The genetic network controlling plasma cell differentiation

SL Nutt, N Taubenheim, J Hasbold, LM Corcoran… - Seminars in …, 2011 - Elsevier
SL Nutt, N Taubenheim, J Hasbold, LM Corcoran, PD Hodgkin
Seminars in immunology, 2011Elsevier
Upon activation by antigen, mature B cells undergo immunoglobulin class switch
recombination and differentiate into antibody-secreting plasma cells, the endpoint of the B
cell developmental lineage. Careful quantitation of these processes, which are stochastic,
independent and strongly linked to the division history of the cell, has revealed that
populations of B cells behave in a highly predictable manner. Considerable progress has
also been made in the last few years in understanding the gene regulatory network that …
Upon activation by antigen, mature B cells undergo immunoglobulin class switch recombination and differentiate into antibody-secreting plasma cells, the endpoint of the B cell developmental lineage. Careful quantitation of these processes, which are stochastic, independent and strongly linked to the division history of the cell, has revealed that populations of B cells behave in a highly predictable manner. Considerable progress has also been made in the last few years in understanding the gene regulatory network that controls the B cell to plasma cell transition. The mutually exclusive transcriptomes of B cells and plasma cells are maintained by the antagonistic influences of two groups of transcription factors, those that maintain the B cell program, including Pax5, Bach2 and Bcl6, and those that promote and facilitate plasma cell differentiation, notably Irf4, Blimp1 and Xbp1. In this review, we discuss progress in the definition of both the transcriptional and cellular events occurring during late B cell differentiation, as integrating these two approaches is crucial to defining a regulatory network that faithfully reflects the stochastic features and complexity of the humoral immune response.
Elsevier