Reduced copy number of DAZ genes in subfertile and infertile men

Objective(s): To determine the copy number and identity of the DAZ genes on the Y chromosomes of infertile patients. Design: Prospective study. Setting: University medical center. Patient(s): One hundred and thirty-nine patients with male factor infertility. Intervention(s): The separate genes were detected by polymerase chain reaction (PCR) digestion assays of sequence family variants in leukocyte DNA and by fluorescence in situ hybridization of interphase nuclei and chromatin fibers. Main Outcome Measure(s): Number of DAZ genes present. Result(s): One hundred twenty-nine patients had four genes, 6 patients had two genes, and 4 patients had none. Three patients had a deletion of the two proximal DAZ genes, and three were missing both distal genes. Semen analysis showed a less severe phenotype in patients with only two DAZ genes compared with patients missing all four genes. Conclusion(s): In six patients, two different partial deletions were found that were not detected by PCR with conventional markers. One patient with an AZFb deletion appeared to also have a partial AZFc deletion that was not detected by routine PCR. Phenotypic differences between patients with different deletions suggest a dose effect of the DAZ genes. (Fertil Steril(R) 2002;77:68-75. (C) 2002 by American Society for Reproductive Medicine.

Further delineation of the chromosome 14q terminal deletion syndrome

A patient with hypotonia, blepharophimosis, ptosis, a bulbous nose, a long philtrum, upturned corners of the mouth, and mild developmental delay was found to have a small subtelomeric deletion of the long arm of chromosome 14 (q32.31-qter). In comparing her phenotype with previously reported patients with similar 14q deletions, due to either a linear deletion or to a ring chromosome 14, a clinically recognizable terminal 14q microdeletion syndrome was evident. Due to the limited number of cases reported, it was not possible to assign specific features to specific regions of terminal 14q. The comparison of features in cases with a linear deletion of 14qter (n = 19) to those in cases with a deletion due to a ring chromosome 14 (n = 23), both with the same breakpoint in 14q, showed that seizures and retinitis pigmentosa have been found only in patients with ring chromosomes. Several hypotheses are put forward to explain this difference: mitotic instability of ring chromosomes; a telomere position effect in ring chromosomes in which the 14p telomere silences nearby gene(s) on the q-arm; and dose-dependent gene(s) involved in seizures and retinitis pigmentosa located on the short arm of chromosome 14. In our opinion, only seizures may be explained by the mitotic instability of ring chromosomes, while both seizures and retinitis pigmentosa may be explained by silencing of gene(s) on 14q by the 14p telomere; the third hypothesis seems unlikely to explain either symptom. (C) 2002 Wiley-Liss, In

Genetic alterations in childhood medulloblastoma analyzed by comparative genomic hybridization

Despite intensive therapy, the survival of children with medulloblastoma remains disappointing. Moreover, children who survive are affected by serious long-term sequelae of treatment that impair their quality of life. In search of chromosomal aberrations indicative of sites involved in oncogenic transformation and in an attempt to find reliable prognostic markers, the authors analyzed 15 medulloblastomas by comparative genomic hybridization. All neoplasms showed chromosomal abnormalities. The most frequent losses were 17p (7/15 tumors), 8p and 11p (6/15), 10p, 11q,16q, and 20q (5/15), and 20p (4/15). Gains were recurrently found at 7q (10/15 tumors), 17q and 18q (9/15 tumors), 7p and 13q (7/15), 18p (6/15), and 1q, 4q, 6q, and 9p (5/15 tumors). Four tumors showed loss of 17p together with gain of 17q, suggesting an isochromosome 17q. High-level amplifications were seen at lp34, 5p15, 13q34. and 18p11 (one tumor each), and at 2p15 in two tumors, one of which was proven to be N-Myc amplification. The overall pattern of alterations found in this study confirms the findings of other studies and adds two novel regions with chromosomal gains, at 13q and 18q, Previous reports on the relation between 17q gain and survival could not be confirmed, whereas amplification of N-myc or L-myc seems to indicate poor clinical outcom

Long-Term Outcome for People with Severe Intellectual Disabilities: Impact of Social Impairment

Results from a 25-year follow-up study of the Camberwell Cohort (L. Wing & Gould, 1978, 1979) were presented. Ninety-one people, ranging in age from 27 to 41 years, were traced, and an outcome measure was developed incorporating independent functioning, residential placement, employment, and quality of life. Outcome was rated as either poor (53%) or fair (43%), with only 3% having a good outcome. Using logistic regression methods, we found that the best predictor of outcome was social impairment, with those who were socially impaired, particularly those in the aloof category, having a poorer outcome. Higher IQ at Time 1 and lower challenging behavior were also predictive of better outcome. An in-depth look at social impairment revealed that social impairment remained stable over time

Comprehensive analysis of human subtelomeres with combined binary ratio labelling fluorescence in situ hybridisation

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

Analysis of severely affected patients with dihydropyrimidine dehydrogenase deficiency reveals large intragenic rearrangements of DPYD and a de novo interstitial deletion del(1)(p13.3p21.3)

Dihydropyrimidine dehydrogenase (DPD) deficiency is an infrequently described autosomal recessive disorder of the pyrimidine degradation pathway and can lead to mental and motor retardation and convulsions. DPD deficiency is also known to cause a potentially lethal toxicity following administration of the antineoplastic agent 5-fluorouracil. In an ongoing study of 72 DPD deficient patients, we analysed the molecular background of 5 patients in more detail in whom initial sequence analysis did not reveal pathogenic mutations. In three patients, a 13.8 kb deletion of exon 12 was found and in one patient a 122 kb deletion of exon 14-16 of DPYD. In the fifth patient, a c.299_302delTCAT mutation in exon 4 was found and also loss of heterozygosity of the entire DPD gene. Further analysis demonstrated a de novo deletion of approximately 14 Mb of chromosome 1p13.3-1p21.3, which includes DPYD. Haploinsufficiency of NTNG1, LPPR4, GPSM2, COL11A1 and VAV3 might have contributed to the severe psychomotor retardation and unusual craniofacial features in this patient. Our study showed for the first time the presence of genomic deletions affecting DPYD in 7% (5/72) of all DPD deficient patients. Therefore, screening of DPD deficient patients for genomic deletions should be considered