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  • A balance of Bruton's tyrosine kinase and SHIP activation regulates B cell receptor cluster formation by controlling actin remodeling.

A balance of Bruton's tyrosine kinase and SHIP activation regulates B cell receptor cluster formation by controlling actin remodeling.

Journal of immunology (Baltimore, Md. : 1950) (2011-05-31)
Chaohong Liu, Heather Miller, King Lam Hui, Brian Grooman, Silvia Bolland, Arpita Upadhyaya, Wenxia Song
ABSTRACT

The activation of the BCR, which initiates B cell activation, is triggered by Ag-induced self-aggregation and clustering of receptors at the cell surface. Although Ag-induced actin reorganization is known to be involved in BCR clustering in response to membrane-associated Ag, the underlying mechanism that links actin reorganization to BCR activation remains unknown. In this study, we show that both the stimulatory Bruton's tyrosine kinase (Btk) and the inhibitory SHIP-1 are required for efficient BCR self-aggregation. In Btk-deficient B cells, the magnitude of BCR aggregation into clusters and B cell spreading in response to an Ag-tethered lipid bilayer is drastically reduced, compared with BCR aggregation observed in wild-type B cells. In SHIP-1(-/-) B cells, although surface BCRs aggregate into microclusters, the centripetal movement and growth of BCR clusters are inhibited, and B cell spreading is increased. The persistent BCR microclusters in SHIP-1(-/-) B cells exhibit higher levels of signaling than merged BCR clusters. In contrast to the inhibition of actin remodeling in Btk-deficient B cells, actin polymerization, F-actin accumulation, and Wiskott-Aldrich symptom protein phosphorylation are enhanced in SHIP-1(-/-) B cells in a Btk-dependent manner. Thus, a balance between positive and negative signaling regulates the spatiotemporal organization of the BCR at the cell surface by controlling actin remodeling, which potentially regulates the signal transduction of the BCR. This study suggests a novel feedback loop between BCR signaling and the actin cytoskeleton.