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Comparison of coulter volumes with radiometrically determined intracellular water volumes for cultured cells

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Summary

During methotrexate-induced differentiation of cultured human choriocarcinoma (BeWo) cells, proliferation is inhibited, morphologic and biochemical changes occur, and giant, often multinucleated, cells form. We have used the increase in cell volume as a marker of the mature syncytiotrophoblastlike phenotype. Uninduced and differentiated BeWo cells are not spherical, and theoretical considerations suggested that deviations in shape could result in significant errors in Coulter volume. To determine if the values obtained by electrical pulse sizing reflected the actual mass of BeWo cells, we have evaluated the relationship between Coulter volumes and intracellular water volumes obtained using a shape-independent estimate for eight cell types. A close correlation (r 2=0.97) was found, indicating that cell volume changes in populations of irregularly shaped cells can be accurately measured using a Coulter instrument.

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Author notes

  1. Neal S. Burres

    Present address: Harbor Branch Oceanographic Institution, 5600 Old Dixie Highway, 33450, Ft. Pierce, Florida

Authors and Affiliations

  1. McEachern Laboratory and Department of Biochemistry, University of Alberta, T6G 2H7, Edmonton, Alberta, Zanada

    Neal S. Burres & Carol E. Cass

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  1. Neal S. Burres
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  2. Carol E. Cass
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Additional information

Supported by an operating grant from the National Cancer Institute of Canada. N.S.B. was a recipient of a studentship award from the Alberta Heritage Foundation for Medical Research. C.E.C. is a Senior Research Scientist of the National Cancer Institute of Canada. The McEachern Laboratory is a research facility of the Faculty of Medicine, University of Alberta, and the Cross Cancer Institute, Edmonton, Alberta.

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Burres, N.S., Cass, C.E. Comparison of coulter volumes with radiometrically determined intracellular water volumes for cultured cells. In Vitro Cell Dev Biol 25, 419–423 (1989). https://doi.org/10.1007/BF02624626

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  • DOI: https://doi.org/10.1007/BF02624626

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