TATA-less promoters of some Ets-family genes are efficiently repressed by wild-type p53.

p53 has been reported to repress a number of TATA-containing promoters in transient transfection assays. TATA-less promoters are generally believed to be refractive to p53 repression. We report here that the TATA-less promoters of Ets-family genes (Ets-1 and Ets-2) are efficiently repressed by wild-type but not mutant p53 in transient co-transfection assays. Moreover, p53 was immunologically detected in protein complexes formed on oligonucleotides from both the TATA-containing and TATA-less promoters. Our data suggest that p53 is involved in the regulation of the expression of both promoter types, most probably by protein-protein interaction. A model for p53 function in promoter repression is proposed.

The H19 TATA-less promoter is efficiently repressed by wild-type tumor suppressor gene product p53.

The developmentally regulated H19 gene displays several remarkable properties: expression of an apparently non-translated mRNA, genomic imprinting (maternal allele only expressed), relaxation of the imprinting and/or epigenetic lesions demonstrated in some tumors. Despite several observations after relaxation of imprinting status of the gene, data on trans and cis-acting factors required for the human H19 gene expression are still missing. As a first approach to address identification of factors involved in the regulation of the gene, we found that cells from a p53 antisense-transfected HeLa clone displayed increased amounts of H19 transcripts when compared to the non-transfected cells. Moreover, a HeLa clone stably transfected with a temperature sensitive (ts) 143 Ala p53 mutant exhibited temperature-dependent regulation of H19 expression. This preliminary indication of the repressing effect of the p53 protein on H19 expression has been confirmed by transient cotransfection experiments in HeLa cells, using luciferase surrogate constructs under the control of the 823 bp sequence immediately upstream of the transcription start point of the H19 gene, and different constructs containing sense, antisense or a ts 143 Ala mutant p53 cDNA. We observed an increase of H19 promoter-driven activity in transient cotransfections with the antisense p53 cDNA and the temperature sensitive mutant p53 at the non-permissive temperature, but a decrease with sense wild-type p53 cDNA. Furthermore, the cotransfection experiments were repeated in a cell line lacking endogenous p53. (Calu 6 cells) and the results provided additional evidence for a down regulation of the expression of the H19 gene by the p53 protein.

Dissection of an inverted X(p21.3q27.1) chromosome associated with mental retardation.

In a 6 year old boy referred for mental retardation, fragile X syndrome was ruled out by cytogenetic and molecular analyses. Cytogenetic investigations revealed an inverted X chromosome (p21.3q27.1). A similar chromosomal rearrangement was detected in his mildly mentally retarded mother. Fluorescence in situ hybridization (FISH), using a panel of ordered YAC clones, allowed the identification of YACs spanning both the Xp21.3 and Xq27.1 breakpoints, where many non-specific mental retardation loci have been reported so far. Further investigations by FISH showed that the IL1RAPL1 gene at Xp21.3 was disrupted by the X chromosome inversion and therefore its inactivation may be related to the mental retardation observed in our patients.

Homologous T and B cells immortalized in vitro by the Epstein-Barr virus exhibit differential genetical and functional features.

After in vitro EBV infection of peripheral blood lymphocytes (PBL), we previously obtained IL-2-independent T-cell lines expressing EBNA1 and LMP1 viral latent genes. One tumorigenic clone, NC5, was further characterized for chromosomal abnormalities, rearrangement and expression of oncogenes, and constitutive or induced activation of cellular transduction pathways. NC5 as well as TC cells derived from an NC5-induced tumor exhibited the same few chromosomal abnormalities absent in normal PBL and B-cell lines (LCLs) from the same donor. No rearrangement or altered expression of C-MYC, BCL-2 and NF-KB2 oncogenes could be detected. In contrast, we found high levels of BCL-X and thioredoxin (TRX), as markers of EBV infection or T-cell activation/transformation status. No constitutive activation of NF-kappa B or STAT transcriptional complexes was observed in these cells. For NF-kappa B, this was in apparent contradiction with its reported inducibility mediated by LMP1, taking into account that NF-kappa B was still inducible by TNF alpha or PMA and ionomycin. Our results highlight independence of EBV protein-mediated transformation towards classical cellular pathways in T-lymphocytes.

"Spontaneous" erythroid progenitor cells in the circulation and monosomy 7 in juvenile chronic myelogenous leukemia.

Cytogenetic examination of bone marrow cells from two patients with juvenile chronic myelogenous leukemia (JCML) showed a monosomy 7. Peripheral blood from these two children was found to contain large numbers of cells capable of erythroid colony formation in tissue culture without added erythropoietin. We conclude that erythroid progenitor cells are part of the malignant clone in JCML.

Detection of methylcytosine-rich heterochromatin on banded chromosomes. Application to cells with various status of DNA methylation.

A procedure including incorporation of 5-bromodeoxyuridine (BrdU) in DNA and a thermal denaturation step was developed to obtain both R-banding and efficient binding of anti-5-methylcytosine antibodies on metaphase chromosomes. BrdU incorporation improved the efficiency of antibody binding disclosed by immunofluorescence staining. This method allowed semiquantitative analysis of the antibody binding sites on straightforward characterized metaphase chromosomes and was applied to normal human lymphocytes and lymphoblastoid cell lines for which DNA methylation status had been previously analyzed. A correlation was established between level of DNA methylation and the semiquantitative estimate of antibody fixation. This procedure can be used to study DNA methylation on metaphase chromosomes in transformed and cancerous cell lines.

Rab2 nucleotide coding sequence in gallus gallus and it phylogenetic position.

The nucleic acid sequence of the chicken rab2 mRNA was determined by sequencing a full length cDNA. The phylogeny of rab2 sequences was established.

Isolation and characterization of transformed human T-cell lines infected by Epstein-Barr virus.

Epstein-Barr virus (EBV) is a human lymphotropic virus whose main targets have traditionally been described as B lymphocytes and epithelial cells. Here we report the isolation and characterization of largely monoclonal transformed human T-cell lines infected by EBV. The transformed T cells expressed CD2, CD3, and either CD4 or CD8 surface molecules and more generally displayed the phenotype of naive T cells with a complete and clonal rearrangement of the T-cell receptor. None of the cell lines expressed B cells, natural killer, or myeloid antigens or had immunoglobulins genes rearrangement. They grew in the absence of growth factor; however, they all secreted interleukin-2 after mitogenic activation. Polymerase chain reaction (PCR) analysis showed the presence of EBV DNA in all these cell lines. Moreover, Southern blot analysis of one of these cell lines shows the presence of circular episomic EBV DNA, and by Northern blot or reverse transcriptase-PCR analysis, only the expression of Epstein-Barr nuclear antigen-1 (EBNA-1) and latent membrane protein-1 (LMP-1) genes was detected. Finally, the complete transformed phenotype of this T-cell line was shown by its injection into nude or recombination activating gene 2 (RAG2)-deficient mice that led to the formation of solid tumors.

Myeloid stem cell kinetics in children hypertransfused during remission induction of acute lymphoblastic leukemia.

Experimental studies in animals and recent preliminary clinical evidence raised the possibility that hypertransfusion might be capable of producing a beneficial effect on granulopoiesis recovery following irradiation or chemotherapy. This prompted us to design a study to determine the effect of hypertransfusion on the blood and marrow CFU-c of leukemic children during remission induction. Nineteen children with acute lymphoblastic leukemia have been randomized in pairs to normotransfused (Hb: 12-14 g/dl) and hypertransfused (Hb: 16-18 g/dl) groups. Anti-leukemic chemotherapy (vincristine and adriamycin weekly during 4 weeks and prednisone daily) was identical in all children. As expected, suppression of erythropoiesis was observed in the hypertransfused group. During the first three courses of chemotherapy, the number of marrow CFU-c remained very low in both groups. One week after the third course of chemotherapy the number of bone marrow CFU-c began to increase in both groups. One week after course four the CFU-c value was significantly larger in the hypertransfused group. We also observed that circulating CFU-c were almost absent before induction chemotherapy, whereas their number increased after course three and was higher in the hypertransfused group and remained higher after course four. These results show the kinetics of bone marrow recovery after chemotherapy and suggest that hypertransfusion increases the rate of recovery of granulopoiesis.

Molecular and cytogenetic characterisation of a small interstitial de novo 20p13-->p12.3 deletion in a patient with severe growth deficit.

We report on a small de novo interstitial deletion of the short arm of chromosome 20, 46,XY,del(20)(p12.3p13), in a young boy with hypotonia, moderate development delay, mild facial dysmorphism and severe growth failure. This patient did not show major features of Alagille-Watson Syndrome (AWS) which are common in more proximal 20p deletions. Standard and high resolution chromosome banding analysis revealed an apparent terminal deletion. Nevertheless, using chromosomal fluorescent in situ hybridization (FISH) and molecular analysis with polymorphic markers, we demonstrated that the abnormal chromosome resulted from a de novo interstitial deletion of paternal origin spanning from D20S842 to D20S900 and covering approximately 6 Mb. These findings indicate that a karyotype can lead to insufficient characterization of an apparently terminal deletion, and that one or a few genes in 20p13-->p12.3 bands are important for normal growth.

New sites of methylcytosine-rich DNA detected on metaphase chromosomes.

In situ immunofluorescence detection of antibodies against 5-methylcytosine on metaphase chromosomes prepared by a new procedure allows the display of new 5-methylcytosine-rich sites as compared to previously published methods. In short-term culture lymphocytes, the immunofluorescent signals give a recurrent pattern in which four types of binding sites can be distinguished. Type I sites are the secondary constrictions and a few juxtacentromeric regions, type II sites correspond to T-bands. Both types I and II sites emit a strong fluorescence. Type III sites form an R-band pattern and emit a weaker fluorescence. Type IV sites are the short arms of acrocentrics, they emit strong but polymorphic signals. The results obtained from control experiments suggest that the pattern observed is rather the expression of an uneven distribution of 5-methylcytosine-rich sites than a consequence of the various treatments used. In a lymphoblastoid cell line known to have a reduced 5-methylcytosine content, it was possible to demonstrate a heterogeneous hypomethylation among chromosome structures, principally involving type I sites. The method opens the possibility of studying in situ on chromosomes, regional variations of methylation in pathological conditions.