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1 February 2001 Free Radical-Initiated and Gap Junction-Mediated Bystander Effect due to Nonuniform Distribution of Incorporated Radioactivity in a Three-Dimensional Tissue Culture Model
Anupam Bishayee, Helene Z. Hill, Dana Stein, Dandamudi V. Rao, Roger W. Howell
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Abstract

Bishayee, A., Hill, H. Z., Stein, D., Rao, D. V. and Howell, R. W. Free Radical-Initiated and Gap Junction-Mediated Bystander Effect due to Nonuniform Distribution of Incorporated Radioactivity in a Three-Dimensional Tissue Culture Model.

To investigate the biological effects of nonuniform distribution of radioactivity in mammalian cells, we have developed a novel three-dimensional tissue culture model. Chinese hamster V79 cells were labeled with tritiated thymidine and mixed with unlabeled cells, and multicellular clusters (∼1.6 mm in diameter) were formed by gentle centrifugation. The short-range β particles emitted by 3H impart only self-irradiation of labeled cells without significant cross-irradiation of unlabeled bystander cells. The clusters were assembled in the absence or presence of 10% dimethyl sulfoxide (DMSO) and/or 100 μM lindane. DMSO is a hydroxyl radical scavenger, whereas lindane is an inhibitor of gap junctional intercellular communication. The clusters were maintained at 10.5°C for 72 h to allow 3H decays to accumulate and then dismantled, and the cells were plated for colony formation. When 100% of the cells were labeled, the surviving fraction was exponentially dependent on the mean level of radioactivity per labeled cell. A two-component exponential response was observed when either 50 or 10% of the cells were labeled. Though both DMSO and lindane significantly protected the unlabeled or bystander cells when 50 or 10% of the cells were labeled, the effect of lindane was greater than that of DMSO. In both cases, the combined treatment (DMSO lindane) elicited maximum protection of the bystander cells. These results suggest that the bystander effects caused by nonuniform distributions of radioactivity are affected by the fraction of cells that are labeled. Furthermore, at least a part of these bystander effects are initiated by free radicals and are likely to be mediated by gap junctional intercellular communication.

Anupam Bishayee, Helene Z. Hill, Dana Stein, Dandamudi V. Rao, and Roger W. Howell "Free Radical-Initiated and Gap Junction-Mediated Bystander Effect due to Nonuniform Distribution of Incorporated Radioactivity in a Three-Dimensional Tissue Culture Model," Radiation Research 155(2), 335-344, (1 February 2001). https://doi.org/10.1667/0033-7587(2001)155[0335:FRIAGJ]2.0.CO;2
Received: 17 July 2000; Accepted: 1 October 2000; Published: 1 February 2001
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