B. Le Marec scite author profile

Holoprosencephaly (HPE), the most common developmental defect of the forebrain and the face, is genetically heterogeneous. One of the genes involved, Sonic hedgehog ( SHH ), on 7q36, has been identified as the first HPE-causing gene both in mouse and humans. In order to delineate the phenotype of specific SHH mutations, we described the expression of the SHH gene during early human embryogenesis and investigated the phenotype of novel SHH mutations. In situ hybridization studies were performed on paraffin-embedded human embryo sections at three different development stages. These studies show that SHH is expressed in the notochord, the floorplate, the brain, the zone of polarizing activity and the gut. We also report on the phenotype of four novel mutations identified in 40 HPE families (two in isolated HPE and two in familial HPE). Expressivity ranged from alobar HPE to microcephaly and hypoplasia of the pituitary gland in one family, and from HPE to an asymptomatic form in another family. No SHH mutation was found in six polymalformed cases combining HPE with other defects, such as skeletal, limb, cardiac, anal and/or renal anomalies. This study confirms the genetic heterogeneity of HPE, and further demonstrates that SHH mutations are associated with a broad spectrum of cerebral midline defects.

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A new mutation in the six-domain of SIX3 gene causes holoprosencephaly

Pasquier

Dubourg

Blayau

et al. 2000

Eur J Hum Genet

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Holoprosencephaly (HPE) is a severe brain malformation which results from incomplete cleavage of the forebrain during early embryogenesis. The aetiology of HPE is very heterogeneous. Among the genetic factors, SIX3, which is considered to be the functional orthologue of Drosophila genes sine oculis (so) and optix, has been found to be mutated in the homeodomain, in some patients with HPE (HPE2 on chromosome 2p21). We report a new HPE family, presenting a wide spectrum of clinical features, ranging from cyclopia to hypotelorism, in which a mutation was found for the first time in the SIX domain of SIX3: a GG insertion creates a frameshift leading to a nonsense mutation downstream in the homeodomain region.

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Atelosteogenesis

et al. 1982

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The name atelosteogenesis is proposed for a lethal chondrodysplasia characterized by deficient ossification of various bones, notably the humerus, femur, thoracic spine, and hand bones. Clinically, the patients have micromelic dwarfism with incurvated legs, club feet, often dislocation of the elbows, and, rarely, a cleft palate. The most characteristic radiographic signs are incomplete ossification of the vertebral bodies with coronal clefts of the lumbar and hypoplasia of the upper thoracic vertebral bodies, a distal hypoplasia and club shape of the humerus and the femur, and the lack of ossification of single phalanges and metacarpals in most patients. Histologically, there are clusters of chondrocytes surrounded by fibrous capsules and, more frequently, degeneration zones containing degenerated chondrocytes and copious amounts of metachromatic material in the epiphyses and the basal zone of the growth plate.

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Central nervous system malformations and early end-stage renal disease in oro-facio-digital syndrome type I: A review

Odent

Marec

Toutain³

et al. 1998

Am. J. Med. Genet.

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Intracerebral cysts and porencephaly or arachnoid cysts are rarely but are repeatedly reported in orofaciodigital (OFD) syndrome type 1. We report on 2 families in which OFD syndrome type 1 was observed with central nervous system (CNS) malformations and 3 sporadic cases of OFD with CNS defects, most likely representing fresh mutations for OFD 1. In one case, vermis hypoplasia was present; in another, periventricular heterotopiae were noted. We review the literature on CNS anomalies in OFD syndromes and stress the difficulties in genetic counseling and functional prognosis for children of OFD 1 female carriers prenatally diagnosed with a malformation of the brain. As for CNS malformations, renal cystic disease is an often overlooked complication specific to OFD 1. In 1 family, cystic medullary disease was noted in OFD 1 carriers, leading 1 patient to dialysis by age 35 years and the other to severe renal insufficiency by age 28 years. Longitudinal follow-up of OFD 1 carriers should be performed, and renal function should be assessed in those with cysts because the functional prognosis of this developmental anomaly may be worse than usually reported in the literature.

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Opsismodysplasia: A new type of chondrodysplasia with predominant involvement of the bones of the hand and the vertebrae

Maroteaux

Stănescu

et al. 1984

Am. J. Med. Genet.

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The name opsismodysplasia is proposed for a new chondrodysplasia, which was studied in three patients. Clinically, the condition is recognized at birth on the basis of shortness, short hands, and facial abnormalities with a short nose and a depressed bridge of nose. The most characteristic radiographic signs are: very retarded bone maturation; marked shortness of the bones of the hands and of the feet with concave metaphyses; and thin, lamellar vertebral bodies. The growth cartilage studied in one case showed a wide hypertrophic area containing thick connective tissue septa, irregular provisional calcification, and vascular invasion. Type I collagen was detected in the hypertrophic area by immunohistochemical and microchemical tests. The transmission of opsismodysplasia is probably autosomal recessive.

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B. Le Marec

Expression of the Sonic hedgehog (SHH) Gene during Early Human Development and Phenotypic Expression of New Mutations Causing Holoprosencephaly

A new mutation in the six-domain of SIX3 gene causes holoprosencephaly

Atelosteogenesis

Central nervous system malformations and early end-stage renal disease in oro-facio-digital syndrome type I: A review

Opsismodysplasia: A new type of chondrodysplasia with predominant involvement of the bones of the hand and the vertebrae

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