Cell Biology & Molecular Genetics Theses and Dissertations

Permanent URI for this collectionhttp://hdl.handle.net/1903/2750

Browse

Filters

2005 - 20072

Settings

Subject: search.filters.subject.B cells

Search Results

Now showing 1 - 2 of 2
  • Thumbnail Image
    Item
    The Effects of Antigen Valency and CpG ODN on B Cells
    (2007-03-27) Arunkumar, Nandini; Song, Wenxia; Cell Biology & Molecular Genetics; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    B cells express toll-like receptor 9 (TLR9), that recognizes microbial DNA containing unmethylated cytosyl guanosyl (CpG) sequences, induces innate immune responses and facilitates antigen-specific adaptive immunity. Studies indicate that in addition to stimulating innate immunity, TLR9 ligands can induce apoptosis in TLR9 expressing cancer cells. To understand the mechanism for TLR9-induced apoptosis, we compared the effects of CpG containing oligodeoxynucleotides (CpG ODN) on mouse primary, splenic B cells and a mouse lymphoma B cell line, CH27. CpG ODN stimulated the proliferation of primary B cells but inhibited cell proliferation and induced apoptosis in CH27 lymphoma B cells in a sequence-specific, TLR9-dependent fashion. While CpG ODN induced sustained activation of NF-B and increase in c-myc protein levels in primary B cells, NF-B activation was transient in the lymphoma B cells. These data suggest that the differential effects of CpG DNA on primary and lymphoma B cells occur due to differences in NF-B activation. The CpG ODN-induced impaired NF-B activation in the lymphoma B cells results in an imbalance between NF-B and c-myc activities, inducing apoptosis in TLR9-expressing B lymphoma cells. The B cell antigen receptor (BCR) binds to antigens in their native form. The BCR can distinguish subtle differences in antigen structure and trigger differential responses. Here, we analyzed the effects of antigen valency on the functions of the BCR using three different antigen systems - anti-BCR antibody -based antigens, phosphorylcholine (PC)-based antigens, and hen egg lysozyme (HEL)-based antigens. While both paucivalent and polyvalent antigens induced the redistribution of surface BCR into microdomains, polyvalent antigen-induced BCR microdomains persisted. Significantly, this trend was consistently observed in all three antigen systems studied. Ganglioside GM1, tyrosine-phosphorylated proteins and phosphorylated ERK colocalized with BCR microdomains, suggesting these function as surface signaling microdomains. Co-receptor, CD19 and MHC class II molecules, but not CD45 and transferrin receptor, concentrated in the BCR surface microdomains. Prolonged BCR caps were also concomitant with a reduction in BCR movement to late endosomes/lysosomes. Thus, antigen valency influences B cell responses by modulating the stability of BCR-signaling microdomains and BCR-mediated antigen transport.
  • Thumbnail Image
    Item
    The M167 mu+kappa Immunoglobulin Transgene Increases Susceptibility to Pristane-Induced Plasmacytomas In BALB/c Mice
    (2005-04-20) Williams, Kimberly Gayle; Potter, Michael; Molecular and Cell Biology; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    The goal of this research was to investigate the role of Ig transgenes (Tgs) in plasma cell tumor development as a useful means of examining potential antigen-specific B cell precursors. The Ig Tg M167mk (V1 mu plus Vk24) on a genetically PCT-susceptible BALB/c background was used to determine if B cells expressing anti-phosphorylcholine (PC) B cell receptors are more susceptible than non-Tg littermates to pristane induction of plasma cell tumors. The M167mk Tg mice, which express the anti-PC M167 BCR on >97% of B cells, developed a higher percentage of plasma cell tumors (63%) compared to non-Tg BALB/cAnPt littermates (35%), p<0.01, and had a reduced latent period from 240 to 200 days. Serologic and nucleic acid analysis of Igs expressed by Tg tumors revealed co-expression of the M167-id V1-mu/Vk24 transgenes and a rearranged endogenous VH-alpha/Vk Ig. In an attempt to learn something of the natural history of the PCT precursor B cell, the M167mk transgene and endogenous VH/VL Ig mRNA from Tg PCT cells were sequenced for evidence of somatic hypermutation, a hallmark of T-cell dependent germinal center activity. M167mu and k Tg mRNA transcripts revealed no evidence of mutation of the transgenes; however, sequencing of endogenous Ig mRNA from M167mk Tg PCTs showed that 80% contained somatic hypermutation (SHM) and 20% had germline Ig genes. PCTs from control groups, BALB/c non-Tg littermates and C.B20 mice, also contained 80% SHM and 20% germline Ig genes. M167mk Tg mice have an increased (MZ) B cell population (15-25% B220+), a hyper-activated TI responsive B cell phenotype, compared to non-Tg WT mice (5-10% B220+). These data suggest that PC-responsive M167mk B cells are a PCT-susceptible subset, as the M167mk Tg BCR generates B cell clones that are responsive to bacterial PC antigen that likely enhances overall proliferation of B cells during PCT development, thereby increasing the chances of a neoplastic B cell clone to expand and increasing the susceptibility of M167mk Tg mice to the induction of PCTS.