scholarly journals Transcriptional and post-transcriptional regulation of globin gene accumulation in murine erythroleukemia cells.

1983 ◽  
Vol 3 (2) ◽  
pp. 229-232 ◽  
Author(s):  
H R Profous-Juchelka ◽  
R C Reuben ◽  
P A Marks ◽  
R A Rifkind
Keyword(s):  
Gene Transcription ◽  
Butyric Acid ◽  
Globin Gene ◽  
Chain Elongation ◽  
Beta Globin ◽  
Globin Mrna ◽  
Potent Inducer ◽  
Erythroleukemia Cells ◽  
Murine Erythroleukemia ◽  
Murine Erythroleukemia Cells

The mechanism responsible for the accumulation of newly synthesized alpha- and beta-globin mRNA in the cytoplasm of induced murine erythroleukemia cells was examined by nuclear mRNA nascent chain elongation (run-off transcription). Hexamethylenebisacetimide, a potent inducer of murine erythroleukemia cell differention, induced high levels of both alpha- and beta-globin gene transcription within 48 to 72 h in culture. Butyric acid, a modest inducer of murine erythroleukemia cells, induced a somewhat lower level of globin gene transcription. With both inducers, alpha-globin transcriptional rates exceeded those of beta-globin. Hemin, on the other hand, showed no detectable increase over the basal rate observed in uninduced cells, even at a time (48 h) when newly synthesized globin mRNA was accumulating in the cytoplasm. These results suggest that there are at least two mechanisms responsible for regulating alpha- and beta-globin structural gene expression in induced murine erythroleukemia cells and that the mechanisms involved are inducer dependent. Hexamethylenebisacetimide and butyric acid increase the rate at which globin genes are transcribed, but hemin appears to allow constitutive levels of transcripts to accumulate.

Transcriptional and post-transcriptional regulation of globin gene accumulation in murine erythroleukemia cells

1983 ◽  
Vol 3 (2) ◽  
pp. 229-232
Author(s):  
H R Profous-Juchelka ◽  
R C Reuben ◽  
P A Marks ◽  
R A Rifkind
Keyword(s):  
Gene Transcription ◽  
Butyric Acid ◽  
Globin Gene ◽  
Chain Elongation ◽  
Beta Globin ◽  
Globin Mrna ◽  
Potent Inducer ◽  
Erythroleukemia Cells ◽  
Murine Erythroleukemia ◽  
Murine Erythroleukemia Cells

The mechanism responsible for the accumulation of newly synthesized alpha- and beta-globin mRNA in the cytoplasm of induced murine erythroleukemia cells was examined by nuclear mRNA nascent chain elongation (run-off transcription). Hexamethylenebisacetimide, a potent inducer of murine erythroleukemia cell differention, induced high levels of both alpha- and beta-globin gene transcription within 48 to 72 h in culture. Butyric acid, a modest inducer of murine erythroleukemia cells, induced a somewhat lower level of globin gene transcription. With both inducers, alpha-globin transcriptional rates exceeded those of beta-globin. Hemin, on the other hand, showed no detectable increase over the basal rate observed in uninduced cells, even at a time (48 h) when newly synthesized globin mRNA was accumulating in the cytoplasm. These results suggest that there are at least two mechanisms responsible for regulating alpha- and beta-globin structural gene expression in induced murine erythroleukemia cells and that the mechanisms involved are inducer dependent. Hexamethylenebisacetimide and butyric acid increase the rate at which globin genes are transcribed, but hemin appears to allow constitutive levels of transcripts to accumulate.

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 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 Stability of alpha and beta globin messenger RNA during induced differentiation of mouse erythroleukemia cells

Blood ◽  
1979 ◽  
Vol 54 (4) ◽  
pp. 933-939
Author(s):  
R Gambari ◽  
RA Rifkind ◽  
PA Marks
Keyword(s):  
Messenger Rna ◽  
Erythroid Differentiation ◽  
Beta Globin ◽  
Globin Mrna ◽  
Induced Differentiation ◽  
Hexamethylene Bisacetamide ◽  
Erythroleukemia Cells ◽  
Mrna Content ◽  
Murine Erythroleukemia ◽  
Murine Erythroleukemia Cells

Murine erythroleukemia cells (MELC) are induced to express erythroid differentiation when cultured with hexamethylene bisacetamide (HMBA). Newly synthesized alpha and beta globin mRNA are both relatively stable, half-life (t1/2) greater than 50 hr, early in the course of induced differentiation. In fully induced cells there is a decrease in stability of both newly synthesized alpha and beta globin mRNA. The decay of alpha mRNA is faster, (t 1/2, 10--12 hr) than beta globin mRNA (t1/2, 20--22 hr). Thus, differences in stability of alpha and beta globin mRNA plays a role in determining the ratio of alpha to beta mRNA content in differentiated erythroid cells.

scholarly journals Differential expression of mouse beta/goat beta c, mouse beta/goat beta F, and mouse beta/goat epsilon II hybrid globin genes in murine erythroleukemia cells.

1986 ◽  
Vol 6 (11) ◽  
pp. 3873-3883
Author(s):  
C B Kerlakian ◽  
S W Toth ◽  
E D Kuempel ◽  
D S Luse
Keyword(s):  
Dimethyl Sulfoxide ◽  
Cell Lines ◽  
Fusion Gene ◽  
Globin Gene ◽  
Globin Genes ◽  
Beta Globin ◽  
Erythroleukemia Cells ◽  
Hybrid Genes ◽  
Murine Erythroleukemia ◽  
Murine Erythroleukemia Cells

We assembled three hybrid beta-globin genes by fusing the mouse beta-major promoter and initial transcribed region to one of three goat beta-like globin gene bodies: beta c (preadult), beta F (fetal), or epsilon II (embryonic). Thymidine kinase (tk)-deficient murine erythroleukemia (MEL) cells were cotransformed with one of these constructs and a separate plasmid bearing the tk gene. Half of the 24 cell lines containing either the mouse beta/goat beta c or mouse beta/goat beta F genes expressed the transferred genes at significant levels; in many cases the hybrid genes were, like the endogenous beta-globin genes, inducible with dimethyl sulfoxide. We obtained 13 cell lines containing the mouse beta/goat epsilon II hybrid gene, 6 of which were cotransfected with a mouse beta/human beta fusion gene known to function in MEL cells. In contrast to the results with the other fusion genes, the mouse beta/goat epsilon II hybrid was very poorly expressed: in two separate experiments, 0 of 13 and 2 of 13 lines showed significant mouse beta/goat epsilon II RNA levels after induction. In all these lines the endogenous mouse beta and cotransfected mouse beta/human beta genes were expressed. As an initial test of possible reasons for the inactivity of the mouse beta/goat epsilon II hybrid, we recloned this fusion gene into a tk-bearing plasmid, adjacent to the tk gene. Of 12 cell lines transformed with this plasmid, 11 produced mouse beta/goat epsilon II RNA; in 6 cases the expression was both strong and dimethyl sulfoxide inducible.

scholarly journals Stability of alpha and beta globin messenger RNA during induced differentiation of mouse erythroleukemia cells

Blood ◽  
1979 ◽  
Vol 54 (4) ◽  
pp. 933-939 ◽  
Author(s):  
R Gambari ◽  
RA Rifkind ◽  
PA Marks
Keyword(s):  
Messenger Rna ◽  
Erythroid Differentiation ◽  
Beta Globin ◽  
Globin Mrna ◽  
Induced Differentiation ◽  
Hexamethylene Bisacetamide ◽  
Erythroleukemia Cells ◽  
Mrna Content ◽  
Murine Erythroleukemia ◽  
Murine Erythroleukemia Cells

Abstract Murine erythroleukemia cells (MELC) are induced to express erythroid differentiation when cultured with hexamethylene bisacetamide (HMBA). Newly synthesized alpha and beta globin mRNA are both relatively stable, half-life (t1/2) greater than 50 hr, early in the course of induced differentiation. In fully induced cells there is a decrease in stability of both newly synthesized alpha and beta globin mRNA. The decay of alpha mRNA is faster, (t 1/2, 10--12 hr) than beta globin mRNA (t1/2, 20--22 hr). Thus, differences in stability of alpha and beta globin mRNA plays a role in determining the ratio of alpha to beta mRNA content in differentiated erythroid cells.

Differential expression of mouse beta/goat beta c, mouse beta/goat beta F, and mouse beta/goat epsilon II hybrid globin genes in murine erythroleukemia cells

1986 ◽  
Vol 6 (11) ◽  
pp. 3873-3883
Author(s):  
C B Kerlakian ◽  
S W Toth ◽  
E D Kuempel ◽  
D S Luse
Keyword(s):  
Dimethyl Sulfoxide ◽  
Cell Lines ◽  
Fusion Gene ◽  
Globin Gene ◽  
Globin Genes ◽  
Beta Globin ◽  
Erythroleukemia Cells ◽  
Hybrid Genes ◽  
Murine Erythroleukemia ◽  
Murine Erythroleukemia Cells

We assembled three hybrid beta-globin genes by fusing the mouse beta-major promoter and initial transcribed region to one of three goat beta-like globin gene bodies: beta c (preadult), beta F (fetal), or epsilon II (embryonic). Thymidine kinase (tk)-deficient murine erythroleukemia (MEL) cells were cotransformed with one of these constructs and a separate plasmid bearing the tk gene. Half of the 24 cell lines containing either the mouse beta/goat beta c or mouse beta/goat beta F genes expressed the transferred genes at significant levels; in many cases the hybrid genes were, like the endogenous beta-globin genes, inducible with dimethyl sulfoxide. We obtained 13 cell lines containing the mouse beta/goat epsilon II hybrid gene, 6 of which were cotransfected with a mouse beta/human beta fusion gene known to function in MEL cells. In contrast to the results with the other fusion genes, the mouse beta/goat epsilon II hybrid was very poorly expressed: in two separate experiments, 0 of 13 and 2 of 13 lines showed significant mouse beta/goat epsilon II RNA levels after induction. In all these lines the endogenous mouse beta and cotransfected mouse beta/human beta genes were expressed. As an initial test of possible reasons for the inactivity of the mouse beta/goat epsilon II hybrid, we recloned this fusion gene into a tk-bearing plasmid, adjacent to the tk gene. Of 12 cell lines transformed with this plasmid, 11 produced mouse beta/goat epsilon II RNA; in 6 cases the expression was both strong and dimethyl sulfoxide inducible.

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