Proliferative potential of cells from normal human colon epithelium, adenomas, and carcinomas of the large bowel

In vitro colony formation and chemosensitivity were analyzed in 65 human solid tumors and compared to proliferation parameters simultaneously obtained by DNA flow cytometry of the same tumor specimens. Colony growth in the human tumor colony assay was enhanced in aneuploid tumors (39/65) in comparison to diploid tumors (26/65, P less than 0.05). In addition, there was a relationship between % S-phase and colony growth. The existence of polyploid sublines (23/65) improved in vitro growth even in tumors with a diploid main G0/1-peak or with a low % S-phase. Metastases exhibited a higher proportion of aneuploidy and showed slightly better growth in vitro than primary tumors. Sensitivity testing in 34 of the 65 tumors showed no convincing relation between DNA parameters and the inhibition of colony formation by five standard anticancer agents with different mechanisms of action. This indicates additional factors other than the proliferative activity of the tumor to be responsible for drug sensitivity or resistance.

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Does in vitro colony formation and chemosensitivity relate to DNA ploidy and S-phase fractions?

Flentje

Feichter

Flentje

et al. 1987

J Cancer Res Clin Oncol

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Evaluation histochimique de ľantigène carcino-embryonnaire dans les adénomes colorectaux reséqués par polypectomie endoscopique. Résultats préliminaires

Simone¹,

Esposito²

1987

Acta Endosc

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Growth of Human Renal Carcinoma in Soft Agar Colony Formation Assays Measured by Computer-Assisted Volume Analysis

et al. 1986

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Technical methods for assessing the growth and chemotherapy sensitivity of human tumor cells growing in soft-agar culture have been less than ideal. Within the past year, there have been reports of studying the extent of growth of human tumor cells in these cultures by quantitating the change in cumulative volume for the growth units observed. The present report describes the results of computer-assisted volume analysis applied to soft-agar cultures of cells from 74 primary renal cell carcinomas, 14 primary transitional cell carcinomas of the renal pelvis, and four different human renal cell carcinoma xenografts. The extent of growth in vitro observed for cells from freshly excised human renal tumors showed the expected and statistically significant relationship to tumor grade and stage. The renal cell carcinoma xenografts proliferated to a much greater extent in vitro than the cells from freshly excised human renal carcinomas. The fundamental growth limit of 10(9) micron. cumulative growth unit volume per plate was confirmed by this series of experiments. Computer-assisted volume analysis appears to be a useful method to study the growth of freshly excised human renal carcinoma cells in vitro.

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Proliferative potential of cells from normal human colon epithelium, adenomas, and carcinomas of the large bowel

Cited by 3 publications

References 16 publications

Does in vitro colony formation and chemosensitivity relate to DNA ploidy and S-phase fractions?

Does in vitro colony formation and chemosensitivity relate to DNA ploidy and S-phase fractions?

Evaluation histochimique de ľantigène carcino-embryonnaire dans les adénomes colorectaux reséqués par polypectomie endoscopique. Résultats préliminaires

Growth of Human Renal Carcinoma in Soft Agar Colony Formation Assays Measured by Computer-Assisted Volume Analysis

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