A screening for submicroscopic rearrangements was performed in 111 patients with idiopathic mental retardation (MR) using fluorescence in situ hybridization (FISH) probes from the subtelomeric regions of all chromosome arms. Ten cryptic rearrangements were found (9%): five de novo deletions; one unbalanced de novo translocation; three unbalanced inherited translocations; and one unbalanced recombinant chromosome, inherited from a parent with a pericentric inversion. In addition, 50 of the patients were screened for interstitial rearrangements with spectral karyotyping (SKY), but no aberrations were found. However, SKY detected the subtelomeric rearrangement in three of the four unbalanced translocations. Dysmorphic features were present in all patients with detected subtelomeric rearrangements.
Neurofibromatosis type 2 (NF2) is an autosomal dominant disorder whose hallmark is bilateral vestibular schwannoma. It displays a pronounced clinical heterogeneity with mild to severe forms. The NF2 tumor suppressor (merlin/schwannomin) has been cloned and extensively analyzed for mutations in patients with different clinical variants of the disease. Correlation between the type of the NF2 gene mutation and the patient phenotype has been suggested to exist. However, several independent studies have shown that a fraction of NF2 patients with various phenotypes have constitutional deletions that partly or entirely remove one copy of the NF2 gene. The purpose of this study was to examine a 7 Mb interval in the vicinity of the NF2 gene in a large series of NF2 patients in order to determine the frequency and extent of deletions. A total of 116 NF2 patients were analyzed using high-resolution array-comparative genomic hybridization (CGH) on an array covering at least 90% of this region of 22q around the NF2 locus. Deletions, which remove one copy of the entire gene or are predicted to truncate the schwannomin protein, were detected in 8 severe, 10 moderate and 6 mild patients. This result does not support the correlation between the type of mutation affecting the NF2 gene and the disease phenotype. This work also demonstrates the general usefulness of the array-CGH methodology for rapid and comprehensive detection of small (down to 40 kb) heterozygous and/or homozygous deletions occurring in constitutional or tumor-derived DNA.
The distal 3p deletion syndrome is characterized by developmental delay, low birth weight and growth retardation, micro- and brachycephaly, ptosis, long philtrum, micrognathia, and low set ears. We have used FISH and BACs in order to map three 3p deletions in detail at the molecular level. The deletions were 10.2-11 Mb in size and encompassed 47-51 known genes, including the VHL gene. One of the deletions was interstitial, with an intact 3p telomere. In nine previously published patients with 3p deletions, the size of the deletion was estimated using molecular or molecular cytogenetic techniques. The genotype, including genes of interest, and the phenotype of these cases are compared and discussed. The localization of the proximal breakpoint in one of our patients suggests that the previously identified critical region for heart defects may be narrowed down, now containing three candidate genes. We can also conclude that deletion of the gene ATP2B2 alone is not enough to cause hearing impairment, which is frequently found in patients with 3p deletion. This is the third reported case with an interstitial deletion of distal 3p.
We have investigated three patients with 21q deletions, two with developmental delay, dysmorphic features and internal organ malformations, and one with cognitive function within the normal range but with some deficits in gross and fine motor development. All aberrations were characterized by array-comparative genomic hybridization (array-CGH). In addition, extensive fluorescence in situ hybridization (FISH) mapping on metaphase chromosomes and mechanically stretched chromosomes was performed on patient 1 who had an extremely complex intrachromosomal rearrangement with 16 breakpoints, four deletions and four duplications. Patients 2 and 3 had interstitial deletions comprising 21q21.1-21q22.11 and 21q11.2-21q21.3, respectively. Partial deletions of 21q are rare and these patients display a highly variable phenotype depending on the size and position of the deletion. A review of the literature identified 38 cases with pure 21q deletions. Twenty-three of these had reliable mapping data. The combined information of present and previous cases suggests that the ITSN1 gene is involved in severe mental retardation in patients with 21q deletion. In addition, a critical region of 0.56 Mb containing four genes, KCNE1, DSCR1, CLIC6 and RUNX1, is associated with severe congenital heart defects, and deletions of the most proximal 15-17 Mb of 21q is associated with mild or no cognitive impairment, but may lead to problems with balance and motor function.
Human embryonic stem (hES) cells are important research tools in studies of the physiology of early tissue differentiation. In addition, prospects are high regarding the use of these cells for successful cell transplantation. However, one concern has been that cultivation of these cells over many passages might induce chromosomal changes. It is thus important to investigate these cell lines, and check that a normal chromosomal content is retained even during long-term in vitro culture. Comparative genomic hybridization (CGH) was used to analyse three hES cell lines derived in our laboratory and cultured continuously for 30-42 weeks, comprising 35-39 cell passages. CGH could be successfully performed in 48 out of a total of 50 isolated single cells (96%). All three lines (HS181, HS235 and HS237) were shown to have a normal chromosomal content when analysed by both single cell CGH and by karyotyping up to passages 39, 39 and 35 respectively. No aneuploidies or larger deletions or amplifications were detected, and they were female (46,XX). However, HS237 was reanalysed at passage 61, and at that point an aberrant X chromosome was detected by karyotyping. The aberration was confirmed and characterized by single cell CGH and fluorescence in situ hybridization analysis, 46,X,idic(X)(q21). Thus, chromosomal aberrations may occur over time in stem cell lines, and continuous analysis of these cells during cultivation is crucial. Single cell CGH is a method that can be used for continuous analysis of the hES cell lines during cultivation, in order to detect chromosome imbalance.
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