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Abstract
Two independent laboratories have demonstrated that suspension-grown, Chinese hamster ovary (CHO) cells can be made thermotolerant, frozen and subsequently thawed such that they still express thermotolerance. Thermotolerance was determined as the ability to protect cells against hyperthermic cell killing (colony formation assay) and the ability to reduce protein aggregation within the nuclei of heated cells. Cells were frozen either following development of full or partial thermotolerance. In the former case frozen cells maintained thermotolerance upon thawing and in the latter case cells subsequently developed full thermotolerance following thawing and incubation at 37·0°C. After thawing, frozen cells displayed a temporal course of thermotolerance development and decay that was similar to that for never-frozen cells. Success was obtained using either asynchronous or synchronous cell populations, and the heat sensitivity of the cells was not altered by the freezing procedure. The experimental results demonstrate the plausibility of utilizing a frozen stock of thermotolerant cells to make thermotolerance experiments more convenient.