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  • Title: Osmotic stress and the freeze-thaw cycle cause shedding of Fc and C3b receptors by human polymorphonuclear leukocytes.
    Author: Takahashi T, Inada S, Pommier CG, O'Shea JJ, Brown EJ.
    Journal: J Immunol; 1985 Jun; 134(6):4062-8. PubMed ID: 3157755.
    Abstract:
    A major problem in the cryopreservation of human polymorphonuclear leukocytes (PMN) is the loss of phagocytic function in cryopreserved cells. This is not a problem with cryopreserved monocytes. To study the reasons for this difference in detail, PMN and monocytes were either osmotically stressed in hypertonic media or were frozen to various temperatures. Cells were then returned to conditions of physiologic osmolarity and temperature. All cells remained viable. However, the ability of PMN to phagocytize bacteria and to bind sheep erythrocytes (E) opsonized with IgG, C3b, or C3bi decreased sharply after exposure to media of 600 mOsM or greater and after freezing to -1.5 degrees C. In contrast, monocytes were unaffected until a concentration of 1500 mOsM or a freezing temperature of -5 degrees C was exceeded. To determine whether the functional losses of surface receptor activity in PMN resulted from a loss of receptors from the membranes or from inactivation or internalization of receptors, opsonized E were incubated in the supernatants from stressed PMN. On subsequent incubation with healthy PMN, these E made fewer rosettes than control opsonized E. The inhibitory effect of the supernatants on rosetting of IgG-sensitized E could be removed by preincubation with IgG bound to Sepharose 4B. Immunoprecipitation of C3b and C3bi receptors from surface-iodinated, osmotically stressed, and control PMN suggested that about 50% of cell surface complement receptors were lost from the cell surface during osmotic stress. These experiments suggest that receptors for IgG and C3 are extruded from PMN cell membranes as a result of hyperosmotic stress, which is associated with the freeze-thaw cycle. This may be an early event in the functional damage done to PMN during attempts at cryopreservation.
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