Different stimulating effects of complement C3b and complete Freund's adjuvant on antibody response.

[1]  P. Marche,et al.  Amplification of the antibody response by C3b complexed to antigen through an ester link. , 1998, Journal of immunology.

[2]  V. Holers,et al.  Expression of complement receptors 1 and 2 on follicular dendritic cells is necessary for the generation of a strong antigen-specific IgG response. , 1998, Journal of immunology.

[3]  G. Kelsoe,et al.  Dependence of germinal center B cells on expression of CD21/CD35 for survival. , 1998, Science.

[4]  V. Holers,et al.  Cross-linking CD21/CD35 or CD19 increases both B7-1 and B7-2 expression on murine splenic B cells. , 1998, Journal of immunology.

[5]  M. Carroll,et al.  The role of complement and complement receptors in induction and regulation of immunity. , 1998, Annual review of immunology.

[6]  P. Marche,et al.  Complement C3b fragment covalently linked to tetanus toxin increases lysosomal sodium dodecyl sulfate‐stable HLA‐DR dimer production , 1997, European journal of immunology.

[7]  M. Jacquier-Sarlin,et al.  Covalent binding of C3b to tetanus toxin: influence on uptake/internalization of antigen by antigen‐specific and non‐specific B cells , 1996, Immunology.

[8]  E. Kremmer,et al.  Regulation of the B cell response to T-dependent antigens by classical pathway complement. , 1996, Journal of immunology.

[9]  R. Karr,et al.  Markedly impaired humoral immune response in mice deficient in complement receptors 1 and 2. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[10]  G. Kelsoe,et al.  Antibody response to a T-dependent antigen requires B cell expression of complement receptors , 1996, The Journal of experimental medicine.

[11]  J. Ahearn,et al.  Disruption of the Cr2 locus results in a reduction in B-1a cells and in an impaired B cell response to T-dependent antigen. , 1996, Immunity.

[12]  Christopher C. Goodnow,et al.  C3d of Complement as a Molecular Adjuvant: Bridging Innate and Acquired Immunity , 1996, Science.

[13]  K. Shokat,et al.  Antigen-induced B-cell death and elimination during germinal-centre immune responses , 1995, Nature.

[14]  V. M. Holers,et al.  Co‐ligation of mouse complement receptors 1 and 2 with surface IgM rescues splenic B cells and WEHI‐231 cells from anti‐surface IgM‐induced apoptosis , 1995, European journal of immunology.

[15]  C. Villiers C3, protéine du complément : une molécule aux multiples capacités , 1995 .

[16]  M. Jacquier-Sarlin,et al.  Modulation of antigen processing and presentation by covalently linked complement C3b fragment. , 1995, Immunology.

[17]  Liangji Zhou,et al.  The CD19/CD21 signal transduction complex of B lymphocytes. , 1994, Immunology today.

[18]  C. Drouet,et al.  Covalent binding of C3b to monoclonal antibodies selectively up‐regulates heavy chain epitope recognition by T cells , 1994, European journal of immunology.

[19]  D. Fearon,et al.  Functional dissection of the CD21/CD19/TAPA-1/Leu-13 complex of B lymphocytes , 1993, The Journal of experimental medicine.

[20]  M. Colomb,et al.  Involvement of the Zn-binding region of tetanus toxin in B and T recognition. Influence of Zn fixation. , 1993, Molecular Immunology.

[21]  B. Nilsson,et al.  Conformational differences between surface-bound and fluid-phase complement-component-C3 fragments. Epitope mapping by cDNA expression. , 1992, The Biochemical journal.

[22]  C. Maison,et al.  Formation of Covalent C3b‐Tetanus Toxin Complexes: a Tool for the In Vitro Study of Antigen Presentation , 1991, Scandinavian journal of immunology.

[23]  V. Holers,et al.  Analysis of Epstein-Barr virus-binding sites on complement receptor 2 (CR2/CD21) using human-mouse chimeras and peptides. At least two distinct sites are necessary for ligand-receptor interaction. , 1991, The Journal of biological chemistry.

[24]  D. Tuveson,et al.  Intersection of the complement and immune systems: a signal transduction complex of the B lymphocyte-containing complement receptor type 2 and CD19 , 1991, The Journal of experimental medicine.

[25]  E. Böttger,et al.  Complement and the regulation of humoral immune responses. , 1987, Immunology today.

[26]  D. Bitter‐Suermann,et al.  The role and mechanism of cobra venom factor-induced suppression of the humoral immune response in guinea pigs. , 1986, Journal of immunology.

[27]  F. Melchers,et al.  The action of human C3 in soluble or cross‐linked form with resting and activated murine B lymphocytes , 1985, European journal of immunology.

[28]  A. Falus,et al.  Appearance of covalently bound antigen in immune complexes formed during the activation of complement. , 1984, Journal of immunological methods.

[29]  T. Schulz,et al.  Role of C3b receptors in the enhancement of interleukin-2-dependent T-cell proliferation. , 1984, Molecular immunology.

[30]  J. Ripoche,et al.  Purification of complement components by hydrophobic affinity chromatography on phenyl—Sepharose , 1982 .

[31]  G. Klaus,et al.  The generation of memory cells. I. The role of C3 in the generation of B memory cells. , 1977, Immunology.

[32]  K. Hartmann,et al.  Stimulation of murine B lymphocytes by isolated C3b , 1975, The Journal of experimental medicine.

[33]  E. Holborow,et al.  Complement Dependence of Localisation of Aggregated IgG in Germinal Centres , 1975, Scandinavian journal of immunology.

[34]  M. Pepys ROLE OF COMPLEMENT IN INDUCTION OF ANTIBODY PRODUCTION IN VIVO , 1974, The Journal of experimental medicine.