Structural transformation of the phagosomal membrane in Tetrahymena cells endocytosing latex beads

Abstract

A model system with a high phagosomal membrane turnover has been developed: During a 45-min period Tetrahymena cells endocytoze 186 latex beads (diameter: 2.02 μm) per average cell; 166 of these beads are then exocytozed in the course of the following 145 min. During the endocytotic phase an average cell is approximated to fabricate 1200 μm² phagosomal membrane. Freeze-etch electronmicroscopy reveals that both fracture faces of the nascent phagosomal membrane are associated with the typical 85 Å-particles in approximately equal numbers. Mature phagosomal membranes, however, show an unequal particle distribution. Smooth areas, smooth areas bordered with a fracture rim, and particle-associated depressions up to a diameter of 130 nm can be observed especially on fracture faces of mature phagosomes in the endocytotic phase. These are discussed with respect to membrane fusion.