Differential Requirements for Actin Polymerization, Calmodulin, and Ca2+ Define Distinct Stages of Lysosome/Phagosome Targeting

doi:10.1091/mbc.E05-12-1140

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MBC in Press, published online ahead of print February 1, 2006
Mol. Biol. Cell 10.1091/mbc.E05-12-1140

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Submitted on December 18, 2005
Revised on January 20, 2006
Accepted on January 23, 2006

Differential Requirements for Actin Polymerization, Calmodulin, and Ca²⁺ Define Distinct Stages of Lysosome/Phagosome Targeting

Walter Stockinger, Shao C. Zhang, Vishal Trivedi, Larissa A. Jarzylo, Eugenie C. Shieh, William S. Lane, Adam B. Castoreno, and Axel Nohturfft

Department of Molecular and Cellular Biology, The Biological Laboratories, Harvard University, Cambridge, MA 02138

Monitoring Editor: Randy Schekman

Fusion of phagosomes withlate endocytic organelles is essential for cellular digestionof microbial pathogens, senescent cells, apoptotic bodies andretinal outer segment fragments. To further elucidate the biochemistryof the targeting process we developed a scintillation proximityassay to study the stepwise association of lysosomes and phagosomesin vitro. Incubation of tritium-labeled lysosomes with phagosomescontaining scintillant latex beads led to light emission ina reaction requiring cytosol, ATP and low Ca²⁺ concentrations.The nascent complex was sensitive to disruption by alkalinecarbonate, indicating that the organelles had "docked" but notfused. Through inhibitor studies and fluorescence microscopywe show that docking is preceded by a tethering step that requiresactin polymerization and calmodulin. In the docked state ongoingactin polymerization and calmodulin are no longer necessary.The tethering/docking activity was purified to near homogeneityfrom rat liver cytosol. Major proteins in the active fractionsincluded actin, calmodulin and IQGAP2. IQGAPs are known to bindcalmodulin and cross-link F-actin, suggesting a key coordinatingrole during lysosome/phagosome attachment. The current resultssupport the conclusion that lysosome/phagosome interactionsproceed through distinct stages and provide a useful new approachfor further experimental dissection.

Address correspondence to: Axel Nohturfft (axno{at}mcb.harvard.edu)

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