Familial pericentric inversion of chromosome 18: intrafamilial variability of the recombinant dup(18q).

A pericentric inversion of chromosome 18 [inv(18)(p11.32q22)] and its recombinants has been studied in a three-generation family. A mother/son couple, carrying the rec dup(18q), showed dysmorphisms and short stature but only the son had mild mental retardation and speech delay. Karyotype, FISH analysis with subtelomeric probes and a 0.8 Mb array-CGH investigations were used to analyze this recombinant, demonstrating no genomic differences between the two relatives. This is the first observation of familial transmission of a rec dup(18q), showing that this recombinant is associated with a mild phenotype with variable clinical picture.

Prenatal diagnosis of a de novo satellited chromosome 18 (18ps) associated with 18p deletion.

De novo satellited non-acrocentric chromosomes are very rare findings in prenatal diagnosis. Here we report the first case of a de novo 18ps, associated with del(18p), detected at prenatal diagnosis. A 37 years old woman underwent Chorionic Villus Sampling (CVS) for advanced maternal age. Cytogenetic analysis on direct CVS preparation (CVSc) revealed a male karyotype with a nonfamilial satellited 18ps and a reciprocal translocation t(17;19)(P11.1;q11) of maternal origin. The mesenchimal CVS culture (CVSm) showed a mosaic of cell lines with various involvement of chromosome 18: 18ps [36/70]/ r(18) [25/70]/ del(18p) [3/70]/ -18 [6/70]. Amniotic fluid cells (AFC) confirmed the homogeneous karyotype found at CVSc. The molecular cytogenetic characterization, performed on AFC, allowed the following diagnosis: 46,XY, +15, dic(15;18)(p11.1;p11.2), t(17;19)(p11.1;q11)mat. ish dic(15;18)(tel 18p-, D15Z1+, wcp18-, wcp 18+, D18Z1+, tel 18q+). The foetal autopsy disclosed subtle facial dysmorphisms and corpus callosum hypoplasia. In case of prenatal detection of de novo terminal ectopic NORs an accurate cytogenetic and molecular analysis should be performed in order to rule out subtle unbalancements.

Paracentric inversion of Yq and review of the literature.

We report on the second prenatal diagnosis of familial paracentric inversion of the long arm of Y chromosome [46, X, inv(Y)(q11.2q12)]. The anomaly was detected through an amniocentesis performed because of advanced maternal age. The inversion has been detected by standard GTG banding methods and better characterized by FISH with painting probe and specific satellite probes DYZ1 and DYZ3. The inversion derived from phenotypically normal father. Pregnancy was uneventful and an healthy child was born. We discuss the issue concerning genetic prenatal counselling of this rare condition and we report the clinical follow up of the child.

Prenatal UPD testing survey in Robertsonian translocations.

A systematic search was made for uniparental disomy (UPD) in familial or de novo balanced Robertsonian translocations, identified by prenatal cytogenetic investigations. Parent-of-origin studies were performed using molecular markers for both chromosomes involved in the translocation. No UPD cases were identified out of 23 analysed cases. The results presented here, combined with other available data, provide preliminary elements for genetic counselling in these common chromosomal rearrangements.

Chromosomal aberrations induced by BK virus T antigen in human fibroblasts.

Human fibroblasts, transfected with a recombinant DNA containing the neo gene and BK virus (BKV) early region, which expresses BPV large T antigen (TAg), show cytogenetic alterations characterized by dicentric chromosomes and other structural aberrations such as deletions, duplications, translocations, and ring chromosomes. Such alterations were absent or significantly less frequent in human fibroblasts transfected with a plasmid expressing only the neo gene. The chromosome damage in BKV-transfected cells was evident before the appearance of the morphologically transformed phenotype and therefore seems to be a primary effect of TAg expression in human cells. The specific pattern of chromosome aberrations suggests the prevalence of an indirect clastogenic effect, determined by the inhibition of p53 regulatory functions on genome stability by BKV TAg. Due to the widespread distribution of BKV in the human population and to the latent state of BKV DNA in many human organs, the clastogenic activity of BKV TAg may potentially participate in an oncogenic process involving BKV latently infected cells.

Syntenic groups between human chromosome 9 and Indian muntjac chromosomes revealed by ZOO-FISH.

The recent techniques of chromosome painting allow the molecular comparison of chromosomes from distantly related mammals. Here we show a modified ZOO-FISH technique based on lower stringency which allows to identify syntenic regions between human and Indian muntjac chromosomes. While when probing with human chromosome 2, no consistent cluster of hybridization were observed, with human chromosome 9, a number of discrete fluorescent regions along the Indian muntjac chromosomes were found.

Heteromorphic variant 18ph+ analyzed by sequential CBG and fluorescence in situ hybridization.

An 18ph+ variant formerly detected by QFQ/CBG was subsequently analyzed by CBG and fluorescence in situ hybridization. It was found to be the consequence of amplification of alphoid DNA specific for centromeric heterochromatin of chromosome 18.

Induction of senescence and control of tumorigenicity in BK virus transformed mouse cells by human chromosome 6.

Viral transformation models may be useful to detect and map human tumor suppressor genes. BK virus (BKV), a human papovavirus, readily transforms rodent cells but is unable to transform human cells, suggesting that oncosuppressive functions expressed in human cells control BKV oncogenic activity. We have transferred human chromosome 6 to BKV-transformed mouse pRPcT1ss1 cells. The great majority of the colonies growing in selective medium degenerated by senescence. Only five hybrid pRPcT1ss1/H6 clones maintained the immortalized phenotype of the recipient cell line. All the immortalized clones had two common regions of deletion involving bands 6q21-22 and the SOD2 gene in 6q25. Senescent colonies carried an intact chromosome 6. A specific human sequence in 6q21-22 was amplified by PCR in senescent cells, suggesting that this region harbors a gene inducing senescence. The SOD2 deletion confirms recent data on the role of the Mn-dependent superoxide dismutase in inhibition of proliferation. The monochromosomic hybrids bearing a deleted chromosome 6 showed a reverted phenotype in vitro and a significantly longer latency period before they were tumorigenic in nude mice, indicating the presence of a tumor suppressor gene in the residual regions of chromosome 6. Molecular mapping suggests that this gene is located in 6q27. The BKV transformation model detects genes inducing senescence and tumor suppressor genes on human chromosome 6 and may represent a useful system to isolate and clone such genes.

Multiple loci on human chromosome 11 control tumorigenicity of BK virus transformed cells.

BK virus (BKV) is a human papovavirus that readily transforms rodent cells, but not human cells, to a neoplastic phenotype, suggesting that tumor-suppressor functions expressed in human cells control BKV oncogenicity. Transfer of a normal human chromosome 11 to BKV-transformed mouse cells suppresses the malignant phenotype. In this report we map the regions of chromosome 11 involved in tumor suppression. Transfer of chromosome 11 to the BKV-transformed hamster cell line HKBK produces monochromosomic hybrids retaining only portions of the transferred human chromosome. We have compared the tumorigenicity of the hybrids with the molecular mapping of chromosome 11 retained regions. This analysis indicated that 3 regions of human chromosome 11, 11p15.5, 11p13 and 11q13, cooperate in tumor suppression. However, 11q13 seems the most important, since all the HKBK/H11-induced tumors analysed had lost this region, whereas 11p15.5 and 11p13 were sometimes retained. The chromosomal regions identified in this study are deleted in several types of human tumors, suggesting that the BKV transformation system specifically detects tumor-suppressor genes on chromosome 11 that are involved in human oncogenesis. This model may be of use in isolating and cloning such genes. The results of this report raise the possibility that BKV may have a synergistic tumorigenic effect in human cells where tumor-suppressor genes controlling its oncogenic potential are inactivated.

Heteromorphism of human chromosome 18 detected by fluorescent in situ hybridization.

The individual variations of pericentromeric heterochromatin in human chromosome 18 were analysed using the C-banding techniques and nonradioactive fluorescence in situ hybridization (FISH) with chromosome 18 alpha-satellite DNA probe. FISH analysis shows heteromorphisms almost undetectable by C-banding and which regularly segregate in a family.

Suppression of tumorigenicity and anchorage-independent growth of BK virus-transformed mouse cells by human chromosome 11.

Viral transformation models may be useful for detecting and mapping human tumor suppressor genes. BK virus (BKV), a human papovavirus, readily transforms rodent cells but is unable to transform human cells, suggesting that oncosuppressive functions expressed in human cells control BKV oncogenic activity. We have transferred human chromosome 11 to BKV-transformed mouse cells. All of the cell clones were suppressed in the tumorigenic phenotype and anchorage-independent growth, except one clone which was nontumorigenic but maintained the ability to grow in soft agar. Cytogenetic analysis and DNA hybridization with chromosome 11-specific probes showed that all the reverted hybrids had an intact human chromosome 11, except the clone growing in semisolid medium which had lost the short arm. The results suggest that a gene located on 11p controls anchorage independence, whereas a gene on 11q controls the tumorigenicity of BKV-transformed cells. BKV T-antigen was expressed in all the hybrid clones at the same level as in the parental cell line, indicating that the putative human tumor suppressor gene(s) do not inhibit expression of the viral oncogene and must operate by another mechanism in inducing reversion of the oncogenic phenotype. Since BKV-transformed mouse cells are highly susceptible to retrovirus infection, this model can be used for searching and cloning tumor suppressor gene(s) by retrovirus-mediated "insertional mutagenesis".

[Radiological investigation in Raynaud's syndrome: meaning and limits (author's transl)]. / L'indagine radiologica nel fenomeno di Raynaud: significato e limiti.

The authors review the past five year's case history covering the humeral arteriographies carried out for the purpose of studying the vascularization of the hand in patients presenting Raynaud-like symptomatology. It is pointed out that in the majority of cases digital arteries show significant lesions and that a certain percentage of these are accompanied by haemodynamically significant alterations of the peripheral part of arteries of the forearm and of the metacarpus. Deep general narcosis is fundamental for a correct interpretation of the angiographies. Within the cases recorded the clinical data are a concomitant of arterious lesions typical of Raynaud's disease.