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Translating transitions - How to decipher peripheral human B cell development

Forskningsöversiktsartikel
Författare Mats Bemark
Publicerad i Journal of Biomedical Research
Volym 29
Nummer/häfte 4
Sidor 264-284
ISSN 1674-8301
Publiceringsår 2015
Publicerad vid Institutionen för biomedicin, avdelningen för mikrobiologi och immunologi
Sidor 264-284
Språk en
Länkar dx.doi.org/10.7555/JBR.29.20150035
Ämnesord B cell, differentiation
Ämneskategorier Immunologi, Immunbiologi

Sammanfattning

© 2015 by the Journal of Biomedical Research. During the last two decades our understanding of human B cell differentiation has developed considerably. Our understanding of the human B cell compartment has advanced from a point where essentially all assays were based on the presence or not of class-switched antibodies to a level where a substantial diversity is appreciated among the cells involved. Several consecutive transitional stages that newly formed IgM expressing B cells go through after they leave the bone marrow, but before they are fully mature, have been described, and a significant complexity is also acknowledged within the IgM expressing and class-switched memory B cell compartments. It is possible to isolate plasma blasts in blood to follow the formation of plasma cells during immune responses, and the importance and uniqueness of the mucosal IgA system is now much more appreciated. Current data suggest the presence of at least one lineage of human innate-like B cells akin to B1 and/or marginal zone B cells in mice. In addition, regulatory B cells with the ability to produce IL-10 have been identified. Clinically, B cell depletion therapy is used for a broad range of conditions. The ability to define different human B cell subtypes using flow cytometry has therefore started to come into clinical use, but as our understanding of human B cell development further progresses, B cell subtype analysis will be of increasing importance in diagnosis, to measure the effect of immune therapy and to understand the underlying causes for diseases. In this review the diversity of human B cells will be discussed, with special focus on current data regarding their phenotypes and functions.

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