Xiaobo Nie scite author profile

Xiaobo Nie

3Publications

55Citation Statements Received

27Citation Statements Given

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University of Maryland, Baltimore

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Immunization with immune complex alters the repertoire of antigen‐reactive B cells in the germinal centers

1997

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The differentiation of memory B cells in germinal centers (GC) is selectively enhanced upon administration of antigen-antibody complexes. To characterize the repertoire of this response, we examined the rearranged immunoglobulin heavy chain variable (V(H)) genes from mouse splenic GC after a single immunization with either antigen, nitrophenyl (NP) hapten coupled to keyhole limpet hemocyanin, or with a preformed complex of antigen with a monoclonal anti-NP antibody of gamma1 isotype. Among antigen-immunized mice, NP-reactive GC B cell populations in the antigen-induced GC consisted mostly of cells expressing the canonical V186.2 gene which contained, on average, 0.8 point mutations/V(H) gene by day 8 after immunization. These results are indicative of the beginning of somatic hypermutation and consistent with previously published analyses of NP antigen-driven GC. In contrast, the NP-specific B cells in GC that were elicited by administration of immune complex represented a heterogeneous cell population expressing nine different germ-line segments of the V186.2/V3 (J558) gene family, i.e. V23, V24.8, C1H4, V3, CH10, V165.1, V102, V671.5 and V186.2. Moreover, the average frequency of mutations in these genes was 1.7, reaching up to 4 mutations/V(H) in some GC. Administration of the antigen NP in complex with specific antibody apparently alters the process of interclonal competition in the GC and results in loss of dominance by V186.2+ cells and nearly stochastic representation of diverse clonotypes. These results suggest an important feedback regulation of the B cell repertoire by antibody and indicate a role for immune complexes in the activation of somatic hypermutation.

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Antibody feedback and somatic mutation in B cells: regulation of mutation by immune complexes with IgG antibody

Song

Nie

Basu

et al. 1998

Immunological Reviews

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In response to an appropriate antigenic stimulus, and with help from T lymphocytes, naive B cells differentiate into plasmacytes which produce the primary (germline-encoded) IgM and IgG antibody with low affinity for the antigen. The isotype switch from IgM to IgG coincides with the burst of germinal center reaction and the onset of somatic hypermutation. Here we propose that formation of immune complexes between the residual antigen and the primary IgG antibody, which activate complement and localize specifically in the network of follicular dendritic cells, provides an important signal for triggering the mutation mechanism in germinal center B cells. This hypothesis has been supported by studies on immunogenicity of immune complexes in vivo. The experiments have included an immunization with pre-formed antigen/IgG antibody complex and/or an administration of IgG antibody shortly after the antigen injection. Either of these strategies, which are known to augment the germinal center formation, resulted in earlier onset of somatic mutation and increased mutation frequency in VDJ rearrangements in antigen-reactive B cells, provided that help from T cells was also present. It is presumed that the antigen/antibody/complement complex is able to deliver this important signal by cross-linking of antigen receptor with the CD21/CD19/CD81 molecules on B cells. As a corollary, the signaling by immune complexes may lower the threshold of cell activation determined by receptor affinity for antigen and stimulate diverse V-gene repertoire of B-cell clones in germinal centers.

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Regulation of V_H gene repertoire and somatic mutation in germinal centre B cells by passively administered antibody

et al. 1999

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Immunization with T-dependent antigens induces a rapid differentiation of B cells to plasmacytes that produce the primary immunoglobulin M (IgM) and IgG antibodies with low affinities for the immunogen. It is proposed that the IgG antibody forms immune complexes with the residual antigen which provide an important stimulus for the formation of germinal centres (GC) and the activation of somatic mutation. This hypothesis was tested by passive administration of hapten-specific antibody into mice shortly after the immunization with nitrophenyl (NP) coupled to chicken gamma globulin (NP-CGG) in an environment of limited T-cell help. Athymic mice that received normal T helper cells at 72 hr after the administration of antigen produced low levels of anti-NP antibody and the splenic GC formation was delayed until day 12 after the antigen administration. The analysis of VDJ segments from NP-reactive GC B cells showed very few mutations in the VH genes. Passive injection of anti-NP IgG1 monoclonal antibody - but, not IgM - stimulated the GC formation up to normal levels and the somatic mutation activity in the GC B cells was fully restored. In addition, GC B cells in the recipients of IgG1 antibody demonstrated a change in the usage of germline-encoded VH genes which was not apparent among the primary antibody-forming cells. These results suggest the existence of a specific feedback mechanism whereby the IgG antibody regulates the GC formation, clonotypic repertoire and somatic mutation in GC B cells.

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Xiaobo Nie

Immunization with immune complex alters the repertoire of antigen‐reactive B cells in the germinal centers

Antibody feedback and somatic mutation in B cells: regulation of mutation by immune complexes with IgG antibody

Regulation of V_H gene repertoire and somatic mutation in germinal centre B cells by passively administered antibody

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Xiaobo Nie

Immunization with immune complex alters the repertoire of antigen‐reactive B cells in the germinal centers

Antibody feedback and somatic mutation in B cells: regulation of mutation by immune complexes with IgG antibody

Regulation of VH gene repertoire and somatic mutation in germinal centre B cells by passively administered antibody

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Regulation of V_H gene repertoire and somatic mutation in germinal centre B cells by passively administered antibody