Clustering of undermethylated CCGG and GCGC sequences in the 5' region of the Ha-ras-1 oncogene of human leukemic K562 cells.

The methylation state of the CCGG and GCGC sites of the Ha-ras-1 oncogene was analysed in the human leukemic K562 cell line, which was found to actively transcribe this gene. The results obtained demonstrate that the Ha-ras-1 oncogene is extensively methylated in both exonic, intronic, VTR and 3' untranslated portions, while undermethylations are present in a CG-rich island localized upstream of exon 1, near putative transcription initiation signals. Treatment of K562 cells with 5-azacytidine induces undermethylation of the Ha-ras-1 oncogene without major differences in the accumulation of Ha-ras-1 mRNA transcripts.

Monoclonal origin of B cells producing k, lambda and k lambda immunoglobulin light chains in a patient with chronic lymphocytic leukemia.

Immunoglobulin gene rearrangements can be used as genetic markers of clonality in the study of B-cell populations [4]. We have therefore analysed the structure and expression of heavy and light chain immunoglobulin genes in lymphocytes of a patient with chronic lymphocytic leukemia, where we found both k and lambda producing B cells, but in most of the cells both k and lambda chains were co-expressed on the same surface membrane. Single rearrangements were observed in mu, JH, k and lambda DNA sequences, thus providing strong evidence for the monoclonal origin of the cells bearing different light chains.

Regulation of the expression of class II genes of the human major histocompatibility complex in tumor cells.

The control of expression of human class II MHC genes has been studied in lymphoid and melanoma cells. Specific unmethylation of all restriction sites nearby the promoter regions has been detected in all cell lines and tissues studied, irrespective of their ability to express class II MHC products. The main functional role of DNA methylation appears, on the contrary, to be the regulation of a fraction of the nucleotide polymorphism of class II MHC genes.

c-myc oncogene alterations in human thyroid carcinomas.

A possible role of the c-myc oncogene in the neoplastic transformation of the human thyroid has been investigated. The structure, the methylation status, and the copy number of this oncogene have been analyzed in normal and in tumor thyroid DNAs by Southern blotting technique and dot blot hybridization. Among six carcinomas, four presented abnormal c-myc DNA structure: Three cases showed a mutation in the 5' flanking region of the gene, originating a new EcoRI site; the other case showed a deletion of 5 kb involving the first exon of the gene.

Regulation of the antigenic phenotype of human melanoma cells by recombinant interferons.

The ability of interferons to modulate the antigenic phenotype of tumor cells may involve alterations in the transcription, translation, membrane expression and shedding of Major Histocompatibility Complex (MHC) and Tumor Associated Antigens (TAAs). In the present study we have investigated possible mechanisms by which recombinant human interferons, IFN-alpha, -beta and -gamma, alter the antigenic profile of long- and short-term human melanoma cultures. IFN-alpha and -beta induced similar changes in the synthesis, expression and shedding of two TAAs, a HMW-MAA and a Cyt-MAA, in the established melanoma cell line Colo 38, whereas IFN-gamma exerted a differential effect on these melanoma associated antigens.

Human leukemic K562 cells: suppression of hemoglobin accumulation by a monoclonal antibody to human transferrin receptor.

The receptor for transferrin plays an important role both in tumor cell growth and in hemoglobin synthesis. In this paper, we demonstrate that the monoclonal antibody 42/6 to human transferrin receptor inhibits iron uptake in the human leukemic K562 cell line and suppresses hemoglobin accumulation in K562 cells induced to erythroid differentiation by butyric acid. In contrast, only slight inhibitory effects were observed on cell proliferation of both uninduced and erythroid-induced K562 cells treated with the 42/6 monoclonal antibody.

Lack of correlation between hypomethylation and expression of the HLA-DR alpha gene.

DNA methylation at the 5'-CCGG-3' sites of the HLA-DR alpha gene and relative flanking regions has been analyzed by Msp I and Hpa II enzymatic digestion in order to determine whether a correlation exists between DNA methylation and transcription of the HLA-DR alpha gene. Unexpectedly, and in contrast to the behavior of most eukaryotic genes, no positive correlation was found between hypomethylation and expression. In fact, HLA-DR alpha appears to be fully unmethylated at Msp I/Hpa II sites in K562 cells, not expressing DR molecules, and to exhibit a high degree of methylation in Colo 38 cells, which actively transcribe the gene.

Gene deletion in an Italian haemophilia B subject.

DNA from 20 Italian haemophilia B patients was analysed by the Southern blotting technique and hybridisation to a factor IX cDNA probe. A large deletion of factor IX gene was detected in one patient with antibodies to the infused factor; the EcoRI pattern of the other 19 subjects examined was normal.

Cytologic evidence for increased rRNA gene activity in hemin-induced K562(S) cells.

Hemin-induced K562(S) cells have been studied for the following parameters: cell proliferation, erythroid induction, hemoglobin accumulation, and activation of ribosomal gene clusters 48 hr after hemin induction. Increased transcriptional activity of rRNA genes has been demonstrated by cytochemical methods at both the cell population and single cell level. The following results have been obtained: (a) The vast majority of induced cells shows a highly significant increase in the number of active rRNA gene clusters per cell.

Efficient cell proliferation and predominant accumulation of epsilon-globin mRNA in human leukemic K562 cells which produce mostly Hb Gower 1.

Long-term cultures of K562(S) cells in 50-75 microM hemin allow the selection of 'hemin-resistant' K562 cells together with cells which proliferate efficiently while fully induced to express the human embryonic globin genes, as the hemoglobin Gower 1 (zeta 2 epsilon 2) is the predominant hemoglobin produced. Our experiments demonstrate that these K562 cells accumulate mostly epsilon-globin mRNA (epsilon-globin mRNA/gamma-globin mRNA = 2.9) suggesting that the control of hemoglobin expression is at a pretranslational level.

Human leukemia K562 cells: relationship between hemin-mediated erythroid induction, cell proliferation and expression of c-abl and c-myc oncogenes.

We have studied the expression of the c-myc and c-abl oncogenes in two human leukemic K562 cell lines which do express hemoglobin genes retaining a differential rate of cell proliferation. Our data indicate that in hemin-induced K562(S) cells the expression of c-abl oncogene decreases and appears to be related to a decrease in the proliferation capacity rather than to the activation of differentiated functions. The K562(hC) cell line, which produces large amounts of Hb Gower 1 retaining an efficient rate of cell proliferation, expresses indeed the c-abl oncogene at high level.

Molecular cloning and sequence analysis of a cDNA coding for the mouse alpha-like embryonic globin chain x.

Cytoplasmic poly(A)+mRNA from 12-day mouse-yolk-sac erythroid cells has been used to prepare a cDNA library in the plasmid pBR322. One clone containing sequences coding for the alpha-like embryonic globin chain x, pHE52, has been identified by hybrid selection and in vitro translation of the complementary mRNA. The nucleotide sequence of pHE52 confirms that it codes for an embryonic alpha-like globin chain.

Human leukemic K562 cells: differential effects of 5-azacytidine on DNA methylation of epsilon-, gamma-globin and 7SL RNA genes.

5 Azacytidine ribonucleoside (5 Aza CR), greatly enhances erythroid differentiation of the K562(h) cell line, with a sharp increase of embryonic and fetal globin gene expression. This phenomenon is correlated with the undermethylation of gamma-globin but not of epsilon-globin, as the epsilon-globin gene is already extensively undermethylated before 5AzaCR induction. By contrast no variations in both DNA methylation and expression are observed in 7SL RNA genes.

A monoclonal antibody to human transferrin receptor which inhibits erythroid differentiation of human leukemic K-562 cells.

In this paper we demonstrate that the 42/6 monoclonal antibody to human transferrin receptor (1) inhibits erythroid differentiation of human leukemic K-562 cells without affecting cell proliferation. Erythroid induction was monitored by benzidine-staining of K-562 cell suspensions and hemoglobin accumulation by cellulose acetate gel electrophoresis of post-mitochondrial cell lysates (4,5). Our results suggest that erythroid differentiation and cell growth require a different number of transferrin receptors.

The mouse beta h1 gene codes for the z chain of embryonic hemoglobin.

Beta h0 and beta h1 are two beta-like globin genes in the mouse beta-globin gene cluster whose functions have not previously been established. Transcripts of both beta h0 and beta h1 are found in yolk sac-derived erythroid cells from mouse embryos and in the murine erythroleukemic cell line GM979. S1 nuclease analysis shows that beta h1 is the more abundant of the two transcripts in both embryonic erythroid cells and the cell line GM979.

Human leukemia K-562 cells: induction of erythroid differentiation by 5-azacytidine.

In this article we show that the cytidine analog 5-azacytidine is able to induce differentiation of the human leukemia K-562 cell line. Erythroid induction is associated with (a) an increase of the overall globin synthesis and globin mRNA accumulation, (b) a relative increase of fetal with respect to embryonic globins, and (c) a decrease of the proliferative capacity of hemoglobin-containing cells. In addition, we have analysed the DNA methylation pattern at the cleavage sites of MspI and HpaII restriction enzymes, which are known to cleave differently CCGG DNA sequences when 5-methylcytosine is present.

[Inhibition of heme biosynthesis in erythroid precursors (BFU-e) isolated from human peripheral blood: effects on globin synthesis].

We studied the relationship between heme accumulation and globin synthesis in human erythroid precursors which were stimulated by 2 I.U. of erythropoietin in semi-solid cultures (1% methyl-cellulose, 20% fetal calf serum) and treated with 6-9 micrograms/ml of desferrioxamina (DF), a potent inhibitor of heme synthesis (6).