traumatic cataract. Secondary lens removal was performed in 15 cases. Visual acuity was 0.5 or better in 27 of the 57 eyes, with a mean follow-up period of 12 months. CONCLUSIONS: Perforating ocular injuries are a frequent cause of unilateral visual loss. The highest proportion of injuries occurred at home and sharp objects were the most frequent causative agents. More adequate adult supervision and educational measures are necessary in order to reduce the prevalence of these accidents.