Immunogenetics of marsupial B-cells

•The development of B-cells in marsupials has been reported and hypothesised to be similar to eutherians.•We discuss marsupial B-cell development, differentiation, regulation and function and compare it to eutherian B-cells.•Enhancing our understanding of B-cells and B-cell genes in marsupials will...

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Bibliographic Details
Published in:Molecular immunology 2020-01, Vol.117, p.1-11
Main Authors: Schraven, Andrea L., Stannard, Hayley J., Ong, Oselyne T.W., Old, Julie M.
Format: Article
Language:English
Subjects:
Adaptive immunity
Animals
B-Lymphocytes - immunology
Evolution
Immunogenetics
Immunology
Mammalian
Marsupialia - immunology
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Summary:•The development of B-cells in marsupials has been reported and hypothesised to be similar to eutherians.•We discuss marsupial B-cell development, differentiation, regulation and function and compare it to eutherian B-cells.•Enhancing our understanding of B-cells and B-cell genes in marsupials will increase knowledge of the marsupial immune system. Marsupials and eutherians are mammals that differ in their physiological traits, predominately their reproductive and developmental strategies; eutherians give birth to well-developed young, while marsupials are born highly altricial after a much shorter gestation. These developmental traits also result in differences in the development of the immune system of eutherian and marsupial species. In eutherians, B-cells are the key to humoral immunity as they are found in multiple lymphoid organs and have the unique ability to mediate the production of antigen-specific antibodies in the presence of extracellular pathogens. The development of B-cells in marsupials has been reported and hypothesised to be similar to that of eutherians, except that haematopoiesis occurs in the liver, postpartum, until the bone marrow fully matures. In eutherians, specific genes are linked to specific stages in B-cell development, maturation, and differentiation processes, and have been identified including immunoglobulins (heavy and light chains), cluster of differentiation markers (CD10, 19, 34 and CD79α/β), signal transduction molecules (BTK, Lyn and Syk) and transcriptional regulators (EBF1, E2A, and Pax5). This review aims to discuss the known similarities and differences between marsupial and eutherian B-cells, in regards to their genetic presence, homology, and developmental stages, as well as to highlight the areas requiring further investigation. By enhancing our understanding of the genes that are involved with B-cells in the marsupial lineage, it will, in turn, aid our understanding of the marsupial immune system and support the development of specific immunological reagents for research and wildlife conservation purposes.
ISSN:0161-5890
1872-9142
DOI:10.1016/j.molimm.2019.10.024