X-linked mental retardation syndrome: three brothers with the Brooks-Wisniewski-Brown syndrome

A HS6ST2 gene variant associated with X-linked intellectual disability and severe myopia in two male twins

X-linked intellectual disability (XLID) refers to a clinically and genetically heterogeneous neurodevelopmental disorder, in which males are more heavily affected than females. Among the syndromic forms of XLID, identified by additional clinical signs as part of the disease spectrum, the association between XLID and severe myopia has been poorly characterized. We used whole exome sequencing (WES) to study two Italian male twins presenting impaired intellectual function and adaptive behavior, in association with severe myopia and mild facial dysmorphisms. WES analysis detected the novel, maternally inherited, mutation c.916G > C (G306R) in the X-linked heparan sulfate 6-O-sulfotransferase 2 (HS6ST2) gene. HS6ST2 transfers sulfate from adenosine 3'-phosphate, 5'-phosphosulfate to the sixth position of the N-sulphoglucosamine residue in heparan sulfate (HS) proteoglycans. Low HS sulfation levels are associated with defective optic disc and stalk morphogenesis during mammalian visual system development. The c.916G>C variant affects the HS6ST2 substrate binding site, and its effect was considered "deleterious" by in-silico tools. An in-vitro enzymatic assay showed that the HS6ST2 mutant isoform had significantly reduced sulphotransferase activity. Taken together, the results suggest that mutant HS6ST2 is possibly involved in the development of myopia and cognitive impairment, characteristics of the probands reported here.

Ocular manifestations in the X-linked intellectual disability syndromes

Intellectual disability (ID), a common neurodevelopmental disorder characterized by limitations of both intellectual functioning and adaptive behavior, affects an estimated 1-2% of children. Genetic causes of ID are often accompanied by recognizable syndromal patterns. The vision apparatus is a sensory extension of the brain, and individuals with intellectual disabilities frequently have coexisting abnormalities of ocular structures and the visual pathway system. About one-third of the X-linked intellectual disability (XLID) syndromes have significant eye or ocular adnexa abnormalities that provide important diagnostic clues. Some XLID syndromes (e.g. Aicardi, cerebrooculogenital, Graham anophthalmia, Lenz, Lowe, MIDAS) are widely known for their characteristic ocular manifestations. Nystagmus, optic atrophy, and strabismus are among the more common, nonspecific, ocular manifestations that contribute to neuro-ophthalmological morbidity. Common dysmorphic oculofacial findings include anophthalmia, microphthalmia, hypertelorism, and abnormalities in the configuration or orientation of the palpebral fissures. Four XLID syndromes with major ocular manifestations (incontinentia pigmenti, Goltz, MIDAS, and Aicardi syndromes) are notable because of male lethality and expression occurring predominantly in females. The majority of the genes associated with XLID and ocular manifestations have now been identified.

Mitochondrial dysfunction in Brooks-Wisniewski-Brown syndrome

Brooks, Wisniewski, and Brown described a familial presentation of severe developmental retardation, speech delay, static encephalopathy with atrophic hydrocephalus, microcephaly, progressive spastic diplegia, a characteristic facial appearance, optic atrophy, and growth retardation associated with hypoplastic corpus callosum in one of the patients. The authors postulated a distinct X-linked mental retardation syndrome. Later on a similar phenotype was observed in three male siblings with an early lethal outcome. Here we describe three patients with several overlapping features and a progressive neurological picture presenting with a significantly compromised mitochondrial oxidative phosphorylation measured in a fresh muscle biopsy. Neurological deterioration is a commonly observed feature in mitochondrial disorders. Based on the unique combination of the clinical symptoms, we suggest that our patients have the Brooks-Wisniewski-Brown syndrome.

XLMR genes: update 1996

A current list of all known forms of X-linked mental retardation (XLMR) and a slightly revised classification are presented. The number of known disorders has not increased because 6 disorders have been combined based on new molecular data or on clinical grounds and only 6 newly described XLMR disorders have been reported. Of the current 105 XLMR disorders, 34 have been mapped, and 18 disorders and 1 nonspecific XLMR (FRAXE) have been cloned. The number of families with nonspecific XLMR with a LOD score of > or = 2.0 has more than doubled, with 42 (including FRAXE) now being known. a summary of the localization of presumed nonspecific mental retardation (MR) genes from well-studied X-chromosomal translocations and deletions is also included. Only 10-12 nonoverlapping loci are required to explain all localizations of nonspecific MR from both approaches. These new trends mark the beginning of a significantly improved understanding of the role of genes on the X chromosome in producing MR. Continued close collaboration between clinical and molecular investigators will be required to complete the process.