EFFECTS OF TEMPERATURE AND DURATION OF STORAGE ON GRANULOCYTE ADHESION, SPREADING, AND ULTRASTRUCTURE

Abstract

The effects of storage duration and temperature on granulocyte adhesion, spreading and ultrastructure were examined. Normal adherence and spreading of granulocytes detected by either phase contrast or scanning electron microscopy was maintained for up to 48 h when granulocytes were stored at 20-24.degree. C. By contrast, storage of granulocytes for 24 h at 1-6.degree. C led to a substantial decrease in granulocyte adherence and spreading. When granulocytes were stored for 24 h at 1-6.degree. C and then shifted to 20-24.degree. C for a 2nd 24 h, granulocytes failed to regain the normal adherence and spreading. The cytoskeleton has been implicated in cell morphology, movement, chemotaxis, and spreading of cells. Transmission electron microscopy of thin sections of whole cells or cytoskeleton preparations revealed a well-organized system of microtubules and microfilaments in granulocytes stored for up to 48 h at 20-24.degree. C. In granulocytes stored at 0-6.degree. C that have decreased adhesion and spreading, there is a paucity of microtubules, and the microfilaments have a disorganized criss-crossed appearance when compared with normal cells. Apparently, storage of granulocytes at reduced temperatures is associated with decreased adhesion and spreading, and a concomitant alteration in the cytoskeleton may be responsible for this.