Growth Advantage ("Clonal Dominance") of Metastatically Competent Tumor Cell Variants Expressed under Selective Two- or Three-Dimensional Tissue Culture Conditions

In previous experiments it was shown that injection into syngeneic CBA/J mice of cell mixtures containing an excess of non-metastatic SP1 mouse mammary carcinoma cells with a ras transfected metastatic variant of SP1 called C1, always resulted in the eventual dominance of the C1 subpopulation at the...

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Bibliographic Details
Published in:In Vitro Cellular & Developmental Biology - Animal 1993-09, Vol.29A (9), p.742-748
Main Authors: Rak, Janusz W., Kerbel, Robert S.
Format: Article
Language:English
Subjects:
Adenocarcinoma - pathology
Animal cells
Animals
Biological and medical sciences
Cancer
Cell cultures. Hybridization. Fusion
Cell Division
Cell growth
Cell lines
Cell Transformation, Neoplastic - pathology
Cells
Clone Cells - cytology
Culture Techniques - methods
Cultured cells
Fundamental and applied biological sciences. Psychology
Growth, Differentiation, and Senescence
Kidney cells
Kinetics
Metastasis
Mice
Mice, Inbred CBA
Models, Biological
Molecular and cellular biology
Neoplasm Metastasis - pathology
Population growth
Spheroids
Tumor Cells, Cultured - cytology
Tumors
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Summary:In previous experiments it was shown that injection into syngeneic CBA/J mice of cell mixtures containing an excess of non-metastatic SP1 mouse mammary carcinoma cells with a ras transfected metastatic variant of SP1 called C1, always resulted in the eventual dominance of the C1 subpopulation at the site of inoculation. This occurred despite the growth rates of the two cell populations being identical in vivo when grown separately. The means by which the C1 subpopulation achieved "clonal dominance" is thought to involve its responsiveness to stimulatory paracrine growth factors liberated by the non-metastatic SP1 population. The clonal dominance process, however, could not be recapitulated in conventional monolayer tissue culture conditions in which SP1 and C1 cells were grown together in high concentrations of serum, i.e. under non-limiting culture conditions. We now show that clonal dominance of Cl cells can be observed when the cell mixture is maintained in tissue culture for extended periods, or when the cells are grown under selective, limiting conditions, some of which may mimic growth conditions in vivo more accurately. These conditions were a) growth in low (limiting) serum concentrations; and b) growth as three-dimensional multicellular aggregates, i.e. as "tumor spheroids". Under all of these conditions dominance of the C1 subpopulation always took place, but with an efficiency 6- to 40-fold less than generally observed in vivo. C1 cells were also able to form more stable (compact) spheroids compared to SP1 cells. Entrapment of the latter in mixed C1/SP1 spheroids increased the recovery of the SP1 cells suggesting some kind of "rescue" mechanism in which cells are protected from physical forces by three-dimensional structure. The relevance of these in vitro interactions for clonal dominance in primary tumors and metastasis in vivo are discussed.
ISSN:1071-2690
0883-8364
1543-706X
2327-431X
DOI:10.1007/BF02631431