Construction of a safe and efficient retrovirus packaging cell line.

Ecotropic and amphotropic retrovirus packaging cell lines have been constructed in which the helper virus genome have been separated onto two plasmids, and the psi packaging signal and 3' LTR have been removed. The gag and pol genes on one plasmid and the env gene on another plasmid were transfected into NIH 3T3 cells. Packaging cell lines produced by these transfected genes released titers of replication-defective retroviral vectors which were comparable to titers produced by packaging cell lines containing the helper virus genome on one plasmid.

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.

Safe and efficient ecotropic and amphotropic packaging lines for use in gene transfer experiments.

The construction of a retrovirus packaging cell line which produces high-titer, helper-free retrovirus is an essential prerequisite for experiments whose goal is gene therapy. We have constructed an ecotropic packaging cell line, GP + E-86, and an amphotropic packaging cell line, GP + envAm12, in which the viral gag and pol genes are on one plasmid and the viral env gene is on another plasmid. Both plasmids contain deletions of the psi packaging sequence and the 3' LTR.

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.

Human beta-globin gene expression after gene transfer using retroviral vectors.

A retroviral vector containing a 4.4-kb Pst I human beta S-globin gene and a neomycin resistance gene was used to infect NIH-3T3 and mouse erythroleukemia cells (MELC). In MELC, human beta-globin mRNA transcripts are transcribed and properly initiated and spliced.

Expression of a beta thalassemia gene with abnormal splicing.

Expression of a cloned human beta thalassemia gene with a single base change at position 5 of IVS 1 has been analyzed 48 hours after transfer of the gene into HeLa cells (transient expression). Little or no normal beta globin mRNA accumulates in the presence of the abnormal beta gene in contrast to significantly more normal beta mRNA produced with other mutations at this same position. By contrast, large amounts of an abnormal beta globin mRNA are present; this is due to the use of a cryptic 5' splice site in exon 1 rather than the normal 5' splice site of IVS 1.

Regulated expression of amplified human beta globin genes.

Gene therapy for the beta thalassemias and sickle cell anemia will require high levels of expression of human beta globin genes. One method to achieve this goal is amplification of globin genes transferred into the stem cells in the bone marrow of these patients. If the amplified genes remain normally regulated, they will then further increase their expression on being induced to differentiate along an erythroid pathway.

CML patients in blast crisis have breakpoints localized to a specific region of the BCR.

Chronic myelogenous leukemia (CML) is associated with the Philadelphia (Ph) chromosome, which results from a reciprocal translocation between chromosomes 9 and 22. This activates the abl oncogene by moving it from chromosome 9 and combining it with sequence located on chromosome 22. The new fusion gene, with chromosome 22 sequence at its 5' end and chromosome 9-abl sequence at its 3' end, generates a new messenger RNA (mRNA) and protein that are implicated in the pathogenesis of CML.

Expression of chimeric human beta- and delta-globin genes during erythroid differentiation.

To determine whether sequences contained within the small intervening sequence (IVS 1) or large intervening sequence (IVS 2) are involved in the regulated expression of the human beta-globin gene, chimeric genes containing portions of the human beta- and delta-globin genes were stably transfected into mouse erythroleukemia (MEL) cells. Since MEL cells can be induced to differentiate in culture, the expression of the chimeric genes was compared to the expression of beta and delta both before and after the induction of erythroid differentiation. The expression of beta delta 1, a beta-globin gene containing delta IVS 1 in place of beta IVS 1, was comparable to the expression of a beta-globin gene both before and after erythroid differentiation.

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.

Beta-thalassemia syndromes.

In summary, the beta-thalassemias are due to defects in or around the structural beta-globin gene. In some Indian patients, there is deletion of sequence at the 3' end of the beta-globin gene. Most commonly, single nucleotide mutations cause beta(+)- and beta(0) -thalassemia.

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.

Frequent and extensive deletion during the 9,22 translocation in CML.

Chromosomal translocation is one mechanism by which cellular oncogenes may be activated during tumorigenesis. The translocation of the abl oncogene to the Philadelphia chromosome in chronic myelogenous leukemia (CML) results in a new RNA transcript that fuses sequence from chromosome 22 to sequence from the abl oncogene. This RNA presumably codes for a new abl-related protein product found in CML, the activity of which is different from the normal abl protein.

Beta thalassemia due to a novel mutation in IVS 1 sequence donor site consensus sequence creating a restriction site.

During a systematic screening of Algerian thalassemics by determining the DNA polymorphism haplotypes in the beta globin gene cluster, a novel haplotype was identified. The DNA of a homozygous individual was cloned and sequenced. The mutation, a G----A change, at position 5 of the small intervening sequence, probably interferes with normal splicing events, and, moreover, creates a new Eco RV restriction site that provides a useful diagnostic tool for detecting this condition.

Expression of a cloned Lepore globin gene.

Lepore globin is synthesized in markedly diminished amounts (approximately 10% to 15% of normal beta-globin) in human erythroid cells. To study the molecular mechanisms responsible for the diminished biosynthesis of Lepore globin, the Lepore-Boston gene was cloned from a charon phage DNA library and expressed in HeLa cells. Northern blotting and S1 nuclease analyses indicated that the Lepore gene produced less globin mRNA than a beta-gene and more than a delta-gene.

Reversibility of IVS 2 missplicing in a mutant human beta-globin gene.

We have studied the aberrant splicing of a human beta thalassemia globin gene by expression of the cloned gene in HeLa cells and oligomer-directed mutagenesis. A mutation 705 nucleotides into the large intervening sequence (IVS 2) of this gene leads to missplicing in which IVS 2 is incompletely removed, via two aberrant splices, from the vast majority of transcripts. One splice is from the 5' end of IVS 2 to a normal sequence 580 nucleotides into IVS 2 and another is from the mutated site 705 nucleotides into IVS 2 to the 3' end of the IVS.

DNA sequences regulating human beta globin gene expression.

Human delta globin is expressed at approximately 1-2% of the level of human beta globin in erythroid cells despite the marked homology between these two globins. To determine the DNA sequences responsible for this effect, delta and beta globin genes and fusion products of these genes constructed in vitro were transfected and expressed in HeLa cells. The results indicate that when the small intervening sequence of the beta gene (beta IVS 1) is replaced by delta IVS 1, expression of the chimeric gene is the same as that of the normal beta globin gene.

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.

Variable breakpoints on the Philadelphia chromosome in chronic myelogenous leukemia.

The abl oncogene is translocated from chromosome 9 to 22 in the creation of the Philadelphia (Ph1) chromosome. This article describes new translocation breakpoints identified in two patients with chronic myelogenous leukemia using Southern blotting and cloned human DNA probes from chromosome 9. The translocation breakpoints on chromosome 9 in both of these patients lie closer to the human cellular abl (c-abl) gene, and the chromosome 22 breakpoints are distributed more widely than previously reported.

Increased expression of a novel c-abl-related RNA in K562 cells.

The c-abl locus is translocated from chromosome 9 to chromosome 22 in chronic myelogenous leukemia (CML), creating the Philadelphia chromosome (22q-, Ph1), one of the most consistent chromosomal abnormalities found in human hematologic malignancy. The K562 cell line is a human cell line originally derived from a patient with CML. We have isolated cloned human c-abl probes to analyze the organization and expression of abl genes in patients with CML and in 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.

Genetic defects in the thalassemias.

In summary, the beta-thalassemias are models for the study of human genetic disease. Defining the genetic defects in and surrounding the beta-globin gene in the beta(+)- and the beta(0)-thalassemias has resulted in new insights into the relationships between changes in gene structure and abnormalities in gene function. The region 5' to the beta-gene, the coding regions within the gene, and the IVS have all been found to contain single nucleotide defects which diminish or abolish beta-globin mRNA production and the production of beta-globin.