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ABSTRACT: We report on two cases of distal monosomy 11q and partial trisomy 16q due to a familial subtle translocation detected by FISH subtelomere screening. Exact breakpoint analyses by FISH with panels of BAC probes demonstrated a 9.3-9.5 megabase partial monosomy of 11q24.2-qter and a 4.9-5.4 megabase partial trisomy of 16q24.1-qter. The index patient displayed craniofacial dysmorphisms, mild mental retardation and postnatal growth retardation, muscular hypotonia, mild periventricular leukodystrophy, patent ductus arteriosus, thrombocytopenia, recurrent infections, inguinal hernia, cryptorchidism, pes equinovarus, and hearing deficiencies. In his mother's cousin who bears the identical unbalanced translocation, mild mental retardation, patent ductus arteriosus, hypogammaglobulinemia, recurrent infections, unilateral kidney hypoplasia, pes equinovarus, and hearing deficiencies were reported. Since only four descriptions of cryptic or subtle partial trisomies 16q have been published to date, our patients contribute greatly to the delineation of the phenotype of this genomic imbalance. In contrast to this, terminal deletions of the long arm of chromosome 11 cause a haploinsufficiency disorder (Jacobsen syndrome) in which karyotype-phenotype correlations are already being established. Here, our findings contribute to the refinement of a phenotype map for several Jacobsen syndrome features including abnormal brain imaging, renal malformations, thrombocytopenia/pancytopenia, inguinal hernia, testicular ectopy, pes equinovarus, and hearing deficiency.
American Journal of Medical Genetics Part A 12/2005; 139(1):19-24. · 2.39 Impact Factor
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Hartmut Engels, Antje Ehrbrecht,
Susanne Zahn,
Kristin Bosse,
Hans Vrolijk,
Stefan White,
Vera Kalscheuer,
Jan M N Hoovers,
Gesa Schwanitz,
Peter Propping,
Hans J Tanke,
Joop Wiegant,
Anton K Raap
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ABSTRACT: Cryptic subtelomeric chromosome rearrangements play an important role in the aetiology of mental retardation, congenital anomalies, miscarriages and neoplasia. To facilitate a comprehensive molecular-cytogenetic analysis of these extremely gene-rich and mutation-prone chromosome regions, novel multicolour fluorescence in situ hybridisation (FISH) techniques are being developed. As yet, subtelomeric FISH methods have either had limited multiplicities, making it necessary to perform many hybridisations per patient, or a limited scope of analysable chromosome mutation types, thus not detecting some aberration types such as pericentric inversions or very small aberrations. COBRA (COmbined Binary RAtio) labelling is a generic multicolour FISH technique that combines ratio and combinatorial labelling to attain especially high multiplicities with few fluorochromes. The Subtelomere COBRA FISH method ("S-COBRA FISH") described here detects efficiently all 41 BAC and PAC FISH probes necessary for a complete subtelomere screening in only two hybridisations. It was applied to the analysis of 10 cases with known and partially known aberrations and successfully detected balanced and unbalanced translocations, deletions and an unbalanced pericentric inversion in a mosaic situation. The ability of S-COBRA FISH to efficiently detect all types of balanced and unbalanced subtelomeric chromosome aberrations makes it the most comprehensive diagnostic procedure for human subtelomeric chromosome regions described to date.
European Journal of HumanGenetics 10/2003; 11(9):643-51. · 4.40 Impact Factor
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Christian Kubisch,
Benedikt G H Schoser,
Monika von Düring,
Regina C Betz,
Hans-Hilmar Goebel,
Susanne Zahn, Antje Ehrbrecht,
Jan Aasly,
Anja Schroers,
Nikola Popovic,
Hanns Lochmüller,
J Michael Schröder,
Thomas Brüning,
Jean-Pierre Malin,
Britta Fricke,
Hans-Michael Meinck,
Torberg Torbergsen,
Hartmut Engels,
Bruno Voss,
Matthias Vorgerd
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ABSTRACT: Heterozygous missense mutations in the caveolin-3 gene (CAV3) cause different muscle disorders. Most patients with CAV3 alterations present with rippling muscle disease (RMD) characterized by signs of increased muscle irritability without muscle weakness. In some patients, CAV3 mutations underlie the progressive limb-girdle muscular dystrophy type 1C (LGMD1C). Here, we report two unrelated patients with novel homozygous mutations (L86P and A92T) in CAV3. Both presented with a more severe clinical phenotype than usually seen in RMD. Immunohistochemical and immunoblot analyses of muscle biopsies showed a strong reduction of caveolin-3 in both homozygous RMD patients similar to the findings in heterozygous RMD. Electron microscopy studies showed a nearly complete absence of caveolae in the sarcolemma in all RMD patients analyzed. Additional plasma membrane irregularities (small plasmalemmal discontinuities, subsarcolemmal vacuoles, abnormal papillary projections) were more pronounced in homozygous than in heterozygous RMD patients. A stronger activation of nitric oxide synthase was observed in both homozygous patients compared with heterozygous RMD. Like in LGMD1C, dysferlin immunoreactivity is reduced in RMD but more pronounced in homozygous as compared with heterozygous RMD. Thus, we further extend the phenotypic variability of muscle caveolinopathies by identification of a severe form of RMD associated with homozygous CAV3 mutations.
Annals of Neurology 05/2003; 53(4):512-20. · 11.09 Impact Factor
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ABSTRACT: Cantú syndrome consists of hypertrichosis, osteochondrodysplasia, and cardiomegaly, and has been reported in 18 patients to date. We report an infant with Cantú syndrome. In addition to typical findings, he had relatively mild radiological and cardiological manifestations. Previously undescribed findings included pyloric stenosis and elevated alkaline phosphatase levels. Brain scans showed bilateral calcification of the Arteriae thalamostriatae and widening of the outer liquor spaces and lateral ventricles. Because the propositus is the youngest patient reported to date, our findings refine the clinical spectrum of Cantú syndrome in neonates and young infants. The etiology and mode of inheritance of Cantú syndrome are unknown. Most cases are sporadic. Microdeletions have been discussed as a possible cause of Cantú syndrome. Recently, several syndromes with multiple congenital anomalies and mental retardation have been shown to be caused by subtelomeric chromosome aberrations. We excluded the presence of a cryptic subtelomeric chromosome anomaly in our patient by fluorescence in situ hybridization (FISH) screening with locus-specific probes.
American Journal of Medical Genetics 09/2002; 111(2):205-9.
