1. Filamin A stabilizes Fc gamma RI surface expression and prevents its lysosomal routing
- Author
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Beekman, Jeffrey M., van der Poel, Cees E., van der Linden, Joke A., van den Berg, Debbie L. C., van den Berghe, Peter V. E., van de Winkel, Jan G. J., Leusen, Jeanette H. W., and University of Groningen
- Subjects
body regions ,TRANSGENIC MICE ,CELL RECEPTOR ,animal structures ,ACTIVATED PROTEIN-KINASE ,IMMUNOGLOBULIN ,CHAIN ,PERIPLAKIN ,macromolecular substances ,ACTIN-BINDING PROTEIN ,HIGH-AFFINITY RECEPTOR ,CD64 LIGAND-BINDING ,TERMINAL TAIL - Abstract
Filamin A, or actin-binding protein 280, is a ubiquitously expressed cytosolic protein that interacts with intracellular domains of multiple receptors to control their subcellular distribution, and signaling capacity. In this study, we document interaction between Fc gamma RI, a high-affinity IgG receptor, and filamin A by yeast two-hybrid techniques and coimmunoprecipitation. Both proteins colocalized at the plasma membrane in monocytes, but dissociated upon Fc gamma RI triggering. The filamin-deficient cell line M2 and a filamin-reconstituted M2 subclone (A7), were used to further study Fc gamma RI-filamin interactions. Fc gamma RI transfection in A7 cells with filamin resulted in high plasma membrane expression levels. In filamin-deficient M2 cells and in filamin RNA-interference studies, Fc gamma RI surface expression was consistently reduced. Fc gamma RI localized to LAMP-1-positive vesicles in the absence of filamin as shown by confocal microscopy indicative for lysosomal localization. Mouse IgG2a capture experiments suggested a transient membrane expression of Fc gamma RI before being transported to the lysosomes. These data support a pivotal role for filamin in Fc gamma RI surface expression via retention of Fc gamma RI from a default lysosomal pathway.
- Published
- 2008