Gerodermia osteodysplastica (GO) is an autosomal recessive disorder characterized by wrinkly skin and osteoporosis. Here we demonstrate that GO is caused by loss-of-function mutations in SCYL1BP1, which is expressed at high levels in skin and osteoblasts. The protein localizes to the Golgi apparatus and interacts with Rab6, identifying SCYL1BP1 as a novel golgin. These results associate abnormalities of the secretory pathway with age-related changes in connective tissues.
One hundred and thirty-four families or individuals with auditory-pigmentary syndromes such as Waardenburg syndrome (WS) or probable neurocristopathies were screened for mutations in the PAX3 and MITF genes. PAX3 mutations were found in 20/25 families with definite Type 1 WS and 1/2 with Type 3 WS, but in none of 23 with definite Type 2 WS or 36 with other neurocristopathies. The PAX3 mutations included substitutions of conserved amino acids in the paired domain or the homeodomain, splice-site mutations, nonsense mutations and frame-shifting insertions or deletions. No phenotype-genotype correlations were noted within WS1 families. With MITF, mutations likely to affect protein function were found in seven families, five of which had definite Type 2 WS. We conclude that Type 1 and Type 3 WS are allelic and are normally caused by loss of function mutations in PAX3; that Type 2 WS is heterogeneous, with about 20% of cases caused by mutations in MITF, and that individuals with auditory, pigmentary or neural crest syndromes which do not fit stringent definitions of Waardenburg syndrome are unlikely to have mutations in either the PAX3 or MITF genes. The molecular pathology of MITF/microphthalmia mutations appears to be different in humans and mice, with gene dosage having more significant effects in humans than in the mouse.
We report a young girl with a phenotype combining early-onset myopathy and a progeria. She had myopathy and marked axial weakness during the first year of life; progeroid features, including growth failure, sclerodermatous skin changes, and osteolytic lesions, developed later. We identified the underlying cause to be a hitherto unreported de novo missense mutation in the LMNA gene (S143F) encoding the nuclear envelope proteins lamins A and C. Although LMNA mutations have been known to cause Hutchinson-Gilford progeria syndrome and Emery-Dreifuss muscular dystrophy, this is the first report of a patient combining features of these two phenotypes because of a single mutation in LMNA.
Objective: Ovotesticular disorder of sexual development (DSD) is an unusual form of DSD, characterized by the coexistence of testicular and ovarian tissue in the same individual. In a subset of patients, ovotesticular DSD is caused by 46,XX/46,XY chimerism or mosaicism. To date, only a few monogenetic causes are known to be associated with XX and XY ovotesticular DSD. Design and methods: Clinical, hormonal, and histopathological data, and results of high-resolution array-comparative genomic hybridization (CGH) were obtained from a female patient with 46,XY ovotesticular DSD with testicular tissue on one side and an ovary harboring germ cells on the other. Results obtained by array-CGH were confirmed by RT-quantitative PCR. Results: We detected a deletion of w35 kb affecting exons 3 and 4 of the DMRT1 gene in a female patient with 46,XY ovotesticular DSD. To the best of our knowledge, this is the smallest deletion affecting DMRT1 presented to this point in time. Conclusions: We suggest that haploinsufficiency of DMRT1 is sufficient for both XY gonadal dysgenesis and XY ovotesticular DSD. Furthermore, array-CGH is a very useful tool in the molecular diagnosis of DSD.
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