Viability of frozen rat granulocytes and granulocyte precursors

Abstract

Mature rat polymorphonuclear leukocytes (PMNs) were frozen to −196 °C, thawed, and tested for functional viability using a variety of criteria. The assays for functional viability included: qualitative and quantitative nitroblue tetrazolium tests for phagocytic activity, fluorometric tests for membrane integrity, chemotaxis, and bactericidal activity. Maximal survival was obtained when mature PMNs were frozen in the presence of 10% dimethyl sulfoxide (Me 2SO) and 5% hydroxyethyl-starch (HES) for cells cooled at ~10 °C per minute, followed by rapid warming. Maximal survival was obtained for granulocyte precursor cells (as measured by CFU-c) after freezing in the presence of 10% Me 2SO and cooling at ~10 °C per minute. The principal new findings for mature PMNs were: (i) there was a synergistic effect between intra- and extracellular protective additives; (ii) the optimal cooling rate increases from approximately 0.3 to 10 °C per minute when an extracellular protective agent, such as HES is included in the freezing media; (iii) the zwitterion buffer Hepes has a small but consistently beneficial effect on survival; (iv) granulocytes obtained from peripheral blood consistently show a higher functional survival after freezing (95%) than do PMNs obtained from a glycogen-induced peritoneal exudate (70%); (v) neither serum, plasma, nor other macromolecules are needed in the postt-haw dilution media to obtain high survival; and (vi) cells frozen using an optimized two-step protocol survived as well as those frozen using a continuous cooling protocol.