Effect of Salt Solutions on the Radiosensitivity of Mammalian Cells as a Function of the State of Adhesion and the Water Structure

Abstract

The radiation isodose survival curve of attached Chinese hamster (V79) cells, subjected to a wide concentration range of salt or sucrose solutions, is characterized by two maxima separated by a minimum. Cells are radioprotected at the maxima (high and low hypertonic salt concentrations) while they are radiosensitized at the minimum (intermediate hypertonic salt concentrations). Both cations and anions can alter the cellular radiosensitivity above and beyond the (osmotic) effect observed for cells treated with sucrose solutions. However, the basic curve shape, except in the case of sulphate salts, remains the same. When these experiments are repeated with single cells in suspension, the isodose survival curve is quite different in that high salt concentrations (greater than 0.9 M) do not protect cells in suspension unlike the case with attached cells. The curve shape is also altered in that the second maximum is absent with many salt solutions. If multicellular spheroids are used for these experiments, the data resemble those for single cell suspensions rather than for attached cells. The radiation survival data for cells in suspension in salt solutions correlate with water proton spin-lattice relaxation time (T1) and, in hypo- and iso-tonic solutions, with cell volume.