Wenxia Song scite author profile

A major function of the B cell is the internalization of antigen through the BCR for processing and presentation to T cells. While there is evidence suggesting that lipid raft signaling may regulate internalization, the molecular machinery coordinating these two processes remains to be defined. Here we present a link between the B cell signaling and internalization machinery and show that Src-family kinase activity is required for inducible clathrin heavy chain phosphorylation, BCR colocalization with clathrin, and regulated internalization. An analysis of different B cell lines shows that BCR uptake occurs only when clathrin is associated with rafts and is tyrosine phosphorylated following BCR crosslinking. We therefore propose that lipid rafts spatially organize signaling cascades with clathrin to regulate BCR internalization.

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Caveolae internalization repairs wounded cells and muscle fibers

Corrotte

et al. 2013

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Rapid repair of plasma membrane wounds is critical for cellular survival. Muscle fibers are particularly susceptible to injury, and defective sarcolemma resealing causes muscular dystrophy. Caveolae accumulate in dystrophic muscle fibers and caveolin and cavin mutations cause muscle pathology, but the underlying mechanism is unknown. Here we show that muscle fibers and other cell types repair membrane wounds by a mechanism involving Ca2+-triggered exocytosis of lysosomes, release of acid sphingomyelinase, and rapid lesion removal by caveolar endocytosis. Wounding or exposure to sphingomyelinase triggered endocytosis and intracellular accumulation of caveolar vesicles, which gradually merged into larger compartments. The pore-forming toxin SLO was directly visualized entering cells within caveolar vesicles, and depletion of caveolin inhibited plasma membrane resealing. Our findings directly link lesion removal by caveolar endocytosis to the maintenance of plasma membrane and muscle fiber integrity, providing a mechanistic explanation for the muscle pathology associated with mutations in caveolae proteins.DOI: http://dx.doi.org/10.7554/eLife.00926.001

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WASp-deficient B cells play a critical, cell-intrinsic role in triggering autoimmunity

et al. 2011

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A Balance of Bruton’s Tyrosine Kinase and SHIP Activation Regulates B Cell Receptor Cluster Formation by Controlling Actin Remodeling

et al. 2011

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The activation of the B-cell receptor (BCR), which initiates B-cell activation, is triggered by antigen-induced self-aggregation and clustering of receptors at the cell surface. While antigen-induced actin reorganization is known to be involved in BCR clustering in response to membrane-associated antigen, the underlying mechanism that links actin reorganization to BCR activation remains unknown. Here we show that both the stimulatory Bruton’s tyrosine kinase (Btk) and the inhibitory SH2-containing inositol-5 phosphatase-1 (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 antigen-tethered lipid bilayer is drastically reduced, compared to that observed in wild type B-cells. In SHIP-1−/− B-cells, while 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−/− B-cells exhibit higher levels of signaling than merged BCR clusters. Contrast to the inhibition of actin remodeling in Btk-deficient B-cells, actin polymerization, F-actin accumulation, and WASP 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.

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N-WASP Is Essential for the Negative Regulation of B Cell Receptor Signaling

et al. 2013

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Wenxia Song

Lipid Rafts Unite Signaling Cascades with Clathrin to Regulate BCR Internalization

Caveolae internalization repairs wounded cells and muscle fibers

WASp-deficient B cells play a critical, cell-intrinsic role in triggering autoimmunity

A Balance of Bruton’s Tyrosine Kinase and SHIP Activation Regulates B Cell Receptor Cluster Formation by Controlling Actin Remodeling

N-WASP Is Essential for the Negative Regulation of B Cell Receptor Signaling

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