The fate of the primary diploid population during spontaneous transformation of growth factor‐supplemented murine cell cultures

Kubbies, Manfred; Friedl, Richard; Bettecken, Thomas; Hoehn, Holger

doi:10.1002/cyto.990070609

Cited by 6 publications

(3 citation statements)

References 19 publications

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“…The spreading of the peaks in DNA his tograms suggests the presence of subclones with unresolvable differences in DNA con tent, as observed by other authors [Kubbies et al, 1986], However, at later passages of A and B lineages, stable subpopulations with near tetraploid DNA contents were se lected.…”

Section: Discussionsupporting

confidence: 48%

Characterization of Transformed Cell Lines Evolving from a Normal C3H Line

Curatolo¹,

Frascotti²,

Ubezio³

et al. 1988

Pathobiology

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The development of transformed cell lines evolving from an embryo fibroblastic C3H primary culture was followed before and after the ageing crisis using different techniques. By flow cytometry, alteration of subpopulations having different DNA content and altered metabolic activity was observed after the crisis, with the trend to assume a near tetraploid DNA index at higher passages. The fibrin clot retractile activity was lost in all cases during the ageing crisis, but the outcome did not present uniform values of growth characteristics or chromosome number and tumorigenicity appeared to be a nonstable property of the transformed cell lines.

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Section: Discussionsupporting

confidence: 48%

Characterization of Transformed Cell Lines Evolving from a Normal C3H Line

Curatolo¹,

Frascotti²,

Ubezio³

et al. 1988

Pathobiology

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“…This clonal evolution of tumors has already been observed in cell lines and in transplantable tumors (2,10,11). It is particularly well documented in the transplantable prostatic tumors of the Dunning system where duplication of the genome is associated with a markedly increased growth rate and dedifferentiation, whereas subsequent chromosomal losses are associated with attainment of metastatic ability (22).…”

Section: Discussionmentioning

confidence: 71%

“…However, the mechanism by which aneuploidy influences the aggressive behavior remains elusive (9). In vitro studies (2,10,11) suggest that diploid tumor cells can become aneuploid by first doubling their chromosome set leading to an unstable tetraploid genotype, followed by subsequent chromosome loss. This phenomenon could contribute to tumor progression by generating cells with a new genotype.…”

mentioning

confidence: 99%

Dna ploidy status and DNA content instability within single tumors in renal cell carcinoma

et al. 1993

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In order to investigate the relationship between genetic instability and DNA aneuploidy of malignant cells in human solid tumors, we studied the variations of DNA index within a single tumor. Multiple sampling (mean of 6.4 samples per tumor) was performed in 24 renal cell carcinomas (RCC). Based on the variations in DNA indices within a single tumor, RCC were divided into three groups: 1) tumors with stable DNA indices (variation within the range of the measurement error), including all DNA diploid tumors (n = 8), all hyperdiploid tumors (n = 3), a hypodiploid tumor (n = l), and only 2 of 11 tetraploid and hypotetraploid tumors; 2) tumors with moderate variations in DNA indices, which were all close to tetraploidy (n = 5); and 3) tumors with large variations of DNA indices. In this last group, subclones present within a tumor varied widely in their DNA indices from the tetraploid to the triploid region, reflecting the DNA content instability within the tumor cell population. These results suggest that DNA aneuploidy can arise by two different mechanisms: 1) loss or gain of chromosomes leading to hypodiploid or hyperdiploid tumors with no apparent increase in DNA content instability, and 2) doubling of the chromosome set followed by random loss of chromosomes as suggested by the DNA indices ranging from tetraploid to triploid region found in three tumors. Differences in DNA indices within one tumor characterize subclones which may arise by chromosome loss or gain.0 1993 Wiley-Liss, Inc.

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Characterzation of a newly established human urinary bladder cancer cell line (BT-1)

et al. 1988

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A new human transitonal cell carcinoma cell line has been established in long term tissue culture. The BT-1 cells were derived from a poorly differentiated human bladder cancer. The tumor cell line produces tumors in nude mice. BT-1 has been characterized by cytogenetic and flow cytometric analysis and by isoenzyme typing. As in direct preparations of human bladder tumors, an isochromosome 5p is a consistent marker of the newly established line. The BT-1 cells produce transforming growth factors but do not respond to exogeneous EGF.

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The fate of the primary diploid population during spontaneous transformation of growth factor‐supplemented murine cell cultures

Cited by 6 publications

References 19 publications

Characterization of Transformed Cell Lines Evolving from a Normal C3H Line

Characterization of Transformed Cell Lines Evolving from a Normal C3H Line

Dna ploidy status and DNA content instability within single tumors in renal cell carcinoma

Characterzation of a newly established human urinary bladder cancer cell line (BT-1)

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