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PROTEIN AND VESICLE TRAFFICKING, CYTOSKELETON

High turnover of ezrin T567 phosphorylation: conformation, activity, and cellular function

University of California, Berkeley, California

Submitted 21 March 2007 ; accepted in final form 4 June 2007

In its dormant state, the membrane cytoskeletal linker protein ezrin takes on a NH₂ terminal-to-COOH terminal (N-C) binding conformation. In vitro evidence suggests that eliminating the N-C binding conformation by Thr⁵⁶⁷ phosphorylation leads to ezrin activation. Here, we found for resting gastric parietal cells that the levels of ezrin phosphorylation on Thr⁵⁶⁷ are low and can be increased to a small extent (40%) by stimulating secretion via the cAMP pathway. Treatment of cells with protein phosphatase inhibitors led to a rapid, dramatic increase in Thr⁵⁶⁷ phosphorylation by 400% over resting levels, prompting the hypothesis that ezrin activity is regulated by turnover of phosphorylation on Thr⁵⁶⁷. In vitro and in vivo fluorescence resonance energy transfer analysis demonstrated that Thr⁵⁶⁷ phosphorylation opens the N-C interaction. However, even in the closed conformation, ezrin localizes to membranes by an exposed NH₂ terminal binding site. Importantly, the opened phosphorylated form of ezrin more readily cosediments with F-actin and binds more tightly to membrane than the closed forms. Furthermore, fluorescence recovery after photobleaching analysis in live cells showed that the Thr567Asp mutant had longer recovery times than the wild type or the Thr567Ala mutant, indicating the Thr⁵⁶⁷-phosphorylated form of ezrin is tightly associated with F-actin and the membrane, restricting normal activity. These data demonstrate and emphasize the functional importance of reversible phosphorylation of ezrin on F-actin binding. A novel model is proposed whereby ezrin and closely associated kinase and phosphatase proteins represent a motor complex to maintain a dynamic relationship between the varying membrane surface area and filamentous actin length.

ezrin/radixin/moesin protein; motor complex; gastric parietal cell; fluorescence resonance energy transfer; fluorescence recovery after photobleaching

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