Yinghua Liang scite author profile

CD20 plays a role in human B cell proliferation and is an effective target for immunotherapy. In this study, mouse CD20 expression and biochemistry were assessed for the first time using a new panel of CD20-specific mAb, with CD20 function assessed using CD20-deficient (CD20(-/-)) mice. CD20 expression was B cell restricted and was initiated during late pre-B cell development. The frequency and density of CD20 expression increased during B cell maturation in the bone marrow, with a subpopulation of transitional IgM(hi) B cells expressing higher CD20 levels than the majority of mature recirculating B cells. Transitional T1 B cells in the spleen also expressed high CD20 levels, providing a useful new marker for this B cell subset. In CD20(-/-) mice, immature and mature B cell IgM expression was approximately 20-30% lower relative to B cells from wild-type littermates. In addition, CD19-induced intracellular calcium responses were significantly reduced in CD20(-/-) B cells, with a less dramatic effect on IgM-induced responses. These results reveal a role for CD20 in transmembrane Ca(2+) movement in mouse primary B cells that complements previous results obtained using human CD20 cDNA-transfected cell lines. Otherwise, B cell development, tissue localization, signal transduction, proliferation, T cell-dependent antibody responses and affinity maturation were normal in CD20(-/-) mice. Thus, mouse and human CD20 share similar patterns of expression and function. These studies thereby provide an animal model for studying CD20 function in vivo and the molecular mechanisms that influence anti-CD20 immunotherapy.

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Identification of a CD20-, FcϵRIβ-, and HTm4-Related Gene Family: Sixteen New MS4A Family Members Expressed in Human and Mouse

Liang

2001

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Structural organization of the human MS4A gene cluster on Chromosome 11q12

Liang

Buckley

et al. 2001

Immunogenetics

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CD20, the high-affinity IgE receptor beta chain (FcepsilonRIbeta), and HTm4 are structurally related cell surface proteins expressed by hematopoietic cells. Recently, 16 novel human and mouse genes were identified that encode new members of this nascent protein family that we have named the membrane-spanning 4A gene family, with at least 12 subgroups (MS4A1-MS4A12). In the current study, we identified three additional human MS4A genes: MS4A4E, MS4A6E, and MS4A10. All family members have at least four potential transmembrane domains and N- and C-terminal cytoplasmic domains encoded by distinct exons, except MS4A6E which contains two transmembrane domains. Otherwise, the 12 currently identified MS4A genes share common structural features and similar intron/exon splice boundaries, and are clustered along an approximately 600-kb region of Chromosome 11q12. In contrast to other MS4A genes, MS4A4E, MS4A6E, and MS4A10 transcripts were rare and not detected among hematopoietic cells and most nonlymphoid tissues. Sequence polymorphisms were identified in the MS4A6E gene and common splice variants were observed for the MS4A4A, MS4A5, MS4A6A, and MS4A7 genes. Thus, the MS4A family currently includes 24 distinct human and mouse genes. Like CD20 and FcepsilonRIbeta, the 10 other human MS4A family members are likely to be components of oligomeric cell surface complexes involved in signal transduction in diverse cell lineages.

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Yinghua Liang

Mouse CD20 expression and function

Identification of a CD20-, FcϵRIβ-, and HTm4-Related Gene Family: Sixteen New MS4A Family Members Expressed in Human and Mouse

Structural organization of the human MS4A gene cluster on Chromosome 11q12

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