Antibody-secreting cells (ASCs) or plasma cells secrete antibodies and form a cornerstone of humoral immunity. B cells that receive activation signals in the presence or absence of T cells initiate a differentiation program that requires epigenetic and transcriptional reprogramming in order to ultimately form ASC. Reprogramming is accomplished through the interplay of transcription factors that initiate gene expression programs and epigenetic mechanisms that maintain these programs and cell fates. An important consideration is that all of these factors are operating in the context of cell division. Recent technical advances now allow mechanistic studies to move beyond genetic studies to identify the promoters and enhancer repertoires that are regulated by epigenetic mechanisms and transcription factors in rare cell types and differentiation stages in vivo. This review will detail efforts to integrate transcriptional and epigenetic changes during B cell differentiation with cell division in vivo. What has emerged is a multiphased differentiation model that requires distinct transcription factors and epigenetic programs at each step. The identification of markers that define each phase will help facilitate the manipulation of B cell differentiation for vaccine development or to treat diseases where antibodies are a component.
Keywords: B cell; antibody-secreting cell; cell division; epigenetic; plasma cell; transcription factor.
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