Ca2+‐Dependent Actin Coating of Lamellar Bodies after Exocytotic Fusion: A Prerequisite for Content Release or Kiss‐and‐Run

Miklavc, Pika; Wittekindt, Oliver H.; Felder, Edward; Dietl, Paul

doi:10.1111/j.1749-6632.2008.03989.x

All Outputs (2)

Existence of exocytotic hemifusion intermediates with a lifetime of up to seconds in type II pneumocytes (2009)
Journal Article
Miklavc, P., Albrecht, S., Wittekindt, O., Schullian, P., Haller, T., & Dietl, P. (2009). Existence of exocytotic hemifusion intermediates with a lifetime of up to seconds in type II pneumocytes. Biochemical Journal, 424(1), 7-14. https://doi.org/10.1042/BJ20091094

Exocytosis proceeds through prefusion stages such as hemifusion, but hemifusion is still an elusive intermediate of unknown duration. Using darkfield and fluorescence microscopy in ATII (alveolar type II) cells containing large secretory vesicles (LB... Read More about Existence of exocytotic hemifusion intermediates with a lifetime of up to seconds in type II pneumocytes.

Ca2+‐Dependent Actin Coating of Lamellar Bodies after Exocytotic Fusion: A Prerequisite for Content Release or Kiss‐and‐Run (2009)
Journal Article
Miklavc, P., Wittekindt, O. H., Felder, E., & Dietl, P. (2009). Ca2+‐Dependent Actin Coating of Lamellar Bodies after Exocytotic Fusion: A Prerequisite for Content Release or Kiss‐and‐Run. Annals of the New York Academy of Sciences, 1152(1), 43-52. https://doi.org/10.1111/j.1749-6632.2008.03989.x

Type II pneumocytes secrete surfactant, a lipoprotein-like substance reducing the surface tension in the lung, by regulated exocytosis of secretory vesicles termed lamellar bodies (LBs). This secretory process is characterized by a protracted postfus... Read More about Ca2+‐Dependent Actin Coating of Lamellar Bodies after Exocytotic Fusion: A Prerequisite for Content Release or Kiss‐and‐Run.