scholarly journals Abelson murine leukemia virus-transformed cells that lack p53 protein synthesis express aberrant p53 mRNA species.

1984 ◽  
Vol 4 (3) ◽  
pp. 552-558 ◽  
Author(s):  
D Wolf ◽  
S Admon ◽  
M Oren ◽  
V Rotter
Keyword(s):  
Murine Leukemia Virus ◽  
P53 Protein ◽  
Leukemia Virus ◽  
Transformed Cells ◽  
Mrna Species ◽  
Abelson Murine Leukemia Virus ◽  
Polyadenylated Mrna ◽  
Murine Leukemia ◽  
Specific Mrna ◽  
P53 Mrna

Cells of the Abelson murine leukemia virus-transformed line L12 that lack the p53 protein also lack polyadenylated mRNA capable of directing the synthesis of p53 in a cell-free system. Direct analysis of stable polyadenylated mRNA from a variety of cell lines shows that all p53 producers shared a common mRNA species (2.0 kilobases) which hybridized with a p53-specific cDNA probe. This species, which appears to be the mature, normal-sized p53 mRNA, was totally undetectable in L12 cells, which did not produce p53 in vivo. However, L12 cells contained two major p53-specific mRNA species of a substantially larger size (3.5 and 6.5 kilobases) than the p53-specific mRNA in the p53-producing cells. Genomic DNA analysis uncovered an apparent alteration in the 5' proximal part of only one p53 gene, which is unique to the L12 cell line. It is thus possible that the nonproducer phenotype of L12 cells is due at least in part to an alteration within a p53-specific DNA sequence. These findings define a system in which production of p53 appears to be efficiently regulated at the level of stable mRNA and which can be used to study the mechanisms controlling p53 expression in Abelson murine leukemia virus-transformed cells.

Abelson murine leukemia virus-transformed cells that lack p53 protein synthesis express aberrant p53 mRNA species

1984 ◽  
Vol 4 (3) ◽  
pp. 552-558
Author(s):  
D Wolf ◽  
S Admon ◽  
M Oren ◽  
V Rotter
Keyword(s):  
Murine Leukemia Virus ◽  
P53 Protein ◽  
Leukemia Virus ◽  
Transformed Cells ◽  
Mrna Species ◽  
Abelson Murine Leukemia Virus ◽  
Polyadenylated Mrna ◽  
Murine Leukemia ◽  
Specific Mrna ◽  
P53 Mrna

Cells of the Abelson murine leukemia virus-transformed line L12 that lack the p53 protein also lack polyadenylated mRNA capable of directing the synthesis of p53 in a cell-free system. Direct analysis of stable polyadenylated mRNA from a variety of cell lines shows that all p53 producers shared a common mRNA species (2.0 kilobases) which hybridized with a p53-specific cDNA probe. This species, which appears to be the mature, normal-sized p53 mRNA, was totally undetectable in L12 cells, which did not produce p53 in vivo. However, L12 cells contained two major p53-specific mRNA species of a substantially larger size (3.5 and 6.5 kilobases) than the p53-specific mRNA in the p53-producing cells. Genomic DNA analysis uncovered an apparent alteration in the 5' proximal part of only one p53 gene, which is unique to the L12 cell line. It is thus possible that the nonproducer phenotype of L12 cells is due at least in part to an alteration within a p53-specific DNA sequence. These findings define a system in which production of p53 appears to be efficiently regulated at the level of stable mRNA and which can be used to study the mechanisms controlling p53 expression in Abelson murine leukemia virus-transformed cells.

scholarly journals Nonrandom cytogenetic changes accompany malignant progression in clonal lines abelson virus-infected lymphocytes

Blood ◽  
1994 ◽  
Vol 84 (12) ◽  
pp. 4301-4309 ◽  
Author(s):  
SS Clark ◽  
Y Liang ◽  
CK Reedstrom ◽  
SQ Wu
Keyword(s):  
Tumor Progression ◽  
Murine Leukemia Virus ◽  
Leukemia Virus ◽  
Lymphoid Cells ◽  
Full Transformation ◽  
Cytogenetic Abnormalities ◽  
Cytogenetic Changes ◽  
Abelson Murine Leukemia Virus ◽  
Murine Leukemia ◽  
Over Time

Initially, lymphoid cells transformed by v-abl or BCR/ABL oncogenes are poorly oncogenic but progress to full transformation over time. Although expression of the oncogene is necessary to initiate and maintain transformation, other molecular mechanisms are thought to be required for full transformation. To determine whether tumor progression in ABL oncogene-transformed lymphoid cells has a genetic basis, we examined whether progression of the malignant phenotype of transformed clones correlates with particular cytogenetic abnormalities. A modified in vitro bone marrow transformation model was used to obtain clonal Abelson murine leukemia virus-transformed B lymphoid cells that were poorly oncogenic. Multiple subclones were then derived from each clone and maintained over a marrow-derived stromal cell line for several weeks. Over time, clonally related Abelson murine leukemia virus-transformed subclones progressed asynchronously to full transformation. The data show that tumor progression can occur in the absence of detectable cytogenetic changes but, more importantly, that certain cytogenetic abnormalities appear reproducibly in highly malignant subclones. Therefore, three independent subclones showed deletion in a common region of chromosome 13. Other highly malignant cells carried a common breakpoint in the X chromosome, and, finally, two subclones carried an additional chromosome 5. These results are consistent with the hypothesis that ABL oncogenes are sufficient for the initial transformation of cells but that additional genetic events can drive oncogenic progression. These observations further suggest that diverse genetic mechanisms may be able to drive tumor progression in cells transformed with ABL oncogenes.

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