scholarly journals Differential expression of alpha- and beta-globin genes in erythroleukemic cell lines.

1990 ◽  
Vol 10 (7) ◽  
pp. 3591-3595 ◽  
Author(s):  
N Beru ◽  
P B Maples ◽  
O Hermine ◽  
E Goldwasser
Keyword(s):  
Cell Lines ◽  
Globin Gene ◽  
Restriction Enzymes ◽  
Erythroid Differentiation ◽  
Globin Genes ◽  
Beta Globin ◽  
Globin Mrna ◽  
Beta Globin Gene ◽  
Alpha Globin ◽  
Erythroleukemic Cell

The IW32, NN10, and IW201 cell lines are erythroleukemic cell lines isolated from the spleens of mice infected with the Friend virus. IW32 and NN10 cells can be induced toward erythroid differentiation and hemoglobin synthesis by hemin or butyrate. Both cell lines contain some mature alpha- and beta-globin mRNA before induction, and addition of the inducers greatly increases the amount of globin message. Unlike IW32 and NN10 cells, IW201 cells are only partially inducible. Uninduced 201 cells contain a small amount of alpha-globin mRNA but no detectable beta-globin message. After induction, the cells contain markedly increased amounts of alpha-globin mRNA but still do not express the beta-globin gene. Southern blot analysis with 10 restriction enzymes shows that the restriction map of the beta-globin gene in IW201 cells is indistinguishable from that in IW32 and NN10 cells.

Differential expression of alpha- and beta-globin genes in erythroleukemic cell lines

1990 ◽  
Vol 10 (7) ◽  
pp. 3591-3595
Author(s):  
N Beru ◽  
P B Maples ◽  
O Hermine ◽  
E Goldwasser
Keyword(s):  
Cell Lines ◽  
Globin Gene ◽  
Restriction Enzymes ◽  
Erythroid Differentiation ◽  
Globin Genes ◽  
Beta Globin ◽  
Globin Mrna ◽  
Beta Globin Gene ◽  
Alpha Globin ◽  
Erythroleukemic Cell

The IW32, NN10, and IW201 cell lines are erythroleukemic cell lines isolated from the spleens of mice infected with the Friend virus. IW32 and NN10 cells can be induced toward erythroid differentiation and hemoglobin synthesis by hemin or butyrate. Both cell lines contain some mature alpha- and beta-globin mRNA before induction, and addition of the inducers greatly increases the amount of globin message. Unlike IW32 and NN10 cells, IW201 cells are only partially inducible. Uninduced 201 cells contain a small amount of alpha-globin mRNA but no detectable beta-globin message. After induction, the cells contain markedly increased amounts of alpha-globin mRNA but still do not express the beta-globin gene. Southern blot analysis with 10 restriction enzymes shows that the restriction map of the beta-globin gene in IW201 cells is indistinguishable from that in IW32 and NN10 cells.

The coordinate replication of the human beta-globin gene domain reflects its transcriptional activity and nuclease hypersensitivity

1988 ◽  
Vol 8 (11) ◽  
pp. 4958-4965
Author(s):  
V Dhar ◽  
D Mager ◽  
A Iqbal ◽  
C L Schildkraut
Keyword(s):  
Cell Lines ◽  
Dna Sequences ◽  
Globin Gene ◽  
K562 Cells ◽  
Globin Genes ◽  
Beta Globin ◽  
Beta Globin Gene ◽  
Hypersensitive Sites ◽  
Flanking Sequences ◽  
Globin Gene Domain

The temporal order of replication of DNA sequences in the chromosomal domain containing the human beta-globin gene cluster and its flanking sequences (140 kilobases) was measured and compared in two different human cell lines. In human erythroleukemia (K562) cells, in which embryonic and fetal globin genes are transcribed, all of the sequences we examined from the beta-globin domain replicated early during S phase, while in HeLa cells, in which globin genes are transcriptionally silent, these sequences replicated late during S. Potential sites of initiation of DNA replication within this domain were identified. The beta-globin gene domain was also found to differ with respect to the nuclease sensitivity of the chromatin in these two cell lines. In K562 cells, hypersensitive sites for endogenous nucleases and DNase I were present in the chromatin near the earliest-replicating segments in the beta-globin domain.

Expression of the human beta-globin gene after retroviral transfer into murine erythroleukemia cells and human BFU-E cells

1988 ◽  
Vol 8 (4) ◽  
pp. 1725-1735
Author(s):  
M A Bender ◽  
A D Miller ◽  
R E Gelinas
Keyword(s):  
Globin Gene ◽  
Globin Genes ◽  
Beta Globin ◽  
Globin Mrna ◽  
Beta Globin Gene ◽  
Erythroleukemia Cells ◽  
New Gene ◽  
Normal Human ◽  
Murine Erythroleukemia ◽  
Murine Erythroleukemia Cells

Replication-defective amphotropic retrovirus vectors containing either the human beta-globin gene with introns or an intronless beta-globin minigene were constructed and used to study beta-globin expression following gene transfer into hematopoietic cells. The beta-globin genes were marked by introducing a 6-base-pair insertion into the region corresponding to the 5' untranslated region of the beta-globin mRNA to allow detection of RNA encoded by the new gene in human cells expressing normal human beta-globin RNA. Introduction of a virus containing the beta-globin gene with introns into murine erythroleukemia cells resulted in inducible expression of human beta-globin RNA and protein, while the viruses containing the minigene were inactive. The introduced human beta-globin gene was 6 to 110% as active as the endogenous mouse beta maj-globin genes in six randomly chosen cell clones. Introduction of the viruses into human BFU-E cells, followed by analysis of marked and unmarked globin RNAs in differentiated erythroid colonies, revealed that the introduced beta-globin gene was about 5% as active as the endogenous genes in these normal human erythroid cells and that again the minigene was inactive. These data are discussed in terms of the potential treatment of genetic disease by gene therapy.

scholarly journals Fetal hemoglobin silencing in humans

Blood ◽  
2006 ◽  
Vol 108 (6) ◽  
pp. 2081-2086 ◽  
Author(s):  
Patricia A. Oneal ◽  
Nicole M. Gantt ◽  
Joseph D. Schwartz ◽  
Natarajan V. Bhanu ◽  
Y. Terry Lee ◽  
...  
Keyword(s):  
Globin Gene ◽  
Fetal Hemoglobin ◽  
Beta Thalassemia ◽  
Postnatal Life ◽  
Globin Genes ◽  
Beta Globin ◽  
Globin Mrna ◽  
Beta Globin Gene ◽  
Gamma Globin ◽  
Age Related

Abstract Interruption of the normal fetal-to-adult transition of hemoglobin expression should largely ameliorate sickle cell and beta-thalassemia syndromes. Achievement of this clinical goal requires a robust understanding of gamma-globin gene and protein silencing during human development. For this purpose, age-related changes in globin phenotypes of circulating human erythroid cells were examined from 5 umbilical cords, 99 infants, and 5 adult donors. Unexpectedly, an average of 95% of the cord blood erythrocytes and reticulocytes expressed HbA and the adult beta-globin gene, as well as HbF and the gamma-globin genes. The distribution of hemoglobin and globin gene expression then changed abruptly due to the expansion of cells lacking HbF or gamma-globin mRNA (silenced cells). In adult reticulocytes, less than 5% expressed gamma-globin mRNA. These data are consistent with a “switching” model in humans that initially results largely from gamma- and beta-globin gene coexpression and competition during fetal development. In contrast, early postnatal life is marked by the rapid accumulation of cells that possess undetectable gamma-globin mRNA and HbF. The silencing phenomenon is mediated by a mechanism of cellular replacement. This novel silencing pattern may be important for the development of HbF-enhancing therapies.

scholarly journals Expression of the human beta-globin gene after retroviral transfer into murine erythroleukemia cells and human BFU-E cells.

1988 ◽  
Vol 8 (4) ◽  
pp. 1725-1735 ◽  
Author(s):  
M A Bender ◽  
A D Miller ◽  
R E Gelinas
Keyword(s):  
Globin Gene ◽  
Globin Genes ◽  
Beta Globin ◽  
Globin Mrna ◽  
Beta Globin Gene ◽  
Erythroleukemia Cells ◽  
New Gene ◽  
Normal Human ◽  
Murine Erythroleukemia ◽  
Murine Erythroleukemia Cells

Replication-defective amphotropic retrovirus vectors containing either the human beta-globin gene with introns or an intronless beta-globin minigene were constructed and used to study beta-globin expression following gene transfer into hematopoietic cells. The beta-globin genes were marked by introducing a 6-base-pair insertion into the region corresponding to the 5' untranslated region of the beta-globin mRNA to allow detection of RNA encoded by the new gene in human cells expressing normal human beta-globin RNA. Introduction of a virus containing the beta-globin gene with introns into murine erythroleukemia cells resulted in inducible expression of human beta-globin RNA and protein, while the viruses containing the minigene were inactive. The introduced human beta-globin gene was 6 to 110% as active as the endogenous mouse beta maj-globin genes in six randomly chosen cell clones. Introduction of the viruses into human BFU-E cells, followed by analysis of marked and unmarked globin RNAs in differentiated erythroid colonies, revealed that the introduced beta-globin gene was about 5% as active as the endogenous genes in these normal human erythroid cells and that again the minigene was inactive. These data are discussed in terms of the potential treatment of genetic disease by gene therapy.

scholarly journals Human alpha-globin genes demonstrate autonomous developmental regulation in transgenic mice.

1991 ◽  
Vol 11 (7) ◽  
pp. 3786-3794 ◽  
Author(s):  
M Albitar ◽  
M Katsumata ◽  
S A Liebhaber
Keyword(s):  
Transgenic Mice ◽  
Control Region ◽  
Globin Gene ◽  
Globin Genes ◽  
Beta Globin ◽  
Developmental Control ◽  
Beta Globin Gene ◽  
Human Adult ◽  
Alpha Globin ◽  
In Cis

Recent studies have demonstrated that transcriptional activation of the human adult beta-globin transgene in mice by coinsertion of the beta-globin cluster locus control region (beta-LCR) results in loss of its adult restricted pattern of expression. Normal developmental control is reestablished by coinsertion of the fetal gamma-globin transgene in cis to the adult beta-globin gene. To test the generality of this interdependence of two globin genes for their proper developmental control, we generated transgenic mice in which the human adult alpha-globin genes are transcriptionally activated by the beta-LCR either alone or in cis to their corresponding embryonic zeta-globin gene. In both cases, the human globin transgenes were expressed at the appropriate developmental period. In contrast to the beta-globin gene, developmental control of the human adult alpha-globin transgenes appears to be autonomous and maintained even when activated by an adjacent locus control region.

scholarly journals The coordinate replication of the human beta-globin gene domain reflects its transcriptional activity and nuclease hypersensitivity.

1988 ◽  
Vol 8 (11) ◽  
pp. 4958-4965 ◽  
Author(s):  
V Dhar ◽  
D Mager ◽  
A Iqbal ◽  
C L Schildkraut
Keyword(s):  
Cell Lines ◽  
Dna Sequences ◽  
Globin Gene ◽  
K562 Cells ◽  
Globin Genes ◽  
Beta Globin ◽  
Beta Globin Gene ◽  
Hypersensitive Sites ◽  
Flanking Sequences ◽  
Globin Gene Domain

The temporal order of replication of DNA sequences in the chromosomal domain containing the human beta-globin gene cluster and its flanking sequences (140 kilobases) was measured and compared in two different human cell lines. In human erythroleukemia (K562) cells, in which embryonic and fetal globin genes are transcribed, all of the sequences we examined from the beta-globin domain replicated early during S phase, while in HeLa cells, in which globin genes are transcriptionally silent, these sequences replicated late during S. Potential sites of initiation of DNA replication within this domain were identified. The beta-globin gene domain was also found to differ with respect to the nuclease sensitivity of the chromatin in these two cell lines. In K562 cells, hypersensitive sites for endogenous nucleases and DNase I were present in the chromatin near the earliest-replicating segments in the beta-globin domain.

Human alpha-globin genes demonstrate autonomous developmental regulation in transgenic mice

1991 ◽  
Vol 11 (7) ◽  
pp. 3786-3794
Author(s):  
M Albitar ◽  
M Katsumata ◽  
S A Liebhaber
Keyword(s):  
Transgenic Mice ◽  
Control Region ◽  
Globin Gene ◽  
Globin Genes ◽  
Beta Globin ◽  
Developmental Control ◽  
Beta Globin Gene ◽  
Human Adult ◽  
Alpha Globin ◽  
In Cis

Recent studies have demonstrated that transcriptional activation of the human adult beta-globin transgene in mice by coinsertion of the beta-globin cluster locus control region (beta-LCR) results in loss of its adult restricted pattern of expression. Normal developmental control is reestablished by coinsertion of the fetal gamma-globin transgene in cis to the adult beta-globin gene. To test the generality of this interdependence of two globin genes for their proper developmental control, we generated transgenic mice in which the human adult alpha-globin genes are transcriptionally activated by the beta-LCR either alone or in cis to their corresponding embryonic zeta-globin gene. In both cases, the human globin transgenes were expressed at the appropriate developmental period. In contrast to the beta-globin gene, developmental control of the human adult alpha-globin transgenes appears to be autonomous and maintained even when activated by an adjacent locus control region.

scholarly journals Regulated expression of amplified human beta globin genes

Blood ◽  
1987 ◽  
Vol 70 (3) ◽  
pp. 733-739 ◽  
Author(s):  
D Rund ◽  
C Dobkin ◽  
A Bank
Keyword(s):  
Gene Therapy ◽  
Mrna Expression ◽  
Globin Gene ◽  
Serial Passage ◽  
Globin Genes ◽  
Beta Globin ◽  
Globin Mrna ◽  
Beta Globin Gene ◽  
Erythroleukemia Cells ◽  
Neomycin Resistance

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. To begin this study, we constructed a plasmid containing a neomycin resistance gene, a human beta globin gene, and a wild-type DHFR cDNA, and transfected it into mouse erythroleukemia cells. All the G418-resistant clones analyzed acquired and expressed the human beta globin gene. By serial passage of the cells in increasing concentrations of methotrexate, the exogenous human beta globin genes were stably amplified in all lines, and all increased their globin mRNA expression roughly proportional to their augmented copy number. Most of the clones further increased their beta globin expression on addition of an erythroid stimulus (dimethylsulfoxide). These results indicate that globin gene amplification may be useful in increasing globin mRNA expression in further experiments whose goal is gene therapy.

Gene expression pattern of chicken erythrocyte nuclei in heterokaryons

1990 ◽  
Vol 97 (1) ◽  
pp. 167-175
Author(s):  
M. Bergman ◽  
N. Ringertz
Keyword(s):  
Gene Expression ◽  
Expression Pattern ◽  
Globin Gene ◽  
Gene Expression Pattern ◽  
Erythroid Differentiation ◽  
Specific Gene ◽  
Globin Genes ◽  
Beta Globin ◽  
Beta Globin Gene ◽  
Strong Expression

Expression of erythro-specific chick genes was studied in heterokaryons prepared by fusing chick erythrocytes (CE) with rat myoblasts. In this type of heterokaryon the inactive erythrocyte nucleus takes up nuclear proteins of myoblast origin and undergoes transcriptional reactivation. In order to study the stability of the genetic programming of the reactivated CE nucleus, chick gene expression was examined by analysis of RNA from the heterokaryons. Probes for several erythro- and chick-specific genes were used. The heterokaryons showed strong expression of the chick histone H5 and adult alpha-globin genes, while other genes, e.g. the transcription factor Eryf1 gene, normally expressed during erythroid differentiation, were not transcribed. Although the CE used were of the definitive lineage, the heterokaryons showed activation of the chick embryonic beta-globin gene, i.e. a gene normally expressed only in CE of the primitive lineage. We conclude that the reactivation of the mature CE nucleus in a rat cytoplasm resulted in a more immature erythroid gene expression pattern. The activation of the embryonic beta-globin gene indicated a switch of the lineage-specific gene expression pattern. This switch occurred in the absence of DNA replication. The strong expression of the globin and H5 genes in heterokaryons, in the absence of expression of the regulatory factor Eryf1, suggested the existence of Eryf1-independent regulatory mechanisms for erythroid gene expression in these cells.

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