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A comparison of methods for the production of monodispersed cell suspensions from human primary breast carcinomas

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Summary

Production of monodispersed cell suspensions from primary human breast tumors is difficult due to the predominant stromal composition of most breast tumors. Our studies were designed to optimize dispersion of breast tumors of known stromal content and histopathology. In a first series of experiments three enzymatic protocols were compared to disperse minced tissue: (A) treatment with collagenase (2 mg/ml) in the presence of 5% serum for 24 hours; (B) treatment with collagenase (6 mg/ml) and DNase (0.002%) in 10% serum for 3 hours; (C) treatment with collagenase (2 mg/ml) for 3 hours followed by pronase (0.075%) for l hour. Protocol A produced better cell yields than B or C for all tumors tested. The monodispersed cells were suspended in a 0.3% semi-solid agar with alpha modified Eagles medium (αMEM), 10% serum, and selected hormones, then layered over similarly enriched 0.5% semi-solid agar. The cells prepared by protocol A had a higher plating efficiency and larger average colony size than B or C. In a second series of experiments, protocol A was repeated and compared to two additional procedures: (D) treatment with collagenase (2 mg/ml) and hyaluronidase (1 mg/ml) in the presence of 5% serum for 24 hours; and (E) mechanical disaggregation. Protocol D exhibited a small but significant negative difference from A, while E was the least efficient in producing viable monodispersed cells from the tumors. All enzymatically monodispersed cells produced clonal growth in our agar system. However, mechanically dispersed cells gave growth in only 4 of 7 tumors. Protocol A, in addition to yielding the highest number of viable cells per gram of tissue, gave the highest plating efficiency of all protocols tested.

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References

  1. Hamburger AW, Salmon SE: Primary bioassay of human tumor stem cells. Science 197:461–463, 1977

    PubMed  Google Scholar 

  2. Hamburger AW, Salmon SE, Kim MB, Trent JM, Soehnlen BJ, Alberts DS, Schmidt HJ: Direct cloning of human ovarian carcinoma cells in agar. Cancer Res 38:3438–3444, 1978

    PubMed  Google Scholar 

  3. Von Hoff DD, Casper J, Bradley E, Trent JM, Hodack A, Reichert C, Makuch R, Altman A: Direct cloning of human neuroblastoma cells in soft agar culture. Cancer Res 40:3591–3597, 1980

    Google Scholar 

  4. Slocum HK, Pavelic ZP, Rustum YM, Creaven PJ, Karakousis C, Takita H, Greco WR: Characterization of cells obtained by mechanical and enzymatic means from human melanoma, sarcoma, and lung tumor. Cancer Res 41:1428–1434, 1981

    PubMed  Google Scholar 

  5. Ray DB, Horst IA, Jansen RW, Kowal J: Normal mammary cells in long-term culture. I. Development of hormonedependent functional monolayer culture and assay of α-lactalbumin production. Endocrinology 108:573–583, 1981

    PubMed  Google Scholar 

  6. Gould MN: Mammary gland cell-mediated mutagenesis of mammalian cells by organ-specific carcinogens. Cancer Res 40:1836–1841, 1980

    PubMed  Google Scholar 

  7. Yang J, Guzman R, Richards J, Jentoft V, DeVault MR, Welllings SR, Nandi S: Primary culture of human mammary epithelial cells embedded in collagen gels. J Natl Cancer Inst 65:337–341, 1980

    PubMed  Google Scholar 

  8. McDivitt RW, Stewart FW, Berg JW: Atlas of Tumor Pathology. Second Series. Fascicle 2. Tumors of the breast. Armed Forces Institute of Pathology, Washington DC, 1968

    Google Scholar 

  9. Pavelic ZP, Slocum HK, Rustum YM, Creaven PJ, Nowak NJ, Karakousis C, Takita H, Mittelman A: Growth of cell colonies in soft agar from biopsies of different human solid tumors. Cancer Res 40:4151–4158, 1980

    Google Scholar 

  10. Gould MN, Cathers LE, Moore CJ: Human breast cellmediated mutagenesis of mammalian cells by polycyclic aromatic hydrocarbons. Cancer Res, in press, 1982

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Authors and Affiliations

  1. Department of Human Oncology, University of Wisconsin-Madison, Wisconsin Clinical Cancer Center, Madison, Wisconsin, USA

    Greta J. Besch M.S., William H. Wolberg M.D., Kennedy W. Gilchrist M.D., Joseph G. Voelkel M.S. & Michael N. Gould Ph.D.

  2. Department of Surgery, University of Wisconsin-Madison, Wisconsin Clinical Cancer Center, Madison, Wisconsin, USA

    William H. Wolberg M.D.

  3. Department of Pathology, University of Wisconsin-Madison, Wisconsin Clinical Cancer Center, Madison, Wisconsin, USA

    Kennedy W. Gilchrist M.D.

  4. Department of Human Oncology, University of Wisconsin, K4/310, 600 Highland Avenue, 53792, Madison, WI, USA

    Michael N. Gould Ph.D.

Authors
  1. Greta J. Besch M.S.
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  2. William H. Wolberg M.D.
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  3. Kennedy W. Gilchrist M.D.
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  4. Joseph G. Voelkel M.S.
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  5. Michael N. Gould Ph.D.
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Besch, G.J., Wolberg, W.H., Gilchrist, K.W. et al. A comparison of methods for the production of monodispersed cell suspensions from human primary breast carcinomas. Breast Cancer Res Tr 3, 15–22 (1983). https://doi.org/10.1007/BF01806230

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  • DOI: https://doi.org/10.1007/BF01806230

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