Möbius syndrome (MIM 157900) consists of a congenital paresis or paralysis of the VIIth (facial) cranial nerve, frequently accompanied by dysfunction of other cranial nerves. The abducens nerve is typically affected, and often, also, the hypoglossal nerve. In addition, orofacial and limb malformations, defects of the musculoskeletal system, and mental retardation are seen in patients with Möbius syndrome. Most cases are sporadic, but familial recurrence can occur. Different modes of inheritance are suggested by different pedigrees. Genetic heterogeneity of Möbius syndrome has been suggested by cytogenetic studies and linkage analysis. Previously, we identified a locus on chromosome 3q21-22, in a large Dutch family with Möbius syndrome consisting essentially of autosomal dominant asymmetric bilateral facial paresis. Here we report linkage analysis in a second large Dutch family with autosomal dominant inherited facial paresis. After exclusion of >90% of the genome, we identified the locus on the long arm of chromosome 10 in this family, demonstrating genetic heterogeneity of this condition. The reduced penetrance suggests that at least some of the sporadic cases might be familial.
A family is described in which X-linked mild to borderline mental retardation (MR) is associated with cleft lip/palate. Linkage analysis showed a maximum LOD score of Z=2.78 at straight theta=0.0 for the DXS441 locus with flanking markers DXS337 and DXS990, defining the region Xp11.3-q21.3 with a linkage interval of 25 cM.
In a family with autosomal dominant cystoid macular dystrophy (DCMD) linkage was detected with the dinucleotide marker D7S435 on the short arm of chromosome 7. With markers flanking D7S435, the DCMD locus could be assigned to the interval D7S493-D7S526 at 7p15-p21, which spans approximately 20 cM. Three-point linkage yielded a maximal lod score of 9.46 and location score of 43.5 and suggested that DCMD is 5,5 cM proximal to D7S493. Recently, a retinitis pigmentosa (RP7) locus has been mapped in roughly the same area of chromosome 7. Genetic data of both studies described below, allow a region of overlap between the location of the DCMD and the RP7 gene between D7S435 and D7S526. Both genes being one and the same will further substantiate the close relationship between macular degeneration and retinitis pigmentosa.
We have ascertained a multi-generation family with apparent autosomal recessive non-syndromic childhood hearing loss (DFNB). Failure to demonstrate linkage in a genome-wide scan with 300 polymorphic markers has suggested genetic heterogeneity for the hearing loss in this family. This heterogeneity could be demonstrated by analysis of candidate loci and genes for DFNB. Patients in one branch of the family (branch C) are homozygous for the 35delG mutation in the GJB2 gene (DFNB1). Patients in two other branches (A and B) carry two new mutations in the cadherin 23 (CDH23) gene (DFNB12). A homozygous CDH23 c.6442G→A (D2148N) mutation is present in branch A. Patients in branch B are compound heterozygous for this mutation and the c.4021G→A (D1341N) mutation. The substituted aspartic acid residues are highly conserved and are part of the calcium-binding sites of the extracellular cadherin (EC) domains. Molecular modeling of the mutated EC domains of CDH23 based on the structure of E-cadherin indicates that calcium-binding is impaired. In addition, other aspartic and glutamic acid residue substitutions in the highly conserved calcium-binding sites reported to cause DFNB12 are also likely to result in a decreased affinity for calcium. Since calcium provides rigidity to the elongated structure of cadherin molecules enabling homophilic lateral interaction, these mutations are likely to impair interactions of CDH23 molecules either with CDH23 or with other proteins. DFNB12 is the first human disorder that can be attributed to inherited missense mutations in the highly conserved residues of the extracellular calcium-binding domain of a cadherin.
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