Lipopolysaccharide induction of THP-1 cells activates binding of c-Jun, Ets, and Egr-1 to the tissue factor promoter.

These studies examine the molecular basis for increased transcription of tissue factor (TF) in THP-1 cells stimulated with lipopolysaccharide (LPS). DNase I footprinting identified six sites of protein-DNA interaction between -383 and the cap site that varied between control and induced extracts. Four footprints show qualitative differences in nuclease sensitivity.

Expression of stress proteins and lymphocyte reactivity in heterotopic cardiac allografts undergoing cellular rejection.

This report addresses the concept that, during rejection, the allograft undergoes a stress response which leads to an increased expression of stress proteins, also called heat shock proteins (hsp), and the recruitment and activation of hsp-reactive lymphocytes. Recent studies in our laboratory have provided evidence that hsp-reactive T-cells are present in cardiac allografts undergoing rejection. In this study, an MHC incompatible heterotopic heart allograft model (ACI into LEW) was chosen to analyse the kinetics of hsp expression during the development of rejection.

Lipopolysaccharide induction of tissue factor expression in THP-1 monocytic cells. Protein-DNA interactions with the promoter.

Tissue factor, the cellular receptor for factor VII/VIIa, activates both the intrinsic and extrinsic pathways of blood coagulation. In this analysis we have used DNase I footprinting to map the sites of protein-DNA interaction along the promoter (-383 to +8) using nuclear extracts prepared from uninduced and lipopolysaccharide-induced THP-1 cells. We have identified six regions that interact with nuclear factors in both uninduced and induced extracts.

Amplification of epidermal growth factor receptor gene in gliomas: histopathology and prognosis.

In order to evaluate the incidence and prognostic significance of gene amplification in primary brain neoplasms we measured the number of gene copies per cell of three oncogenes (epidermal growth factor receptor [EGFR] gene, N-myc, C-myc) and syntenic control genes in 40 specimens using quantitative DNA dot blots. We observed EGFR gene amplification in astrocytomas and anaplastic astrocytomas with approximately the same incidence as in glioblastoma multiforme (33%), although large amplifications were only seen in glioblastoma multiforme. Fourteen patients had a supratentorial glioblastoma multiforme; six had EGFR gene amplification and eight had either normal EGFR gene copy number or elevated EGFR copy number attributable to extra copies of chromosome 7.

Gene amplification and gene dosage in cell lines derived from squamous cell carcinoma of the head and neck.

Gene amplification and related alterations in gene dosage were analyzed in a series of 34 cell lines derived from different human head and neck squamous cell carcinomas (SCCHN). INT2 gene amplification was observed in 62%, MYC gene amplification in 24%, and EGFR gene amplification in 21% of the cell lines. There was a strong correlation between EGFR gene amplification and increased copies of the ERBB2 gene on chromosome 17, suggesting a synergistic selection for these two genes either during cancer progression or in culture.

Oncogene amplification in breast cancer.

To refine the analysis of gene amplification in breast cancer, the authors have developed sensitive methods that can be used to screen nucleic acid prepared from a variety of sources. In their analysis, Southern hybridization and DNA dot-blot analysis were used to screen 49 breast cancer DNAs for Myc, Neu, and Int-2 gene amplification. The analysis detected minimal one extra gene copy) as well as expanded (two or more extra gene copies) gene amplifications, and in addition, distinguished between gene amplification and aneuploidy as the cause of extra gene copies.

The beta globin 3' enhancer element confers regulated expression on the human gamma globin gene in the human embryonic-fetal erythroleukemia cell line K562.

We have constructed fusion genes comprised of gamma and beta globin elements and globin sequences linked to neomycin resistance (neoR) genes to define the cis acting sequences responsible for developmental stage-specific expression and induction of fetal globin genes in embryonic-fetal erythroleukemia K562 cells. The results indicate that the gamma promoter is required for proper initiation of transcription. However, the accumulation of gamma globin transcripts in response to hemin induction requires the additional presence of either gamma intervening sequence 2 or the 3' enhancer element of the beta globin gene.

Protein-DNA interactions upstream from the human A gamma globin gene.

We have used DNAase I footprinting and the gel mobility shift assay to study proteins which bind to promoter elements located between -140 and -382 upstream of the human A gamma globin gene. Footprints are found with both erythroid and nonerythroid nuclear extracts at three sites: from -294 to -264, -242 to -227, and -189 to -172 from the transcription initiation site. An erythroid-specific footprint is identified from -194 to -189.

The regulation of gamma-globin gene expression.

In summary, our analysis indicates that important sequences for the proper initiation of fetal gene transcription in fetal cells are located in the gamma-globin [sequence: see text] promoter. These sequences are sufficient for tissue-specific expression but not induction in K562 cells. Sequences in the gamma-globin IVS-2 and the beta-globin 3' enhancer increase gamma beta and gamma-Neo transcripts when cells containing these genes undergo erythroid maturation as measured by induction with hemin.

Regulation of human fetal hemoglobin gene expression.

An understanding of the mechanism involved in the regulated expression of the human gamma and beta globin genes requires the detailed definition of the cis-acting DNA sequences and trans-acting protein factors responsible for their developmental stage specific expression. To determine the critical cis-acting elements, hybrid genes containing elements of the gamma and beta globin genes were transfected into K562 cells, a human erythroleukemia line. The regulated expression of the gamma and beta genes was also studied by transferring hybrid genes containing the gamma or beta promoters linked to the neomycin resistance gene (neoR) into erythroid (K562) cells and nonerythroid (Hela) cells.

Regulation of fetal globin gene expression in human erythroleukemia (K562) cells.

We have analyzed the transcription and induction of fusion globin genes comprised of portions of either gamma and beta globin sequences or gamma and neomycin resistance gene sequences. The analysis of gamma promoter beta and gamma-neo fusion genes indicates that 5' gamma flanking sequences are sufficient for tissue specific expression but not induction in K562 cells. A beta gene containing only the substitution of gamma IVS 2 for beta IVS 2 is expressed and induced when transcripts are analyzed with a 3' probe in contrast to the lack of expression seen with an intact beta gene.

Expression of human gamma-globin genes in human erythroleukemia (K562) cells.

K562 cells express embryonic (epsilon) and fetal (gamma) globins and hemoglobins but not adult (beta) globin. To define the cis acting regulatory elements involved in the discrimination between gamma and beta genes, we have constructed chimeric genes composed of portions of gamma and beta and evaluated their expression in stable K562 transfectants. A gamma beta fusion gene containing gamma 5' sequences to the EcoRI site in exon 3 and beta sequences 3' is expressed at 10-40% that of the endogenous gamma level.

The role of human globin gene promoters in the expression of hybrid genes in erythroid and non-erythroid cells.

Hybrid genes containing human gamma or beta globin gene promoters linked to a neomycin resistance (neoR) gene were transfected into erythroid (K562) and nonerythroid (HeLa) cells. The number of clones resistant to G418, a neomycin analogue, was used to assay promoter strength. The results indicate that in K562 cells both promoters are active, and the gamma gene promoter is much stronger than the beta.

Human globin gene expression after gene transfer.

Human globin genes can be transferred into mouse and human erythroid cells in culture, and can be appropriately expressed at the mRNA level in these cells. A plasmid containing a human beta globin gene is expressed in mouse erythroleukemia cells (MELC), and another containing a human epsilon or gamma gene is expressed in human erythroleukemia (K562) cells. A neomycin resistance (neoR) gene on the plasmids has been used to select for those cells containing the transferred globin genes; this selection may favor the expression of the globin genes by providing chromosomal positions requiring neoR expression.

Tissue specific transcription of the human epsilon-globin gene following transfection into the embryonic erythroid cell line K562.

We have introduced a plasmid containing the human epsilon-globin gene either stably or transiently into a number of erythroid or non-erythroid cell lines, and analysed the accuracy and efficiency of transcription. In non-erythroid cells (or in mouse erythroleukaemia (MEL) cells in which adult but not embryonic globin genes are expressed) transcription of the epsilon-globin gene occurs mainly from a site 200 bp upstream of the major cap site (the -200 cap site). In the human K562 cell line, in which the endogenous epsilon-globin gene is transcribed at high levels, transcription initiation from the introduced gene occurs mainly from the major cap site.

Trans acting regulation of beta globin gene expression in erythroleukemia (K562) cells.

K562 cells are induced by hemin to produce gamma and epsilon globin but not beta globin, although the beta globin gene is intact, and when isolated is expressed in a transient expression assay (1, 2). We have previously shown that an epsilon globin gene transferred into K562 cells is expressed and inducible (3). In this paper, we report the stable transfer of a sickle or betaS globin gene into K562 cells.

Structure and expression of two beta genes in a beta thalassemia homozygote.

Two beta globin gene alleles have been cloned and characterized from a patient with beta + thalassemia. Both beta genes have single base mutations in the small intervening sequence (IVS 1); one 6 nucleotides and the other 110 nucleotides from the 5' end of IVS 1. Both genes lead to abnormal splicing of beta globin mRNA precursors when expressed in HeLa cells.

Abnormal globin gene structure and expression in beta-thalassemia.

Over the past five years, several new defects in the beta-thalassemias have been described from this laboratory using both restriction enzyme and sequencing analyses of cloned beta-thalassemia genes. The enzyme HphI has been shown to recognize a single nucleotide change at the 5' end of beta-IVS 2, and, using restriction enzyme analysis, demonstrated for the first time a specific defect associated with beta(0)-thalassemia. Cloning and sequencing of a beta-thalassemia gene have identified a single base change within IVS 2 at a position 705 nucleotides from the 5' end of IVS 2 that results in a beta(0)-thalassemia phenotype; no normal splicing occurs in this gene despite the fact that both the 5' and 3' ends of IVS 2 are unchanged.

Erythroleukemia (K562) cells contain a functional beta-globin gene.

K562 cells are human erythroid cells that synthesize embryonic and fetal globins but not adult beta-globin. A cloned beta-globin gene was isolated from K562 cells and transfected into HeLa cells. The RNA transcripts produced were comparable in both amount and size to those obtained with a normal beta-globin gene.

Stable transfer and expression of exogenous human globin genes in human erythroleukemia (K562) cells.

To study the expression of globin genes in human cells, human epsilon-globin genes were transferred into a K562 cell line, Bos, which synthesizes very low amounts of epsilon-globin mRNA. A plasmid (pSV2neo-epsilon) containing a complete epsilon-globin gene and 2 kilobases (kb) of 5' flanking DNA as well as a neomycin-resistance gene and a simian virus 40 origin of replication was transfected into Bos cells; the compound G418, a neomycin analogue, was used to select transformed cells. The presence of unique bands by DNA restriction analysis shows that 11 of 14 of the G418-resistant clones have at least one copy of an integrated epsilon-globin gene.