Approaches for plasma membrane wounding and assessment of lysosome-mediated repair responses.

Rapid plasma membrane repair is essential to restore cellular homeostasis and improve cell survival after injury. Several mechanisms for plasma membrane repair have been proposed, including formation of an intracellular vesicle patch, reduction of plasma membrane tension, lesion removal by endocytosis, and/or shedding of the wounded membrane. Under all conditions studied to date, plasma membrane repair is strictly dependent on the entry of calcium into cells, from the extracellular medium. Calcium-dependent exocytosis of lysosomes is an important early step in the plasma membrane repair process, and defects in plasma membrane repair have been observed in cells carrying mutations responsible for serious lysosomal diseases, such as Chediak-Higashi (Huynh, Roth, Ward, Kaplan, & Andrews, 2004) and Niemann-Pick Disease type A (Tam et al., 2010). A functional role for release of the lysosomal enzyme acid sphingomyelinase, which generates ceramide on the cell surface and triggers endocytosis, has been described (Corrotte et al., 2013; Tam et al., 2010). Therefore, procedures for measuring the extent of lysosomal fusion with the plasma membrane of wounded cells are important indicators of the cellular repair response. The importance of carefully selecting the methodology for experimental plasma membrane injury, in order not to adversely impact the membrane repair machinery, is becoming increasingly apparent. Here, we describe physiologically relevant methods to induce different types of cellular wounds, and sensitive assays to measure the ability of cells to secrete lysosomes and reseal their plasma membrane.