The dissociation activation model of B cell antigen receptor triggering
11.10.2010
Jianying Yang and Michael Reth
FEBS Lett. (2010), doi:10.1016/j.febslet.2010.09.045
To detect its cognate antigen, each B lymphocyte contains up to 120 000 B cell antigen receptor (BCR) complexes on its cell surface. How these abundant receptors remain silent on resting B cells and how they can be activated by a molecularly diverse set of ligands is poorly understood. The anti- gen-specific activation of the BCR is currently explained by the cross-linking model (CLM). This model predicts that the many BCR complexes on the surface of a B cell are dispersed signalling-inert monomers and that it is BCR dimerization that initiates signalling from the receptor. The finding that the BCR forms auto-inhibited oligomers on the surface of resting B cells falsifies these predictions of the CLM. We propose the dissociation activation model (DAM), which fits better with the existing body of experimental data.
