2-APB and Capsazepine-induced Ca2+ Influx Stimulates Clathrin-dependent Endocytosis in Alveolar Epithelial Cells

Calcium as a second messenger influences many cellular and physiological processes. In lung, alveolar type II (ATII) cells sense mechanical stress and respond by Ca2+ dependent release of surfactant, which is essential for respiratory function. Nevertheless, Ca2+ signaling mechanisms in these cells - in particular Ca2+ entry pathways are still poorly understood. Herein, we investigated pharmacological properties of non-voltage-gated Ca2+ channel modulators in ATII and NCI-H441 cells and demonstrate that 2-Aminoethoxydiphenyl-borinate (2-APB) and capsazepine (CPZ) activate Ca2+ entry with pharmacologically distinguishable components. Surprisingly, 2-APB and CPZ activated clathrin dependent endocytosis in ATII and NCI-H441 cells, which was dependent on Ca2+ entry. The internalized material accumulated in non-acidic granules distinct from surfactant containing lamellar bodies (LB). LB exocytosis was not observed under these conditions. Our study demonstrates that 2-APB/CPZ induces Ca2+ entry which unlike ATP- or stretch-induced Ca2+ entry in ATII cells does not activate exocytosis but an opposing endocytotic mechanism.