In immunology, affinity maturation is the process by which TFH cell-activated B cells produce antibodies with increased affinity for antigen during the course of an immune response. With repeated exposures to the same antigen, a host will produce antibodies of successively greater affinities. A secondary response can elicit antibodies with several fold greater affinity than in a primary response. Affinity maturation primarily occurs on membrane immunoglobulin of germinal center B cells and as a direct result of somatic hypermutation (SHM) and selection by TFH cells.
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The process is thought to involve two interrelated processes, occurring in the germinal centers of the secondary lymphoid organs:
Somatic hypermutation: Mutations in the variable, antigen-binding coding sequences (known as complementarity-determining regions (CDR)) of the immunoglobulin genes. The mutation rate is up to 1,000,000 times higher than in cell lines outside the lymphoid system. Although the exact mechanism of the SHM is still not known, a major role for the activation-induced (cytidine) deaminase has been discussed. The increased mutation rate results in 1-2 mutations per CDR and, hence, per cell generation. The mutations alter the binding specificity and binding affinities of the resultant antibodies.
Clonal selection: B cells that have undergone SHM must compete for limiting growth resources, including the availability of antigen and paracrine signals from TFH cells. The follicular dendritic cells (FDCs) of the germinal centers present antigen to the B cells, and the B cell progeny with the highest affinities for antigen, having gained a competitive advantage, are favored for positive selection leading to their survival. Positive selection is based on steady cross-talk between TFH cells and their cognate antigen presenting GC B cell. Because a limited number of TFH cells reside in the germinal center, only highly competitive B cells stably conjugate with TFH cells and thus receive T cell-dependent survival signals.
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