Wound repair in type I alveolar epithelial cells involves lysosome secretion followed by initiation of actin repolymerization

Abstract

Stress failure of alveolar epithelial cells is a common feature of ventilator‐injured lungs. While some injured cells undergo necrosis, others repair their plasma membrane (PM) wounds through non‐secretory exocytosis of intracellular vesicles (e.g. lysosomes) to and cytoskeleton remodeling at and around the wound. We measured the timing of lysosomal trafficking and F‐actin reorganization following micropuncture injury in primary type I alveolar epithelial cells (ATI).ATI were isolated from female rats and loaded with Calcein AM, N‐rhodamine phosphatidylethanolamine (lysosome membrane label) or transfected with LifeAct (GFP tagged actin label). Changes in fluorescence intensity were indicators of time to wound repair (cessation of calcein fluorescence decay following injury), lysosomal trafficking to the wound site, and actin remodeling.ATI repaired wounds within 27.9±3.9s. Recruitment of lysosomes to the wound site was detected at 2.9±1.5s following injury and preceded actin polymerization by 23.7±5.4s. Failure to repair PM wounds was associated with a weak or absent actin polymerization response.We conclude that local actin polymerization is a critical step in PM wound repair and postulate that adhesive interactions between PM lipids and the remodeled actin cytoskeleton serve as a driving force for wound closure by promoting lateral PM lipid bilayer flow.Support: HL63178