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[Cancer Research 51, 3857-3861, August 1, 1991]
© 1991 American Association for Cancer Research
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Interaction between Ionizing Radiation and Supercoiled DNA within Human Tumor Cells1

Andrew T. M. Vaughan2, Anne M. Milner, David G. Gordon and Jeffery L. Schwartz

Department of Immunology, University of Birmingham, Birmingham B15 2TT, United Kingdom [A. T. M. V., A. M. M., D. G. G.], and Biological and Medical Division, Argonne National Laboratory, Argonne, Illinois 60439-4833 [J. L. S.]

We have analyzed DNA supercoiling within histone-free nuclei (nucleoids) using four human squamous cell carcinoma cell lines that express varying degrees of radiosensitivity. The entire DNA, arranged as negative supercoiled loops attached to the nuclear matrix, was extracted from single cells, stained with ethidium bromide, and passed through a flow cytometer recording both light scatter and red (DNA) fluorescence. Supercoiled loops of DNA from all cells were unwound with a low concentration of ethidium bromide, as seen by increased light scatter. Nucleoids from radiosensitive but not radioresistant cells resisted the transition from zero to positive supercoiling at higher concentrations of ethidium bromide. The profile of red DNA fluorescence from ethidium bromide-stained nucleoids showed that the radiosensitive cells expressed a greater variation in the total amount of ethidium bromide bound. After 12 Gy of {gamma}-radiation, radiosensitive cell lines produced nucleoids that contained a greater proportion of relaxed supercoiled DNA, making them larger than those from radioresistant cell lines. We suggest these observations are secondary effects resulting from an altered affinity between supercoiled looped DNA and the nuclear matrix. Combined with radiation damage, these structural alterations may lead to a more complex type of damage to repair within the radiosensitive cell lines.

1 Supported in part by the Cancer Research Campaign, United Kingdom.

2 To whom requests for reprints should be addressed, at Loyola-Hines Department of Radiotherapy, 114B, Bldg. 1, Hines VA Hospital, General Delivery, Hines, IL 60141-9999.

Received 3/ 1/91. Accepted 5/23/91.






HOME HELP FEEDBACK SUBSCRIPTIONS ARCHIVE SEARCH TABLE OF CONTENTS
Cancer Research Clinical Cancer Research
Cancer Epidemiology Biomarkers & Prevention Molecular Cancer Therapeutics
Molecular Cancer Research Cancer Prevention Research
Cancer Prevention Journals Portal Cancer Reviews Online
Annual Meeting Education Book Cell Growth & Differentiation
Copyright © 1991 by the American Association for Cancer Research.