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Changes in plasma-membrane-associated filaments during endocytosis and exocytosis in polymorphonuclear leukocytes
Authors:Janet Boyles  Dorothy F. Bainton
Affiliation:Department of Pathology University of California School of Medicine San Francisco, California 94143 USA
Abstract:We examined the filaments associated with the cytoplasmic surface of the plasma membrane in rabbit exudate PMNs during phagocytosis of particles, or during “frustrated phagocytosis” with exocytosis of storage granules. Cells were plated onto yeast particles glued to coverslips with polylysine or onto coverslips coated with sheets of heat-agglutinated IgG. After periods ranging from 1 to 15 min, we disrupted the cells by a jet of salt solution and exposed their inner membranes. These broken cells were fixed immediately and processed for SEM. Whole cells were also prepared for SEM or TEM. At the site of PMN adherence to an opsonized yeast particle, a network of globular centers and thin, branched filaments appears on the cytoplasmic surface of the plasma membrane, while the outstretching lamellipodia contain a mesh of such filaments but no globular centers. Within 1 to 2 minutes, these structures disappear from the invaginating portion of the developing vacuole, and the cell's storage granules fuse with the barren membrane regions. These activities occur in rapid sequence over the vacuolar membrane after the first contact, until the phagocytosed particle is wholly encircled by a smooth, loose membrane, separated from the cell surface. A comparable filament pattern or complex was seen during “frustrated phagocytosis” on IgG sheets. At times between 1 and 5 min after plating, the cytoplasmic surfaces of these adherent membranes contain denuded central regions and peripheral nets of globular centers with radiating, thin, branched filaments. Granules apparently fuse with the bare areas. Thus we have obtained evidence of filament association with the plasma membrane at sites of adherence (to phagocytosable or nonphagocytosable surfaces) and have traced the subsequent disappearance of the filaments with degranulation.
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