LOCOMOTION AND ADHESION OF NEUTROPHIL GRANULOCYTES - EFFECTS OF ALBUMIN, FIBRINOGEN AND GAMMA-GLOBULINS STUDIED BY REFLECTION CONTRAST MICROSCOPY

Proteins as well as materials of low molecular weight have marked effects on the rate of locomotion, adhesion and cell shape of human neutrophil granulocytes in vitro. Plasma protein preparations differ qualitatively with respect to their chemokinetic activity. Human serum albumin (HSA), fibrinogen and acid-treated gamma globulin without polymers have a positive chemokinetic effect on neutrophils suspended in Gey's solution. Standard gamma globulin (SGG) or acid-treated gamma globulin with polymers have marked negative chemokinetic activity. Three different mechanisms are presumably responsible for the low rate of locomotion observed in Gey's solution alone, Gey's solution containing acid-treated gamma globulin with polymers or SGG, respectively: (a) too firm adhesion to the substratum; (b) lack of adhesion to the substratum; and (c) impaired capacity to perform shape changes. The relationship between attachment of cells to the substratum and the rate of neutrophil locomotion has been investigated. It appears that the pattern of adhesion rather than cell attachment as measured by the proportion of neutrophils adhering to the substratum is a meaningful correlate to locomotion. Two different patterns of adhesion can be distinguished by means of reflection-contrast microscopy: (a) the pattern characterized by uniform grey areas is compatible with efficient locomotion; (b) a pattern characterized by large black areas at the cell periphery. It is associated with neutrophils in Gey's solution which fail to displace themselves efficiently. This suggests that reflection-contrast microscopy may be helpful in distinguishing contacts allowing locomotion to occur from contacts impeding neutrophil locomotion. © 1979.